Square D Engineering Services - VA Vendor Portal

Square D Engineering Services

21680 Gateway Center Dr, Suite 300 Diamond Bar, CA 91765

(909)569-7194

COVER LETTER

DATE: November 24, 2008 TO: Khim Chudasama

Department of Veteran Affairs 811 Vermont Avenue NW Room 478 Washington, DC 20420

SUBJECT: Final Copy of Power System Studies and Site Assessment

Veterans Administration Medical Center Wilmington, DE Dear Mr. Chudasama,

Attached is a hard copy of the final power system analysis for the VA Medical Center facility in Wilmington, DE. Also included is a CD including the report text, drawings, and SKM files. I appreciate the opportunity to have worked with you on this project. If you have questions, concerns, or require further assistance, please do not hesitate to contact me. Regards, Calib Burk Square D Engineering Services

c.c. Mark Taylor- VA Medical Center-Wilmington, DE David Woodfin-Square D Company-Austin, TX Paul Mas-Square D Company-Philadelphia, PA


21680 Gateway Center Dr, Suite 300 Diamond Bar, CA 91765

(909)569-7194

COVER PAGE

SHORT-CIRCUIT, VOLTAGE DROP, OVERCURRENT DEVICE COORDINATION &

ARC FLASH HAZARD ANALYSES

Veterans Administration Medical Center Wilmington, DE

Prepared by Calib Burk, EIT Paul Mas, PE


Square D Engineering Services Job Number - October 8, 2008

Q2C: 25823596 90% Submittal 10/31/08

Final Submittal 11/24/08

Rev. 2 - CUSTOMER DEPARTMENT OF VETERANS AFFAIRS (VA) SQUARE D REGIONAL ENGINEER VINCENT WALTERS PE/BALTIMORE, MD SITE ASSESSMENT ENGINEER AL BAUM PE/WEST CHESTER, PA SQUARE D POWER SYSTEMS ENGINNER CALIB BURK/DIAMOND BAR, CA


November 2008

The following power systems engineering report was prepared by Square D Engineering Services utilizing industry-accepted standards, practices, methodologies, and analysis tools. Data used in this analysis was acquired by Square D Engineering Services and provided by others, through onsite discovery, published information, equipment nameplates, manufacturer ratings, testing, analysis, or other means. Square D Engineering Services assumes no responsibility for inaccuracies in data provided by others. The study is intended for use by qualified individuals to facilitate the installation, operation, maintenance, and safety of the electrical power system depicted. Modification of equipment, changes to system configuration, adjustment of protective device settings, or failure to properly maintain equipment may invalidate these results.

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TABLE OF CONTENTS

1 EXECUTIVE SUMMARY ................................................................................7

1.1 Introduction ...................................................................................................................................... 7

1.2 Scope of Work................................................................................................................................... 8

1.3 Results and Recommendations........................................................................................................ 8

2 SHORT-CIRCUIT ANALYSIS.......................................................................10

2.1 General Procedure.......................................................................................................................... 10

2.2 Data Used in the Calculations........................................................................................................ 12 2.2.1 Power Company Data............................................................................................................... 12 2.2.2 Generator Data.......................................................................................................................... 12 2.2.3 Cable Data ................................................................................................................................ 12 2.2.4 Transformer Data...................................................................................................................... 12 2.2.5 Motor Contribution To Short-Circuit Current .......................................................................... 13 2.2.6 Assumptions ............................................................................................................................. 14

2.3 Short-Circuit Analysis Results and Recommendations............................................................... 15

2.4 Short-Circuit Comparison Table .................................................................................................. 16

3 VOLTAGE DROP ANALYSIS ...................................................................... 31


3.2 Data Used in Calculations.............................................................................................................. 32

3.3 Analysis of Results .......................................................................................................................... 32

3.4 Voltage Drop Output...................................................................................................................... 33

4 OVERCURRENT DEVICE COORDINATION ANALYSIS............................169

4.1 General Procedure..........................................................................................................................169

4.2 Specific Procedure ..........................................................................................................................1704.2.1 Short-Circuit Current Considerations .......................................................................................170 4.2.2 Molded Case Breaker Coordination .........................................................................................170 4.2.3 Time-Overcurrent Relay Coordination.....................................................................................171 4.2.4 Low-Voltage Ground-Fault Relay Settings ..............................................................................172 4.2.5 Transformer Protective Devices ...............................................................................................173 4.2.6 Cable Protection .......................................................................................................................174

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4.2.7 Generator Protection.................................................................................................................174 4.2.8 Assumptions .............................................................................................................................175

4.3 Analysis of Results and Recommendations ..................................................................................176 4.3.1 NEC Compliance Issues ..........................................................................................................17 6 4.3.2 TCC Plot Remarks....................................................................................................................177

4.4 Overcurrent Device Setting Table(s)............................................................................................18 0

4.5 Time-Current Coordination Graphs - As Found.........................................................................212

4.6 Time-Current Coordination Graphs - Recommended Settings..................................................286

5 ARC FLASH HAZARD ANALYSIS ..............................................................333


5.2 Specific Procedure .......................................................................................................................... 335

5.3 AF Hazard Analysis Results and Recommendations ..................................................................337 5.3.1 Arc Flash Hazard Table Headings Guide and PPE Table........................................................ 338 5.3.2 Arc Flash Hazard Analysis Table – As-Found Settings ...........................................................340 5.3.3 Arc Flash Hazard Analysis Table – Recommended Settings....................................................348

6 SITE ASSESSMENT & CORRECTIVE ACTION COST ESTIMATE............356

6.1 INTRODUCTION ..........................................................................................................................356

6.2 GENERAL SITE INFORMATION..............................................................................................356

6.3 INSPECTION DETAILS (per Building or Location) .................................................................357 6.3.1 Building 1 – Main Switchgear Room (#143)............................................................................357 6.3.2 Building 1 – AC Shop ..............................................................................................................359 6.3.3 Building 18 – Substation and Generator...................................................................................361 6.3.4 Building 15 – Research / IRM ..................................................................................................363 6.3.5 Clinical Addition – Substation Room.......................................................................................3646.3.6 Clinical Addition – Pump Room and Panels ............................................................................366 6.3.7 Building 1 – Floor Panel Closets ..............................................................................................367 6.3.8 Building 13 – Regional Office..................................................................................................368 6.3.9 Building 10 - Engineering ........................................................................................................369 6.3.10 Building 7 – Boiler and Warehouse..........................................................................................370 6.3.11 Building 17 – Nursing Home....................................................................................................3716.3.12 Building 19 & 20 – Main Utility Incoming / Generator ...........................................................373 6.3.13 Building 6 – Mental Patient Administration.............................................................................374 6.3.14 Out Buildings - #2, 3, 4, and 5 (Daycare).................................................................................375

6.4 GENERAL EQUIPMENT TESTING INFORMATION............................................................377 6.4.1 Electrical Equipment Suggested Frequency of Tests and Inspections......................................377 6.4.2 Testing and Inspection Procedures ...........................................................................................378

6.5 GENERAL SYSTEM GUIDELINES ...........................................................................................382

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6.5.1 Steady State Voltage.................................................................................................................384 6.5.2 Voltage Unbalance ...................................................................................................................384 6.5.3 Harmonic Voltage and Current.................................................................................................384 6.5.4 Transformer Applications.........................................................................................................384

6.6 Corrective Action Assessment Matrix ..........................................................................................387

6.7 Assessment Photos ..........................................................................................................................398

APPENDIX A: ABBREVIATIONS AND TRADEMARKS ................................454

APPENDIX B: SHORT CIRCUIT INPUT TABULATIONS...............................456

APPENDIX C: SHORT CIRCUIT OUTPUT TABULATIONS...........................507

APPENDIX D: VOLTAGE DROP INPUT TABULATIONS ..............................631

APPENDIX E: REFERENCES.........................................................................641

APPENDIX F: SYSTEM STUDY ONE-LINE DIAGRAMS ...............................648

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1 EXECUTIVE SUMMARY

1.1 Introduction This report documents the results of a Square D Engineering Services analysis for the Veterans Administration Medical Center in Wilmington, DE. All studies were performed using the Power*Tools for Windows Software, version 6.0.3.5. Data was obtained from the sources listed in the "REFERENCES" section at the end of the report. Abbreviations and trademarks referenced throughout this report are also listed in an appendix. The system short-circuit analysis evaluates the adequacy of existing facility electrical equipment shown on the enclosed one-line diagrams to withstand or to interrupt the calculated maximum available short-circuit current at its location. The voltage drop analysis evaluates the level of voltage drop at each point in the system as compared to that allowed by the National Electric Code. The overcurrent device time-current coordination analysis determines the suggested settings and, where appropriate, the ampere ratings and types for the electrical power system protective devices to achieve the desired system protection and electrical service continuity goals. The flash hazard analysis establishes the flash protection boundary around electrical equipment within which a worker exposed to an arcing fault would expect to receive 2nd degree burns if not adequately protected. The analysis also determines the incident energy levels at specific working distances from equipment, which can be used to select appropriate personal protective equipment (PPE) to be worn when working within the flash protection boundary. This report supersedes and invalidates results from any study, performed by Square D Engineering Services or any other entity, for the scope of equipment being reviewed. Electrical system changes within the facility or in the utility system can have a significant impact on the results of this power system analysis, which is a “snapshot” of as-found system conditions. As such, it is recommended that this analysis be re-evaluated on a regular basis, and as the system changes.

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1.2 Scope of Work The scope of this report is limited to that equipment shown on the study one-line diagram. The study reviews electrical equipment starting at the facility 12kV medium voltage switchgear and downstream to low voltage panel board equipment.

1.3 Results and Recommendations Following is a summary of significant recommendations by this study as noted in sections 2.3, 3.3, 4.3 and 5.3, and as referred to in the Site Assessment section 6. Section 2.3 refers to many equipment locations that are under rated with respect to fault current. Section 3.3 identifies potential voltage drop issues. Section 4.3 lists several issues with respect to coordination and protection. Section 5.3 lists several issues with respect to arc flash hazard. Section 6 provides a complete site assessment matrix describing the problem, action and cost required to repair each deficient equipment location. A summary of significant action items listed in all the sections follows. FAULT CURRENT ANALYSIS-SECTION 2

• The short circuit study was run for the worst case fault current from Utility Feeder 141. All low voltage switchboard tie breakers were closed and one main open to provide a worse case motor loading situation. Both main switches in New Switch #4 were closed.

• Sixty-one (61) equipment locations were found to be “INADEQUATE” with respect to short circuit current available. Several of these, notably Panel B (XRAY) and Panel DP, would be properly rated if a few lower rated breakers were replaced with higher frame equivalents. Many panels and one MCC require complete replacement.

• Medium voltage fusing and several locations could not be evaluated due to energized equipment and/or location.

VOLTAGE DROP ANALYSIS- SECTION 3

• The study found 395 bus locations where voltage drop is greater than standard. However, most of these appear due to the 7.8% voltage drop and the main 12kV service switchgear. No immediate action other than a review of these locations is recommended. Because the analysis was made using estimated loads at various bus locations, versus actual loads, the results are not exact. The study recommends that a more exact voltage drop analysis would require the use of installed monitors throughout the system.

COORDINATION ANALYSIS- SECTION 4

• Low voltage coordination was generally good with a few recommendations to improve coordination.

• Ground fault coordination was found to be poor facility wide, especially in the Clinical Addition switchboard MSDB-A. Recommendations to improve coordination were provided.

• Medium voltage coordination, especially with the utility relay settings, was poor. The study recommends the medium voltage CT’s be changed from 1200:5 to 600:5 to achieve better coordination. Recommendations were made to improve coordination based on the current system configuration.

• NEC Code violations were identified in several locations. These violations are described in further detail in section 4.3.1.

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ARC FLASH ANALYSIS- SECTION 5 • The arc flash analysis provides two important tables that describe the approach boundary

distances and level of protection needed to work on energized equipment at each study bus location. Arc flash labels can be generated from these tables. The study found numerous locations that are “Dangerous!!!” where no level of protective equipment could be recommended and where inspections or maintenance can be made only when the equipment is de-energized.

SITE ASSESSMENT & COST ESTIMATE- SECTION 6

A total of $1,215,589 was the budget estimate for materials, labor and design needed to rectify issues found at this facility. Some of the more significant site issues are indentified below with further detail provided in Section 6. • MCC-3 – experienced multiple fires, found in poor condition, recommended for

replacement • Overdutied, obsolete Trumbull panelboards throughout main Building 1 and other

locations • Obsolete breaker trip units – several locations were found with old, obsolete, peak-

sensing trip units (Westinghouse Amptector). Recommend replacement to new, RMS-sensing technology for improved performance and decreased probability of nuisance tripping.

• Degraded panelboards • Poor ventilation and/or lack of cooling/climate control of ambient air in electrical rooms • Need for maintenance • Symptoms of transformer liquid leak • Lack of sufficient cleanliness and abundance of storage clutter in electrical rooms • Lack of site-wide system monitoring

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2 SHORT-CIRCUIT ANALYSIS

2.1 General Procedure An electrical system short-circuit analysis is used for the following: 1) To compare the calculated maximum fault current with the interrupting ratings of overcurrent

protective devices such as fuses and circuit breakers. 2) To investigate applicable short-circuit series ratings and the protection of electrical equipment

by current-limiting devices. 3) To verify the adequacy of other equipment, such as switches and equipment bussing, to

withstand the effects of the calculated maximum fault current levels. 4) To assist in the selection and/or determination of settings for relays, fuses and circuit

breakers. 5) To provide input (along with device trip characteristics) to an arc flash hazard analysis. This analysis was made utilizing SKM Power Tools software. The software was programmed to calculate the maximum available three-phase, RMS symmetrical, short-circuit amperes at each piece of equipment in the system. The calculation procedures are based on recommendations included in ANSI/IEEE standards C37.13, C37.010, and C37.5. The AFAULT module of the Power*Tools software simulates a bolted three-phase fault at each point of consideration in the system and calculates the maximum available short-circuit current at that point without any reduction due to current-limiting overcurrent devices which may be present. (However, the effects of current-limiting devices are considered when determining the adequacy of the equipment.) The calculated short-circuit values are RMS symmetrical amperes and are comparable with the RMS symmetrical short-circuit ratings of electrical equipment. Electrical distribution equipment must be able to withstand and/or interrupt the most severe fault duty that it may be subjected to at its location in the system. In particular, NEC Section 110.9 requires circuit breakers to have a rating sufficient for interrupting the maximum available fault current present at their line side terminals. For locations where calculated fault currents exceed the ratings of the equipment, recommendations for corrective actions are provided. Equipment short-circuit withstand and interrupting ratings are expressed in symmetrical RMS current. However, fault currents are not purely symmetrical in practice, as system inductance introduces a degree of asymmetry for at least the first few cycles of a fault. The magnitude and duration of this asymmetrical component depends on several factors, including characteristics of system components (conductors, transformers, and loads) and the exact point on the current waveform that the fault begins—the level of asymmetry even differs from phase to phase in a three-phase system. Because of the uncertainty in asymmetry for a given fault event, the capability of devices to interrupt asymmetrical fault current is based on the maximum possible asymmetrical fault current level at the point of application. The more inductive the circuit, as measured by the calculated system X/R ratio, the more asymmetrical the fault current can be. If the calculated X/R level exceeds a certain level, then the increased asymmetrical duty must be taken into account when breaker ratings are assessed.

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Low-voltage circuit breakers and fuses are tested to establish their interrupting ratings based on a circuit with a fixed X/R ratio, as defined in the various product standards (UL and ANSI). For example, an ANSI low-voltage power circuit breaker is tested in a circuit with an X/R ratio of 6.591. If such a breaker is applied at a system bus with a calculated X/R ratio of 6.591 or less and the calculated RMS symmetrical fault current is within the symmetrical interrupting rating of the breaker, then it is assumed that the breaker is also able to interrupt and withstand the asymmetrical current resulting from a fault at that location. If a low voltage breaker is applied at a location with an X/R ratio greater than that of the design test circuit, the calculated fault current must be multiplied by an adjustment factor that accounts for this. This resultant “fault duty,” which is greater than the calculated fault current, is then compared to the breaker’s interrupting rating in order to determine if the breaker is adequately rated. Different classes of low-voltage breakers have different test X/R values, and each type has its own set of multiplication factors. Design test circuit power factors and associated X/R ratios are as shown in Table 1. The SKM low-voltage short-circuit output report shows the calculated fault duty levels calculated at each bus, and when these values differ from the calculated short-circuit current levels, they are used in the device comparison tables. See IEEE 1015-1997, IEEE Recommended Practice for Applying Low-Voltage Circuit Breakers Used in Industrial and Commercial Power Systems, for additional details.

Table 1: Summary of Test Power Factor and X/R Values for LV Devices.

Device pf X/R Ratio Power circuit breaker, unfused 0.15 6.591 Power circuit breaker, fused 0.20 4.899

Molded case breaker, interrupting rating greater than 20000 A 0.15-0.20 6.591-4.899

Molded case breaker, interrupting rating 10001 to 20000 A 0.25-0.30 3.9-3.18

Molded case breaker, interrupting rating 10000 A and less 0.45-0.50 2.0-1.732

For power circuit breakers, the power factors are taken from ANSI/IEEE C37.13. For molded case breakers, the power factors are taken from NEMA standard AB1. Since the NEMA standard specifies a range of test circuit power factors, the highest value (lowest X/R ratio) is used to determine the multiplying factor. This produces the most conservative (largest) factor. The included one-line diagrams are a simplified version of the system drawings, showing only those parts of the electrical system under consideration. The various circuit locations on the diagrams have been labeled with bus identification numbers so input data could be supplied to the computer and the computer output could be readily interpreted.

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2.2 Data Used in the Calculations

2.2.1 Power Company Data PEPCO has advised that their system is capable of delivering a maximum available three-phase short-circuit current of 3,337A at 12kV with an X/R ratio of 2.6 at Line #137 and 4,376A at 12kV with an X/R ratio of 3.43 at Line #141. These values determined the starting point for the analysis.

2.2.2 Generator Data Where generator data was not available, it has been assumed that the generators have a typical subtransient reactance of 15% with an 80% PF and an estimated X/R ratio of 20. The calculated maximum available bolted three-phase RMS symmetrical short-circuit current at the point of common coupling to the system (i.e. ATS) is considerably higher from the normal source compared to the generator sources. The "Short Circuit Comparison Table" is based on the higher source calculations. Therefore, all equipment determined to be adequate under normal utility supply conditions will also be adequate when the generator is in operation.

2.2.3 Cable Data The "FEEDER INPUT DATA" computer printouts list the conductor (cable and/or busway) data used for each circuit segment. Included are lengths, number per phase, size, conductor material, cable insulation type, conduit material and resistance and reactance values. Also, conductor lengths, number per phase, and size and conductor material are recorded on the one-line diagrams. Resistance values are based on 25 degrees Celsius (room temperature) rather than the full load temperature usually shown in descriptive literature since short-circuits can occur when the circuit is initially energized or lightly loaded as well as when fully loaded. The resistance and reactance values are typical values obtained from a study of data from various conductor manufactures. Values are tabulated according to whether several single conductors or one multiple conductor is used and whether the conduit is steel, aluminum or plastic.

2.2.4 Transformer Data Nameplate transformer percent impedance and typical X/R ratio values were used for all transformers except for the existing transformers T-7, T-13A, T-13B, and T-1-4. The exact R and X component values used are shown on the "TRANSFORMER INPUT DATA" printouts.

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2.2.5 Motor Contribution To Short-Circuit Current Motor contribution to the short-circuit current is taken into account in this short-circuit analysis. During the first few cycles of a fault, running motors act as generators and produce a current which will combine with the source short-circuit current flowing to the fault as illustrated in Figure 1. Sources may be, but are not limited to, the Power Company, local generators, or both.

Figure 1: Example motor contribution.

Connected motors shown on the study one-line were assumed to be running at the time of the fault. Motors fed by adjustable speed drives equipped with bypass contactors were considered to contribute to system fault currents as well. However, motors fed by drives without bypass contactors were not considered since they do not contribute to fault current. Redundant motors shown on the study one-line were also assumed to be running at the time of the fault unless operating controls prohibit these conditions. A motor’s contribution to a fault at its terminals is equal to the full-load ampere (FLA) rating of the motor divided by its per-unit subtransient reactance, similar to the contribution from a generator. However, at the upstream switchboard, panelboard, or motor-control center, the fault contribution from the individual motors is reduced by the impedance of the motor branch circuit conductors. Since data on motor subtransient reactances and branch-circuit conductor lengths is often difficult to obtain, assumptions regarding the motors’ subtransient reactances are typically made when the system model is built. For calculation of low-voltage fault duty, the contribution from induction motors and synchronous motors in the system are considered. For small induction motors (less than 50 hp) where the impedance of the installation (i.e., motor and conductor) is not known, an equivalent subtransient reactance of 0.25 pu, resulting in a fault contribution of 4 times rated current, is assumed. Larger motors (50 hp and above) have an assumed subtransient reactance of 0.2 pu, resulting in a fault contribution of 5 times rated current. This is consistent with recommendations in IEEE Std. 141, IEEE Recommended Practice for Electric Power Distribution for Industrial Plants (the IEEE Red Book). If applicable, multiplying factors are adjusted per Table 7 of ANSI/IEEE C37.010, IEEE Application Guide for AC High-Voltage Circuit Breakers Rated on a Symmetrical Current Basis for medium/high voltage fault duty. The table also shows contributions from induction motors less than 50 hp to be neglected. The motor short-circuit contribution is determined and included in the computer short-circuit analysis so that the results should represent the highest short-circuit current to which the equipment might be subjected. Unless otherwise indicated in the "CONTRIBUTION DATA" computer printouts, some motor loads are modeled as lumped induction motors connected directly to the low voltage buses using the recommended subtransient reactance values from C37.010, C37.13, and IEEE Std. 141. These

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modeled values appear on the "CONTRIBUTION DATA" and the "FAULT REPORT" computer printouts.

2.2.6 Assumptions Some assumptions on input data were required which may affect the results of this study. In general, assumptions on input data are needed because of limited access, safety concerns in obtaining equipment nameplate data, or lack of documentation. Significant differences between the assumptions listed here and actual values will require that this power system analysis be revised. Where conductor lengths were not available, a length of 25 feet was assumed.

Transformers T-7, T-13A, T-13B, and T-1-4 are pad-mount. Nameplate data could not safely be obtained for these transformers while energized. The transformer’s kVA sizes were assumed from the one-line diagram and typical impedance values were assumed. Several medium voltage switches could not be evaluated due to energized equipment. Where the switch is inside a liquid filled transformer, ratings cannot be evaluated without de-energizing the transformer. Several switches are fabricated by multiple vendors and do not have a rating, these switches were unable to be evaluated. Square D staff and VA site staff were unable to determine the electrical source to several panels and other pieces of equipment. Included in this were the emergency electrical sources for Building #1 Elevators 1, 2, and 3 ATS. The following motors loads were assumed based on breaker continuous current rating, cable size, and starter sizes. These assumptions were necessary due to equipment being too dangerous, missing nameplates, or the inability to locate the equipment.

Building 17 Chiller was assumed to be 100hp. Dietetics Chiller was assumed to be 40hp. AC MCC was assumed to be a combined 1040hp. Building 13 Chiller was assumed to be 75hp.

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2.3 Short-Circuit Analysis Results and Recommendations After making the calculations, the distribution equipment was checked to determine its adequacy to interrupt or withstand the effects of the calculated maximum short-circuit current at its location. The results are listed in the "SHORT-CIRCUIT COMPARISON TABLE". Short-circuit case description(s): The short circuit analysis was performed using the maximum available utility fault current from the preferred main line 141. The medium voltage switchgear was run with only one main/relay closed. All low voltage tie breakers were closed and one main breaker was opened on main-tie-main switchboards to provide a worst case motor loading situation. Both main switches in MV Switch#4 were closed. Listed in the tables are the calculated short-circuit currents at each piece of equipment and the ratings of the lowest rated device in the equipment enclosure. Comparing the two sets of values shows that all of the equipment examined is either adequate by itself or when used in series with another circuit breaker or protected by a line side current-limiting fuse or circuit breaker except for the locations noted as INADEQUATE in table. Most INADEQUATE equipment includes panels where either individual breakers need to be replaced with higher rated equivalents or the entire panel needs to be replaced. One of the more significant pieces of equipment is the MCC in Building #7. Most of the buckers in this MCC are INADEQUATELY rated for the calculated fault current. This study recommends a review of each piece of INADEQUATE equipment location noted in the short circuit comparison table and replacement of the equipment as required to ensure an adequate application. The table also lists some equipment that was not evaluated because the equipment’s short circuit interrupt rating could not be determined at the time of the evaluation. This equipment is identified with a ‘1’ in the far right hand column. This equipment could not be evaluated either because the equipment is obsolete, the equipment has no rating label, and/or the equipment was too dangerous to enter. Neither Square D engineers nor on-site VA personnel were able to determine the short circuit rating of this equipment. NEC Article 240.83.(C) requires all breakers with a withstand rating greater than 5000A to have its interrupt rating labeled on the breaker. Where equipment was found without ratings on the equipment and there is no published documentation to support a rating above 5000A, the interrupt rating is assumed to be 5000A. This equipment will be identified with a ‘2’ in the far right hand column of the table. Though not shown in the table, the momentary short-circuit duty for medium-voltage equipment was also evaluated vs. the corresponding equipment ratings. For equipment shown as “adequate”, both the momentary and interrupting ratings were found to be adequate. NEC 110.9 requires equipment to have a rating sufficient for interrupting the maximum available fault current present at the line side terminals of the equipment. NFPA 70E Article 210 also requires electrical equipment to have appropriate ratings to withstand or interrupt the available fault current. Where calculated available fault currents exceed the ratings of the equipment, remedial action, possibly including upgrade or replacement of the affected equipment, is required to comply with the NEC, NFPA 70E, and OSHA regulations. A risk of equipment damage, property damage, and personal injury exists when equipment has either inadequate withstand ratings or contains overcurrent protective devices (OCPDs) with inadequate interrupting ratings. Equipment with inadequate ratings in this category can suffer damage which may include bent busbars, melted contactors, ruptured enclosures, or OCPDs may not be able to interrupt faults properly. Input data and short-circuit output data pages are included in separate appendices.

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2.4 Short-Circuit Comparison Table

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VA MEDICAL CENTERSQUARE D ENGINEERING SERVICES SHORT-CIRCUIT WILMINGTON, DEDIAMOND BAR, CA COMPARISON TABLE (Ver. 2.5)

EQUIP. DESCRIPTION LOWEST RATED DEVICE MAXIMUM LINE SIDE LINE SIDEBUS PER SYSTEM ONE NOMINAL IN EQUIPMENT ENCLOSURE AVAILABLE X/R MAXIMUM SERIES NOTESNO. LINE DIAGRAM(S) L-L VOLTS TYPE AIC OR WCR 3-PH SCA OR DUTY RATIO DEVICE RATING EVALUATION #001 NEW SUBSTATION SWGR 12000 VR 500(15KV) 22,500 4,758 3.84 Adequate002 MV SWITCH #1 12000 HVL 40,000 4,735 3.80 Adequate005 MV SWITCH #2 12000 HVL 40,000 4,666 3.64 Adequate006 SWITCH A7 12000 WEST WLI 40,000 4,634 3.56 Adequate007 MV SWITCH #3 12000 HVL 40,000 4,648 3.64 Adequate008 SWITCH A4 12000 liquid filled xfmr switch #N/A 4,557 3.41 #N/A 1010 MV SWITCH #7 12000 HVL 40,000 4,714 3.76 Adequate012 XFMR T-1A-1 PRI 12000 WEST WLI 40,000 4,705 3.74 Adequate013 XFMR T-1A-2 PRI 12000 WEST WLI 40,000 4,701 3.73 Adequate014 XFMR T-1A-3 PRI 12000 WEST WLI 40,000 4,696 3.71 Adequate015 MV SWITCH #6 12000 #N/A 4,651 3.66 #N/A 1017 MV SWITCH #5 12000 HVL 40,000 4,647 3.65 Adequate018 SWITCH 137P19 12000 PENN #N/A 4,632 3.61 #N/A 1019 SWITCH B6 12000 HVL/20E CLE 50,000 4,628 3.59 Adequate020 SWITCH A1 12000 WEST WLI 40,000 4,630 3.60 Adequate021 MV SWITCH #4 12000 HVL 40,000 4,647 3.65 Adequate022 SWITCH B2 12000 WEST WLI 40,000 4,575 3.49 Adequate024 SWITCH 141P26 12000 PENN #N/A 4,622 3.58 #N/A 1025 SWITCH A6 12000 HVL/20E CLE 50,000 4,634 3.61 Adequate101 MDSB-A 480 HKD/C-H 65,000 20,025 5.55 Adequate102 LP-GA 480 #N/A 12,592 1.21 #N/A 1103 LP-GB 480 FD/WEST 25,000 7,807 0.72 Adequate104 LP-1A 480 GHB/C-H 14,000 11,493 1.07 Adequate

#N/A = Number not available.1 = No nameplate/rating or equipment inaccessible2 = 5kA Rating Assumed

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EQUIP. DESCRIPTION LOWEST RATED DEVICE MAXIMUM LINE SIDE LINE SIDEBUS PER SYSTEM ONE NOMINAL IN EQUIPMENT ENCLOSURE AVAILABLE X/R MAXIMUM SERIES NOTESNO. LINE DIAGRAM(S) L-L VOLTS TYPE AIC OR WCR 3-PH SCA OR DUTY RATIO DEVICE RATING EVALUATION #105 LP-1B 480 QBH/WEST 22,000 8,169 0.75 Adequate106 LP-2B 480 FD/WEST 25,000 16,340 4.00 Adequate107 ECB 2160 480 JD/C-H 25,000 13,079 1.91 Adequate108 ECB 2148 480 JD/C-H 25,000 12,078 1.64 Adequate109 ECB 2149 480 JD/C-H 25,000 12,565 1.76 Adequate110 ECB 2163 480 JD/C-H 25,000 13,901 2.19 Adequate111 MCC-GB 480 HKD/C-H 65,000 17,202 4.69 Adequate112 MCC-2B 480 JD/C-H 25,000 15,046 2.55 Adequate117 EDP-GA 480 JD/WEST 25,000 10,428 16.06 Adequate121 ATS-E1_L 480 CUMMINS/ONAN 30,000 17,122 3.58 Adequate122 E1DP-GA 480 KD/C-H 35,000 16,643 3.41 Adequate123 E1LP-GB 480 GHB/C-H 14,000 11,799 2.58 Adequate124 E1LP-1B 480 QBH/WEST 22,000 10,350 1.72 Adequate125 E1LP-2B 480 WEST 10,000 9,474 1.44 Adequate126 ATS-E2_L 480 CUMMINS/ONAN 65,000 17,238 4.59 Adequate127 E2DP-GA 480 KD/C-H 35,000 16,803 4.44 Adequate128 ECB 480 KA 25,000 5,045 0.65 Adequate129 E2LP-GA 480 FD/C-H 35,000 11,596 2.16 Adequate130 E2LP-1A 480 FD/WEST 25,000 10,587 1.69 Adequate131 E2LP-2B 480 GHB/C-H 14,000 8,842 1.22 Adequate132 E2LP-2C 480 FD/WEST 25,000 10,320 1.86 Adequate133 2143 ECB 480 JD/C-H 25,000 9,389 1.57 Adequate134 ATS-E3_L 480 CUMMINS/ONAN 65,000 18,315 5.00 Adequate


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EQUIP. DESCRIPTION LOWEST RATED DEVICE MAXIMUM LINE SIDE LINE SIDEBUS PER SYSTEM ONE NOMINAL IN EQUIPMENT ENCLOSURE AVAILABLE X/R MAXIMUM SERIES NOTESNO. LINE DIAGRAM(S) L-L VOLTS TYPE AIC OR WCR 3-PH SCA OR DUTY RATIO DEVICE RATING EVALUATION #135 E3DP-GA 480 MDSC/C-H 35,000 18,007 4.91 Adequate138 E3LP-GA 480 FD/C-H 25,000 11,311 1.48 Adequate139 EMCC-GB 480 HJD/C-H 65,000 15,426 3.02 Adequate140 E3LP-2B 480 FD/C-H 25,000 13,567 3.59 Adequate150 MDSB-B 208 HKD /C-H 65,000 27,370 4.58 Adequate151 RP-GA 208 WEST 22,000 14,752 1.55 Adequate152 RP-1B 208 QBHW/WEST 22,000 10,246 1.70 Adequate153 RP-1A 208 QBHW/WEST 22,000 15,538 2.14 Adequate154 RP-GB 208 QBHW/WEST 22,000 12,008 2.25 Adequate155 RP-2B 208 WEST #N/A 15,538 2.14 #N/A 1160 MDSB-C 480 HLD/C-H 65,000 15,925 5.17 Adequate171 MAIN SG A 208 HJD/C-H 65,000 31,774 5.08 Adequate172 PPGM-A AC SHOP 208 TRUMBULL 5,000 7,182 1.47 INADEQUATE 1,2174 LP7A-1 208 C-H 10,000 7,360 1.89 Adequate176 LP8B 208 TRUMBULL 5,000 7,131 1.87 INADEQUATE 1,2178 LP7A 208 BA 10,000 5,844 1.80 Adequate179 LP7A1 208 BA 10,000 5,803 1.79 Adequate181 LP8A 208 TRUMBULL 5,000 5,640 1.80 INADEQUATE 1,2182 PNL A 208 BQ 10,000 5,261 1.38 Adequate183 LP6B 208 TRUMBULL 5,000 6,223 1.11 INADEQUATE 1,2184 LP6B2 208 C-H 10,000 6,029 1.05 Adequate186 LP5A-LH 208 TRUMBULL 5,000 5,552 1.39 INADEQUATE 1,2187 LP5A-RH 208 TRUMBULL 5,000 5,552 1.39 INADEQUATE 1,2


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EQUIP. DESCRIPTION LOWEST RATED DEVICE MAXIMUM LINE SIDE LINE SIDEBUS PER SYSTEM ONE NOMINAL IN EQUIPMENT ENCLOSURE AVAILABLE X/R MAXIMUM SERIES NOTESNO. LINE DIAGRAM(S) L-L VOLTS TYPE AIC OR WCR 3-PH SCA OR DUTY RATIO DEVICE RATING EVALUATION #188 LP5A2 208 C-H 10,000 5,069 1.13 Adequate190 LP6A-LH 208 TRUMBULL 5,000 5,400 1.38 INADEQUATE 1,2191 LP6A-RH 208 TRUMBULL 5,000 5,400 1.38 INADEQUATE 1,2193 PP RM1134 208 #N/A 6,071 0.97 #N/A 1194 PPGL 208 TRUMBULL 5,000 5,056 0.77 INADEQUATE 1,2195 PP2K-B 208 BQ 10,000 5,447 0.67 Adequate

195B PANEL 208 QO 10,000 5,313 0.67 Adequate205 XRAY B 208 CA/WEST 10,000 10,284 1.64 INADEQUATE

205A RP2G 208 GE 10,000 7,273 1.07 Adequate205B 2H 208 THHQB 22,000 6,849 1.01 Adequate205C 2J 208 THHQB 22,000 6,849 1.01 Adequate205D RP2K 208 THHQB 22,000 6,849 1.01 Adequate211 PPGB 208 #N/A 6,857 1.85 #N/A 1212 LPGA 208 TRUMBULL 5,000 6,857 1.85 INADEQUATE 1,2214 RP-1C-1 208 C-H 10,000 6,613 1.85 Adequate215 RP-1C-2 208 BA 10,000 6,645 1.85 Adequate217 LP2A-LH 208 TRUMBULL 5,000 6,652 1.84 INADEQUATE 1,2218 LP2A-RH 208 TRUMBULL 5,000 6,652 1.84 INADEQUATE 1,2220 LP3A-LH 208 TRUMBULL 5,000 6,459 1.83 INADEQUATE 1,2221 LP3A-RH 208 TRUMBULL 5,000 6,459 1.83 INADEQUATE 1,2223 LP4A-1 208 C-H 10,000 8,834 1.23 Adequate224 LP4A-2 208 C-H 10,000 8,738 1.23 Adequate226 LP2B 208 TRUMBULL 5,000 8,589 1.96 INADEQUATE 1,2


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EQUIP. DESCRIPTION LOWEST RATED DEVICE MAXIMUM LINE SIDE LINE SIDEBUS PER SYSTEM ONE NOMINAL IN EQUIPMENT ENCLOSURE AVAILABLE X/R MAXIMUM SERIES NOTESNO. LINE DIAGRAM(S) L-L VOLTS TYPE AIC OR WCR 3-PH SCA OR DUTY RATIO DEVICE RATING EVALUATION #227 E2-4B 208 C-H 10,000 8,270 1.94 Adequate229 ELE 1 ATS_L 208 #N/A 12,108 2.55 #N/A 1230 ELE#1 ECB 208 ED/C-H 65,000 9,198 2.02 Adequate233 ELE 2 ATS_L 208 #N/A 12,108 2.55 #N/A 1234 ELE#2 ECB 208 ED/C-H 65,000 9,198 2.02 Adequate236 ELE 3 ATS_L 208 #N/A 11,679 2.33 #N/A 1237 ELE#3 ECB 208 ED/C-H 65,000 8,944 1.95 Adequate241 MAIN SG B 208 HJD/C-H 65,000 31,304 4.85 Adequate242 DP ECB 208 TKMA 42,000 27,863 3.58 Adequate243 PANEL DP 208 TQD 10,000 32,782 3.42 INADEQUATE248 LP3 208 THQB 10,000 4,534 0.56 Adequate250 LPGB 208 TRUMBULL 5,000 7,756 1.89 INADEQUATE 1,2251 LPGP 208 TRUMBULL 5,000 5,128 0.88 INADEQUATE 1,2252 LP-GP 208 TQD 10,000 2,984 0.52 Adequate254 RP-1D-1 208 C-H 10,000 6,751 1.86 Adequate255 RP-1D-2 208 C-H 10,000 6,667 1.85 Adequate257 LP1B 208 TRUMBULL 5,000 9,196 1.97 INADEQUATE 1,2259 LP2A 208 QO 10,000 9,006 1.93 Adequate260 LP2D 208 TRUMBULL 5,000 8,832 1.95 INADEQUATE 1,2262 LP6C 208 TRUMBULL 5,000 8,920 1.96 INADEQUATE 1,2264 LP7C 208 TRUMBULL 5,000 8,577 1.94 INADEQUATE 1,2266 LP8C 208 TRUMBULL 5,000 8,259 1.92 INADEQUATE 1,2268 LP9C1 208 QO 10,000 8,043 1.85 Adequate


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EQUIP. DESCRIPTION LOWEST RATED DEVICE MAXIMUM LINE SIDE LINE SIDEBUS PER SYSTEM ONE NOMINAL IN EQUIPMENT ENCLOSURE AVAILABLE X/R MAXIMUM SERIES NOTESNO. LINE DIAGRAM(S) L-L VOLTS TYPE AIC OR WCR 3-PH SCA OR DUTY RATIO DEVICE RATING EVALUATION #269 LP9C 208 TRUMBULL 5,000 7,964 1.91 INADEQUATE 1,2271 LPGC-B 208 TRUMBULL 5,000 10,097 2.02 INADEQUATE 1,2272 LPGC-C 208 QO 10,000 9,457 1.71 Adequate273 LPGC-A 208 TRUMBULL 5,000 10,097 2.02 INADEQUATE 1,2278 LP1C 208 TRUMBULL 5,000 9,591 1.99 INADEQUATE 1,2280 LP2C-A 208 QO 10,000 9,343 1.90 Adequate281 LP2C 208 TRUMBULL 5,000 9,196 1.97 INADEQUATE 1,2283 LP3C 208 TRUMBULL 5,000 10,135 2.02 INADEQUATE 1,2285 LP4C 208 TRUMBULL 5,000 9,695 2.00 INADEQUATE 1,2287 LP5C 208 TRUMBULL 5,000 9,291 1.98 INADEQUATE 1,2288 PPGM-B AC SHOP 208 TRUMBULL 5,000 7,817 1.91 INADEQUATE 1,2290 PPGN-C 208 QO 10,000 20,830 2.15 INADEQUATE291 PPGN-B 208 TRUMBULL 5,000 22,965 3.08 INADEQUATE 1,2293 PPGN-A 208 TRUMBULL 5,000 22,965 3.08 INADEQUATE 1,2294 XRAY 2FL 208 SQD 10,000 9,416 1.43 Adequate296 PNL C 208 BQ 10,000 7,899 1.34 Adequate297 LP2L 208 BQ 10,000 7,694 1.25 Adequate298 PP2K 208 BL 10,000 7,899 1.34 Adequate300 PP4K 208 TRUMBULL 5,000 7,272 1.31 INADEQUATE 1,2301 PP5K 208 TRUMBULL 5,000 7,018 1.31 INADEQUATE 1,2303 PP10N 208 TRUMBULL 5,000 6,367 1.28 INADEQUATE 1,2304 PP9M 208 TRUMBULL 5,000 6,566 1.27 INADEQUATE 1,2307 LP5B-LH 208 QO 10,000 7,244 1.47 Adequate


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EQUIP. DESCRIPTION LOWEST RATED DEVICE MAXIMUM LINE SIDE LINE SIDEBUS PER SYSTEM ONE NOMINAL IN EQUIPMENT ENCLOSURE AVAILABLE X/R MAXIMUM SERIES NOTESNO. LINE DIAGRAM(S) L-L VOLTS TYPE AIC OR WCR 3-PH SCA OR DUTY RATIO DEVICE RATING EVALUATION #308 LP5B-RH 208 QO 10,000 7,244 1.47 Adequate309 PPGK 208 TRUMBULL 5,000 6,529 0.83 INADEQUATE 1,2311 PP6K 208 TRUMBULL 5,000 6,285 1.11 INADEQUATE 1,2313 PP8K 208 TRUMBULL 5,000 5,846 1.10 INADEQUATE 1,2314 PP7K 208 BA 10,000 6,056 1.10 Adequate320 AC SWBD 480 DS-416 50,000 30,151 6.13 Adequate321 LPGE 480 JD/C-H 25,000 19,634 2.00 Adequate322 LP-8E 480 #N/A 4,542 0.45 #N/A 1323 HP-9M 480 GHB/C-H 14,000 9,701 1.16 Adequate324 MCC IN AC ROOM 480 #N/A 29,869 5.87 #N/A 1331 DIETETICS ECB 208 TKMA 42,000 14,779 3.43 Adequate332 KDP 208 GE 42,000 14,489 3.37 Adequate333 FOOD TRAY 208 QO 10,000 6,426 0.91 Adequate334 KPA 208 GE 10,000 7,631 1.27 Adequate335 KPD 208 THQD 10,000 7,631 1.27 Adequate336 KLP 208 GE 10,000 8,247 1.12 Adequate337 UTIL DIST 208 GE 10,000 7,234 1.00 Adequate338 PP 208 GE #N/A 11,112 1.89 #N/A 1340 XRAY SUBSTATION 480 DS416/WEST 50,000 12,918 5.00 Adequate341 PANEL A 480 EHD/C-H 14,000 10,565 3.24 Adequate402 MAIN BRKR 208 AKR-50 w/INST 65,000 10,053 16.43 Adequate403 CRITICAL BRKR 208 MA 42,000 10,553 15.30 Adequate404 BLDG18 CRITICAL EMERGENCY 208 DS-206E(S) 42,000 9,300 10.96 Adequate


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EQUIP. DESCRIPTION LOWEST RATED DEVICE MAXIMUM LINE SIDE LINE SIDEBUS PER SYSTEM ONE NOMINAL IN EQUIPMENT ENCLOSURE AVAILABLE X/R MAXIMUM SERIES NOTESNO. LINE DIAGRAM(S) L-L VOLTS TYPE AIC OR WCR 3-PH SCA OR DUTY RATIO DEVICE RATING EVALUATION #410 DPE BRKR 208 DS-206E(S) 42,000 9,504 12.08 Adequate411 DPE 208 THQD 22,000 7,572 5.13 Adequate417 ATS 7_L 208 ASCO 50,000 22,123 2.59 Adequate418 EDP1 208 THHQB 22,000 21,362 2.50 Adequate419 PLGN 208 THHQB 22,000 3,704 0.41 Adequate420 PL5N 208 THHQB 22,000 2,825 0.37 Adequate421 PL1N 208 THHQB 22,000 3,487 0.40 Adequate422 PL6N 208 THHQB 22,000 2,697 0.37 Adequate423 PL2N 208 THHQB 22,000 3,295 0.39 Adequate424 PL7N 208 THHQB 22,000 2,580 0.36 Adequate425 PL3N 208 THHQB 22,000 3,122 0.39 Adequate426 PL8N 208 THHQB 22,000 2,473 0.36 Adequate427 PL4N 208 THQB 22,000 2,966 0.38 Adequate428 EC3 208 THQB 10,000 6,298 1.28 Adequate429 E2-4W SEC#1 208 BA 10,000 5,279 1.09 Adequate430 CB3W 208 TMQB 22,000 5,423 1.10 Adequate431 CBME 208 THQB 10,000 5,287 1.07 Adequate432 ATS 9_L 208 ASCO 35,000 17,413 1.67 Adequate433 LP9C 208 CA 10,000 2,831 0.38 Adequate434 ATS 8_L 208 ASCO 35,000 17,413 1.67 Adequate435 EDP 208 THHQB 22,000 16,815 1.62 Adequate436 LPGN-N 208 THHQB 22,000 3,503 0.42 Adequate437 LP1N-N 208 THHQB 22,000 3,309 0.41 Adequate


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EQUIP. DESCRIPTION LOWEST RATED DEVICE MAXIMUM LINE SIDE LINE SIDEBUS PER SYSTEM ONE NOMINAL IN EQUIPMENT ENCLOSURE AVAILABLE X/R MAXIMUM SERIES NOTESNO. LINE DIAGRAM(S) L-L VOLTS TYPE AIC OR WCR 3-PH SCA OR DUTY RATIO DEVICE RATING EVALUATION #438 LP2N-N 208 THHQB 22,000 3,135 0.40 Adequate439 LP3N-N 208 THHQB 22,000 2,978 0.39 Adequate440 LP4N-N 208 THQB 22,000 2,836 0.39 Adequate441 LP5N-N 208 GE 22,000 2,707 0.38 Adequate442 LP6N-N 208 THHQB 22,000 2,589 0.37 Adequate443 LP7N-N 208 GE 22,000 2,481 0.37 Adequate444 LP8N-N 208 GE 22,000 2,382 0.36 Adequate445 ATS 10_L 208 #N/A 25,453 2.96 #N/A 1446 EE3 208 TQD 10,000 7,069 1.16 Adequate452 EMG PANEL 208 ZINSCO 10,000 14,577 2.34 INADEQUATE453 UNMARKED PANEL 208 FPE 5,000 14,481 3.60 INADEQUATE 1,2454 POWER PANEL 208 FPE 14,000 14,162 3.29 INADEQUATE455 400A DISCONNECT 208 #N/A 8,153 2.20 #N/A 1456 LP-1 208 FPE 14,000 13,880 2.84 Adequate457 PNL A (LP-2) 208 SIEMENS 10,000 3,746 0.52 Adequate458 NEW EQ CTR 208 C-H 10,000 7,500 0.87 Adequate459 PNL B (OL) 208 SIEMENS 10,000 3,746 0.52 Adequate461 NON-FUSED DISCONNECT 208 #N/A 9,265 2.96 #N/A 1462 CP1 208 THHQB 22,000 7,271 2.20 Adequate500 CRITICAL N. 208 DS-206E(S) 42,000 21,414 3.87 Adequate501 SEC. CRIT. N. 208 DS-206E(S) 42,000 21,416 3.87 Adequate502 CRITICAL SWBD BLDG #18 208 DS-206E(S) 42,000 18,707 2.98 Adequate505 LP1 208 QOB 10,000 14,604 1.72 INADEQUATE


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EQUIP. DESCRIPTION LOWEST RATED DEVICE MAXIMUM LINE SIDE LINE SIDEBUS PER SYSTEM ONE NOMINAL IN EQUIPMENT ENCLOSURE AVAILABLE X/R MAXIMUM SERIES NOTESNO. LINE DIAGRAM(S) L-L VOLTS TYPE AIC OR WCR 3-PH SCA OR DUTY RATIO DEVICE RATING EVALUATION #509 ATS 1_L 208 RUSSELL ELECTRIC 42,000 7,190 1.01 Adequate510 EDP-E 208 TRUMBULL 10,000 6,346 0.88 Adequate511 EDPA 208 QO 10,000 6,101 0.85 Adequate512 LP1N-0 208 TRUMBULL 10,000 3,442 0.63 Adequate513 LPGN-0 208 TRUMBULL 5,000 3,337 0.62 Adequate 1,2514 LP2N-0 208 TRUMBULL 10,000 3,317 0.62 Adequate515 LP3N-0 208 TRUMBULL 5,000 3,219 0.62 Adequate 1,2516 LP4N-0 208 TRUMBULL 5,000 2,471 0.46 Adequate 1,2517 LP5N-0 208 TRUMBULL 22,000 2,373 0.45 Adequate518 LP6N-0 208 TRUMBULL 5,000 2,275 0.44 Adequate 1,2519 LP7N-0 208 TRUMBULL 5,000 2,181 0.43 Adequate 1,2520 LP8N-0 208 TRUMBULL 5,000 2,134 0.43 Adequate 1,2521 ATS 3_L 208 RUSSELL ELECTRIC 42,000 9,677 2.10 Adequate522 ELE 4 ECB 208 C-H 35,000 9,642 2.10 Adequate523 ATS 4_L 208 ASCO 5,000 12,524 1.18 INADEQUATE524 LP2 208 QO 10,000 10,751 0.92 INADEQUATE525 ATS 2_L 208 ASCO 35,000 15,975 2.65 Adequate526 AOV 208 QO 10,000 9,105 2.03 Adequate527 KP ECB 208 SEDA 18,000 8,473 1.90 Adequate528 KP 208 GE 10,000 7,531 1.54 Adequate529 ATS 6_L 208 ONAN #N/A 14,113 1.53 #N/A 1530 LP5-N1 "HEMO" 208 #N/A 2,938 0.55 #N/A 1601 BLDG 17 MN 208 LC/WEST 42,000 25,342 4.78 Adequate


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EQUIP. DESCRIPTION LOWEST RATED DEVICE MAXIMUM LINE SIDE LINE SIDEBUS PER SYSTEM ONE NOMINAL IN EQUIPMENT ENCLOSURE AVAILABLE X/R MAXIMUM SERIES NOTESNO. LINE DIAGRAM(S) L-L VOLTS TYPE AIC OR WCR 3-PH SCA OR DUTY RATIO DEVICE RATING EVALUATION #603 PNL A 208 WEST 10,000 6,092 1.02 Adequate604 PNL B 208 WEST 10,000 6,258 1.03 Adequate605 PNL C 208 WEST 10,000 9,495 1.27 Adequate606 RPB 208 GE #N/A 13,278 1.88 #N/A 1607 RPA 208 GE #N/A 12,975 1.85 #N/A 1608 MDS (ICEHOUSE) 208 WEST #N/A 14,446 2.17 #N/A 1609 21-LP 208 EB 10,000 9,862 1.05 Adequate610 UNLABELED PNL 208 THQB 10,000 9,199 0.96 Adequate612 BLDG 17 EM CB 208 LC/WEST 42,000 3,940 16.87 Adequate614 ATS BLDG 17_L 208 ASCO 50,000 21,400 3.35 Adequate615 EDP (BLDG 17) 208 EB/WEST 10,000 24,859 3.24 INADEQUATE616 AE 208 WEST 10,000 2,735 0.38 Adequate

617A PNL AE1 208 QO 10,000 2,465 0.35 Adequate618 BE 208 WEST 10,000 2,821 0.38 Adequate619 CE 208 CA/WEST 10,000 4,773 0.48 Adequate620 EM MAIN 208 EHD/C-H 18,000 18,061 1.78 INADEQUATE621 EM 208 C-H #N/A 12,886 1.02 #N/A 1702 BLDG 5 MTR PNL 208 LXD6 65,000 13,540 2.76 Adequate703 PNL D 208 WEST #N/A 12,475 2.48 #N/A 1704 PNL C 208 QO 10,000 10,050 1.42 INADEQUATE705 PNL B 208 QO 10,000 11,805 1.87 INADEQUATE706 PNL IN HALL 208 QO 10,000 8,174 1.04 Adequate707 BLDG 2 208 SQD 10,000 2,023 0.46 Adequate


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EQUIP. DESCRIPTION LOWEST RATED DEVICE MAXIMUM LINE SIDE LINE SIDEBUS PER SYSTEM ONE NOMINAL IN EQUIPMENT ENCLOSURE AVAILABLE X/R MAXIMUM SERIES NOTESNO. LINE DIAGRAM(S) L-L VOLTS TYPE AIC OR WCR 3-PH SCA OR DUTY RATIO DEVICE RATING EVALUATION #708 RP3 208 QO 10,000 5,019 1.26 Adequate709 RP4 208 QO 10,000 7,536 1.53 Adequate803 BLDG 15 SWGR 208 TJJ 42,000 30,554 4.61 Adequate806 2LP 208 GE 10,000 5,139 0.42 Adequate807 LP1 (ILD) 208 TEB(3P) 10,000 5,711 0.44 Adequate809 PNL A 208 TEB(3P) 10,000 12,811 1.14 INADEQUATE811 RM 213 208 GE #N/A 4,593 0.60 #N/A 1812 ACP 208 TEB(3P) 10,000 31,393 3.23 INADEQUATE813 BLDG 10 GARAGE 208 WEST #N/A 10,291 1.16 #N/A 1815 ELE DISC 208 KA 42,000 15,076 0.94 Adequate817 PNL K 208 TEB(3P) 10,000 11,445 1.06 INADEQUATE818 PNL M 208 TEB(3P) 10,000 11,050 1.04 INADEQUATE820 PNL D 208 TEB(3P) 10,000 11,050 1.04 INADEQUATE822 PNL E 208 TEB(3P) 10,000 10,009 0.99 INADEQUATE823 PNL F 208 TEB(3P) 10,000 9,703 0.98 Adequate825 PNL I 208 TEB(3P) 10,000 10,009 0.99 INADEQUATE826 PNL J 208 TEB(3P) 10,000 9,703 0.98 Adequate828 PNL G 208 TEB(3P) 10,000 9,076 0.95 Adequate829 PNL H 208 TEB(3P) 10,000 9,012 0.94 Adequate830 ATS 15 ECB 208 MDL 65,000 29,297 4.29 Adequate832 BLDG 15 EMERG GEN 208 TKM 42,000 4,490 20.00 Adequate834 ATS 15_L 208 ASC0 #N/A 25,325 3.52 #N/A 1835 EMER DISTRIBUTION PANEL 208 THHQB 22,000 24,143 3.02 INADEQUATE


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EQUIP. DESCRIPTION LOWEST RATED DEVICE MAXIMUM LINE SIDE LINE SIDEBUS PER SYSTEM ONE NOMINAL IN EQUIPMENT ENCLOSURE AVAILABLE X/R MAXIMUM SERIES NOTESNO. LINE DIAGRAM(S) L-L VOLTS TYPE AIC OR WCR 3-PH SCA OR DUTY RATIO DEVICE RATING EVALUATION #837 KENNEL (K-EP BLDG 10) 208 WEST #N/A 5,134 0.46 #N/A 1839 GEN RM PNL 208 #N/A 14,263 0.76 #N/A 1840 DATA CENTER 208 MDL 65,000 22,268 3.08 Adequate841 MAIN PANEL 208 FXD6 25,000 16,791 2.52 Adequate842 RP1 208 BLH 22,000 13,572 1.58 Adequate901 BLDG 7 MN SWGR 480 KC 65,000 25,883 5.44 Adequate903 BLDG 10 480 KA 25,000 13,400 1.58 Adequate904 BLDG 6 ECB 480 KA 25,000 13,010 1.54 Adequate905 LOADING DOCK ECB 480 FA(3P) 18,000 5,773 0.49 Adequate906 WAREHOUSE ECB 480 FD6 35,000 17,512 2.52 Adequate907 BLDG 7 EMERG GEN 480 RG 35,000 12,002 20.00 Adequate910 BLDG 7 ATS_L 480 ASCO 100,000 25,172 5.27 Adequate911 ATS 7 ECB 480 LA 30,000 24,026 4.96 Adequate912 MCC 480 TED(3P) 14,000 18,629 3.61 INADEQUATE

912A PNL LP 480 #N/A 17,710 3.43 #N/A 1913 ELEVATOR ECB 480 KB/WEST 22,000 17,039 3.01 Adequate914 ELE 480 #N/A 10,377 1.39 #N/A 1916 PNL 1 208 TRUMBULL 10,000 7,161 2.68 Adequate917 PANEL PP02 208 TRUMBULL 10,000 5,459 1.58 Adequate918 PNL M 208 TRUMBULL 10,000 5,072 1.44 Adequate919 PNL K 208 TRUMBULL 10,000 5,459 1.58 Adequate920 PNL J 208 TRUMBULL 10,000 2,130 0.44 Adequate921 GARAGE PANEL 208 TRUMBULL 5,000 3,051 0.77 Adequate 1,2


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EQUIP. DESCRIPTION LOWEST RATED DEVICE MAXIMUM LINE SIDE LINE SIDEBUS PER SYSTEM ONE NOMINAL IN EQUIPMENT ENCLOSURE AVAILABLE X/R MAXIMUM SERIES NOTESNO. LINE DIAGRAM(S) L-L VOLTS TYPE AIC OR WCR 3-PH SCA OR DUTY RATIO DEVICE RATING EVALUATION #922 NEW OFFICE ECB 208 Q2L 10,000 7,017 2.62 Adequate923 NEW OFFICE PANEL (Panel A 208 QO 10,000 5,304 2.01 Adequate


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November 2008

3 VOLTAGE DROP ANALYSIS

3.1 General Procedure The load flow program can model any system topology: radial, loop, or up to ten independent power systems. The program may be used to model the conventional system loading or to model impact loads for snap shot motor starting studies to meet the recommendations of the IEEE Brown Book. The program presents information for power system loss analysis, power factor analysis, and for co-generation studies. The voltage drop on each feeder branch, voltage on each bus, projected power flow through the power system, and the losses in the power system are calculated by this program. The program will evaluate the results of the design, compare the design to user voltage criteria and will flag all values that exceed those criteria. Transformer tap settings may be specified by the user for this evaluation. The solution examines any combination of constant kVA, constant impedance, and constant current loads and projects the increases or decreases in line load currents due to the effects of the different load types. Additionally, the program may be instructed to provide a conventional solution (approximate, non-iterative method) or an exact solution (iterative method) as necessitated by the project requirements. All matrix routines use full double precision to enhance solution tolerance. Special solution capabilities include a regulated generator model to schedule real power and voltage within designated VAR limits. Multiple generators and multiple connections to the utility may be modeled in a single system. The program will also permit the user to include the utility impedance, to model transformer taps, and the modeling of both three winding transformers. The Load Flow also permits the engineer to examine a power system with a driving voltage different from the system design voltage. A system could be designed for a nominal voltage and be served at a higher or lower voltage from the utility (13.2 kV design, 13.5 kV utility service). The actual bus voltages will be reported based on the service voltage level; the bus and branch percent voltage drops will be based on the difference from the system design Voltages as required by ANSI standards. A complete transmission line model incorporating series compensation, shunt compensation and line charging is provided. Data for this model can be entered at three different levels of detail. The simplest level of data entry uses the per unit equivalent Pi model and shunt reactor MVAR values. The intermediate level of data entry utilizes a Long Line Equivalent Pi Calculator and transmission data of R, X, and Xc per mile. The most detailed level of data entry utilizes a transmission line parameter calculator to determine the positive and zero sequence R, XL and Xc per mile from the actual phase and ground wire spacing. The transmission line parameter calculator can model parallel or bundled conductors with multiple ground wires and uses the first two terms of Carson's FormulaS2 to model the earth's return. Input data for this program may be generated by the DAPPER Demand Load Analysis which creates branch load data, and the DAPPER Feeder and Transformer Sizing program which selects the equipment sizes to meet the branch load data. Alternatively, bus load data may be used as input data and the program will automatically sum these loads throughout the system. By using both the branch load data and bus load data, the program may be used for examination of proposed

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load changes to the system, or to provide a snapshot of the voltage conditions during impact loading, or to examine the effects of co-generation on the system power flow.

3.2 Data Used in Calculations The input data for the voltage drop analysis does not duplicate the cable and transformer data, which can be found in the short circuit input data. In general, all data used to generate the fault analysis in section 2 of this study was repeated for the voltage drop calculations. The same values for fault current sources used in the fault analysis were used in this voltage drop analysis. Other impedance data such as for cable and transformers were also repeated in this analysis. Unlike the fault analysis, the voltage drop analysis opens all ties and closes both main so that current is evenly distributed at approximately 100% of each substation transformer. Panel load current values were applied at each panel location based on the lessor of maximum panel rating and/or upstream feeder breaker ampacity (whether an 80% or 100% device). In some cases these load currents values were reduced by a diversity factor so that the total of all loads downstream from a main switchboard transformer never exceeded 100% of the transformer FLA value. This same diversity factor was applied at some motor control center locations in the fault analysis to derive maximum HP loading.

3.3 Analysis of Results Bus voltage drop values shown in the output report in section 3.4 were examined for compliance with the NEC guidelines. The summary statement at the end of the computer printouts section 3.4 states that there are 395 voltage criteria violations. Evaluating the output, the 7.8% voltage drop at the 12kV service switchgear is a significant factor in the violations. The significance of these results is as much a matter of history as it is the method of calculation. If historical evidence does not show a significant problem, then a solution may not be required. If a solution is required, changing voltage taps on the unit substations most affected would be a first consideration. Further, it is important to keep in mind that these are calculated and not actual results as bus loading values were estimated based on a formula to keep various upstream substation transformers at 100% load. The difference in results between the use of actual and estimated data could be extreme. As such the results are not a true representation of the actual system and do not reflect actual voltage drop. The results are helpful in showing the relative voltage levels possible. This study recommends a review with the facility engineers of any historical issues related to voltage drop at any location in the facility. In general, actual monitoring of the bus locations in violations coupled with a review of any historical record of problems associated with voltage drop would yield far more significant results. This study recommends that a more accurate voltage drop assessment be made with onsite monitoring under normal load conditions.

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3.4 Voltage Drop Output

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY Nov 04, 2008 10:50:35� ------------------------------------------------------------------------------ ALL INFORMATION PRESENTED IS FOR REVIEW, APPROVAL INTERPRETATION AND APPLICATION BY A REGISTERED ENGINEER ONLY SKM DISCLAIMS ANY RESPONSIBILITY AND LIABILITY RESULTING FROM THE USE AND INTERPRETATION OF THIS SOFTWARE. ------------------------------------------------------------------------------ SKM POWER*TOOLS FOR WINDOWS LOAD FLOW AND VOLTAGE DROP ANALYSIS REPORT COPYRIGHT SKM SYSTEMS ANALYSIS, INC. 1995-2007 ------------------------------------------------------------------------------

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY *** SOLUTION COMMENTS *** ========================= SOLUTION PARAMETERS BRANCH VOLTAGE CRITERIA : 3.00 % BUS VOLTAGE CRITERIA : 5.00 % ACCELERATION FACTOR FOR 'PV' GENERATORS : 1.00 ACCELERATION FACTOR FOR CONSTANT KVA LOADS: 1.00 EXACT(ITERATIVE) SOLUTION : YES UTILITY IMPEDANCE : YES TRANSFORMER PHASE SHIFT : YES ALL PU VALUES ARE EXPRESSED ON A 100 MVA BASE LOAD FLOW IS BASED ON DIRECTLY CONNECTED LOADS. LOAD ANALYSIS INCLUDES ALL LOADS. <<PERCENT VOLTAGE DROPS ARE BASED ON NOMINAL DESIGN VOLTAGES>> SWING GENERATORS SOURCE NAME VOLTAGE ANGLE =============================================== UTIL-#141 FDR 1.000 0.00 CLINICAL ADDITION 1.000 0.00 BLDG 7 1.000 0.00 BLDG 15 GEN 1.000 0.00 BLDG 18 1.000 0.00 GEN BLDG 17 1.000 0.00 LARGEST LOAD: 1040.00 KVA CONVERGENCE CRITERIA: 0.052 KVA LARGEST BUS MISMATCH 324 MCC IN AC ROOM 184.788 KVA LARGEST BUS MISMATCH 324 MCC IN AC ROOM 33.071 KVA LARGEST BUS MISMATCH 324 MCC IN AC ROOM 6.250 KVA LARGEST BUS MISMATCH 324 MCC IN AC ROOM 1.210 KVA LARGEST BUS MISMATCH 324 MCC IN AC ROOM 0.236 KVA LARGEST BUS MISMATCH 324 MCC IN AC ROOM 0.046 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS (SWING GENERATORS) ******************************************************************************************* SOURCE VOLTAGE ANGLE KW KVAR VD% (UTILITY IMPEDANCE) UTIL-#141 FDR 1.000 0.00 6223.34 4931.62 7.88 0.30773+J 1.05552 CLINICAL ADDITION 1.000 0.00 0.00 0.00 0.00 0.66667+J13.33333 BLDG 7 1.000 0.00 0.00 0.00 0.00 0.60800+J12.16000 BLDG 15 GEN 1.000 0.00 0.00 0.00 0.00 3.75000+J75.00000 BLDG 18 1.000 0.00 0.00 0.00 0.00 1.53409+J30.68182 GEN BLDG 17 1.000 0.00 0.00 0.00 0.00 3.47594+J69.51871

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 001 NEW SUBSTATION SWGR DESIGN VOLTS: 12000 BUS VOLTS: 11054 %VD: 7.88$ ========================= PU BUS VOLTAGE: 0.921 ANGLE: -3.1 DEGREES *** SWING GENERATOR: UTIL-#141 FDR 6452.0 KW 5715.9 KVAR LOAD TO: 002 MV SWITCH #1 CBL-0003 FEEDER AMPS: 184.8 VOLTAGE DROP: 3. %VD: 0.02 PROJECTED POWER FLOW: 2872.2 KW 2066.5 KVAR 3538.3 KVA PF:0.81 LAGGING LOSSES THRU FEEDER: 0.7 KW 0.6 KVAR 0.9 KVA LOAD TO: 010 MV SWITCH #7 CBL-0004 FEEDER AMPS: 230.2 VOLTAGE DROP: 8. %VD: 0.07 PROJECTED POWER FLOW: 3351.2 KW 2865.1 KVAR 4409.0 KVA PF:0.76 LAGGING LOSSES THRU FEEDER: 2.3 KW 2.1 KVAR 3.1 KVA ==== BUS: 002 MV SWITCH #1 DESIGN VOLTS: 12000 BUS VOLTS: 11051 %VD: 7.90$ ========================= PU BUS VOLTAGE: 0.921 ANGLE: -3.1 DEGREES LOAD FROM: 001 NEW SUBSTATION SWGR CBL-0003 FEEDER AMPS: 184.8 VOLTAGE DROP: 3. %VD: 0.02 PROJECTED POWER FLOW: 2871.5 KW 2065.9 KVAR 3537.4 KVA PF:0.81 LAGGING LOSSES THRU FEEDER: 0.7 KW 0.6 KVAR 0.9 KVA LOAD TO: 003 XFMR T-13A PRI CBL-0005 FEEDER AMPS: 11.6 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 174.4 KW 139.1 KVAR 223.1 KVA PF:0.78 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 004 XFMR T-13B PRI CBL-0006 FEEDER AMPS: 4.6 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 70.6 KW 55.1 KVAR 89.6 KVA PF:0.79 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 005 MV SWITCH #2 CBL-0007 FEEDER AMPS: 168.4 VOLTAGE DROP: 14. %VD: 0.11 PROJECTED POWER FLOW: 2626.5 KW 1871.7 KVAR 3225.1 KVA PF:0.81 LAGGING LOSSES THRU FEEDER: 3.4 KW 2.1 KVAR 4.0 KVA ==== BUS: 003 XFMR T-13A PRI DESIGN VOLTS: 12000 BUS VOLTS: 11051 %VD: 7.91$ ========================= PU BUS VOLTAGE: 0.921 ANGLE: -3.1 DEGREES LOAD FROM: 002 MV SWITCH #1 CBL-0005 FEEDER AMPS: 11.6 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 174.4 KW 139.1 KVAR 223.1 KVA PF:0.78 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 450 XFMR T-13A SEC T-13A TRANSF AMPS: 11.6 VOLTAGE DROP: 408. %VD: 3.40$ PROJECTED POWER FLOW: 174.4 KW 139.1 KVAR 223.1 KVA PF:0.78 LAGGING LOSSES THRU TRANSF: 2.6 KW 10.1 KVAR 10.4 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 004 XFMR T-13B PRI DESIGN VOLTS: 12000 BUS VOLTS: 11051 %VD: 7.91$ ========================= PU BUS VOLTAGE: 0.921 ANGLE: -3.1 DEGREES LOAD FROM: 002 MV SWITCH #1 CBL-0006 FEEDER AMPS: 4.6 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 70.6 KW 55.1 KVAR 89.6 KVA PF:0.79 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 460 XFMR T-13B SEC T-13B TRANSF AMPS: 4.6 VOLTAGE DROP: 251. %VD: 2.10 PROJECTED POWER FLOW: 70.6 KW 55.1 KVAR 89.6 KVA PF:0.79 LAGGING LOSSES THRU TRANSF: 0.7 KW 2.4 KVAR 2.5 KVA ==== BUS: 005 MV SWITCH #2 DESIGN VOLTS: 12000 BUS VOLTS: 11038 %VD: 8.02$ ========================= PU BUS VOLTAGE: 0.920 ANGLE: -3.1 DEGREES LOAD FROM: 002 MV SWITCH #1 CBL-0007 FEEDER AMPS: 168.4 VOLTAGE DROP: 14. %VD: 0.11 PROJECTED POWER FLOW: 2623.0 KW 1869.6 KVAR 3221.1 KVA PF:0.81 LAGGING LOSSES THRU FEEDER: 3.4 KW 2.1 KVAR 4.0 KVA LOAD TO: 006 SWITCH A7 CBL-0012 FEEDER AMPS: 26.2 VOLTAGE DROP: 1. %VD: 0.01 PROJECTED POWER FLOW: 389.4 KW 317.1 KVAR 502.2 KVA PF:0.78 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 007 MV SWITCH #3 CBL-0013 FEEDER AMPS: 142.2 VOLTAGE DROP: 8. %VD: 0.06 PROJECTED POWER FLOW: 2233.6 KW 1552.5 KVAR 2720.2 KVA PF:0.82 LAGGING LOSSES THRU FEEDER: 1.4 KW 1.3 KVAR 1.9 KVA ==== BUS: 006 SWITCH A7 DESIGN VOLTS: 12000 BUS VOLTS: 11037 %VD: 8.02$ ========================= PU BUS VOLTAGE: 0.920 ANGLE: -3.1 DEGREES LOAD FROM: 005 MV SWITCH #2 CBL-0012 FEEDER AMPS: 26.2 VOLTAGE DROP: 1. %VD: 0.01 PROJECTED POWER FLOW: 389.4 KW 317.0 KVAR 502.2 KVA PF:0.78 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 601 BLDG 17 MN T-17 TRANSF AMPS: 26.2 VOLTAGE DROP: 529. %VD: 4.41$ PROJECTED POWER FLOW: 389.4 KW 317.0 KVAR 502.2 KVA PF:0.78 LAGGING LOSSES THRU TRANSF: 6.5 KW 30.7 KVAR 31.4 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 007 MV SWITCH #3 DESIGN VOLTS: 12000 BUS VOLTS: 11030 %VD: 8.08$ ========================= PU BUS VOLTAGE: 0.919 ANGLE: -3.1 DEGREES LOAD FROM: 005 MV SWITCH #2 CBL-0013 FEEDER AMPS: 142.2 VOLTAGE DROP: 8. %VD: 0.06 PROJECTED POWER FLOW: 2232.2 KW 1551.3 KVAR 2718.3 KVA PF:0.82 LAGGING LOSSES THRU FEEDER: 1.4 KW 1.3 KVAR 1.9 KVA LOAD TO: 008 SWITCH A4 CBL-0014 FEEDER AMPS: 7.8 VOLTAGE DROP: 1. %VD: 0.00 PROJECTED POWER FLOW: 118.1 KW 92.0 KVAR 149.7 KVA PF:0.79 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 009 XFMR T-15 PRI CBL-0015 FEEDER AMPS: 36.7 VOLTAGE DROP: 1. %VD: 0.01 PROJECTED POWER FLOW: 539.9 KW 448.3 KVAR 701.8 KVA PF:0.77 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 021 MV SWITCH #4 CBL-0016 FEEDER AMPS: 97.9 VOLTAGE DROP: 1. %VD: 0.01 PROJECTED POWER FLOW: 1574.2 KW 1011.0 KVAR 1870.9 KVA PF:0.84 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.2 KVA ==== BUS: 008 SWITCH A4 DESIGN VOLTS: 12000 BUS VOLTS: 11030 %VD: 8.09$ ========================= PU BUS VOLTAGE: 0.919 ANGLE: -3.1 DEGREES LOAD FROM: 007 MV SWITCH #3 CBL-0014 FEEDER AMPS: 7.8 VOLTAGE DROP: 1. %VD: 0.00 PROJECTED POWER FLOW: 118.1 KW 91.9 KVAR 149.7 KVA PF:0.79 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 701 XFMR T-5 SEC T-5 TRANSF AMPS: 7.8 VOLTAGE DROP: 259. %VD: 2.16 PROJECTED POWER FLOW: 118.1 KW 91.9 KVAR 149.7 KVA PF:0.79 LAGGING LOSSES THRU TRANSF: 1.2 KW 4.2 KVAR 4.4 KVA ==== BUS: 009 XFMR T-15 PRI DESIGN VOLTS: 12000 BUS VOLTS: 11029 %VD: 8.09$ ========================= PU BUS VOLTAGE: 0.919 ANGLE: -3.1 DEGREES LOAD FROM: 007 MV SWITCH #3 CBL-0015 FEEDER AMPS: 36.7 VOLTAGE DROP: 1. %VD: 0.01 PROJECTED POWER FLOW: 539.9 KW 448.3 KVAR 701.7 KVA PF:0.77 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 801 XFMR T-15 SEC T-15 TRANSF AMPS: 36.7 VOLTAGE DROP: 1045. %VD: 8.71$ PROJECTED POWER FLOW: 539.9 KW 448.3 KVAR 701.7 KVA PF:0.77 LAGGING LOSSES THRU TRANSF: 9.4 KW 49.2 KVAR 50.1 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 010 MV SWITCH #7 DESIGN VOLTS: 12000 BUS VOLTS: 11047 %VD: 7.95$ ========================= PU BUS VOLTAGE: 0.921 ANGLE: -3.1 DEGREES LOAD FROM: 001 NEW SUBSTATION SWGR CBL-0004 FEEDER AMPS: 230.2 VOLTAGE DROP: 8. %VD: 0.07 PROJECTED POWER FLOW: 3348.9 KW 2863.0 KVAR 4405.9 KVA PF:0.76 LAGGING LOSSES THRU FEEDER: 2.3 KW 2.1 KVAR 3.1 KVA LOAD TO: 015 MV SWITCH #6 CBL-0019 FEEDER AMPS: 150.6 VOLTAGE DROP: 13. %VD: 0.11 PROJECTED POWER FLOW: 2166.8 KW 1901.4 KVAR 2882.8 KVA PF:0.75 LAGGING LOSSES THRU FEEDER: 2.6 KW 2.4 KVAR 3.5 KVA LOAD TO: 011 TAP CBL-0018 FEEDER AMPS: 79.6 VOLTAGE DROP: 1. %VD: 0.00 PROJECTED POWER FLOW: 1182.0 KW 961.6 KVAR 1523.7 KVA PF:0.78 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA ==== BUS: 011 TAP DESIGN VOLTS: 12000 BUS VOLTS: 11046 %VD: 7.95$ ========================= PU BUS VOLTAGE: 0.921 ANGLE: -3.1 DEGREES LOAD FROM: 010 MV SWITCH #7 CBL-0018 FEEDER AMPS: 79.6 VOLTAGE DROP: 1. %VD: 0.00 PROJECTED POWER FLOW: 1182.0 KW 961.5 KVAR 1523.7 KVA PF:0.78 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD TO: 014 XFMR T-1A-3 PRI CBL-0025 FEEDER AMPS: 5.6 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 86.6 KW 65.8 KVAR 108.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 013 XFMR T-1A-2 PRI CBL-0026 FEEDER AMPS: 21.2 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 317.8 KW 254.4 KVAR 407.1 KVA PF:0.78 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 012 XFMR T-1A-1 PRI CBL-0027 FEEDER AMPS: 52.6 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 777.5 KW 641.3 KVAR 1007.9 KVA PF:0.77 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 012 XFMR T-1A-1 PRI DESIGN VOLTS: 12000 BUS VOLTS: 11046 %VD: 7.95$ ========================= PU BUS VOLTAGE: 0.921 ANGLE: -3.1 DEGREES LOAD FROM: 011 TAP CBL-0027 FEEDER AMPS: 52.6 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 777.5 KW 641.3 KVAR 1007.9 KVA PF:0.77 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 101 MDSB-A T-1A-1 TRANSF AMPS: 52.6 VOLTAGE DROP: 545. %VD: 4.54$ PROJECTED POWER FLOW: 777.5 KW 641.3 KVAR 1007.9 KVA PF:0.77 LAGGING LOSSES THRU TRANSF: 11.5 KW 65.8 KVAR 66.8 KVA ==== BUS: 013 XFMR T-1A-2 PRI DESIGN VOLTS: 12000 BUS VOLTS: 11046 %VD: 7.95$ ========================= PU BUS VOLTAGE: 0.920 ANGLE: -3.1 DEGREES LOAD FROM: 011 TAP CBL-0026 FEEDER AMPS: 21.2 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 317.8 KW 254.4 KVAR 407.1 KVA PF:0.78 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 150 MDSB-B T-1A-2 TRANSF AMPS: 21.2 VOLTAGE DROP: 370. %VD: 3.08$ PROJECTED POWER FLOW: 317.8 KW 254.4 KVAR 407.1 KVA PF:0.78 LAGGING LOSSES THRU TRANSF: 3.7 KW 17.4 KVAR 17.8 KVA ==== BUS: 014 XFMR T-1A-3 PRI DESIGN VOLTS: 12000 BUS VOLTS: 11046 %VD: 7.95$ ========================= PU BUS VOLTAGE: 0.921 ANGLE: -3.1 DEGREES LOAD TO: 160 MDSB-C T-1A-3 TRANSF AMPS: 5.6 VOLTAGE DROP: 73. %VD: 0.61 PROJECTED POWER FLOW: 86.6 KW 65.8 KVAR 108.8 KVA PF:0.80 LAGGING LOSSES THRU TRANSF: 0.2 KW 1.0 KVAR 1.0 KVA LOAD FROM: 011 TAP CBL-0025 FEEDER AMPS: 5.6 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 86.6 KW 65.8 KVAR 108.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 015 MV SWITCH #6 DESIGN VOLTS: 12000 BUS VOLTS: 11033 %VD: 8.06$ ========================= PU BUS VOLTAGE: 0.919 ANGLE: -3.1 DEGREES LOAD FROM: 010 MV SWITCH #7 CBL-0019 FEEDER AMPS: 150.6 VOLTAGE DROP: 13. %VD: 0.11 PROJECTED POWER FLOW: 2164.3 KW 1899.1 KVAR 2879.3 KVA PF:0.75 LAGGING LOSSES THRU FEEDER: 2.6 KW 2.4 KVAR 3.5 KVA LOAD TO: 016 XFMR T-7 PRI CBL-0020 FEEDER AMPS: 34.0 VOLTAGE DROP: 1. %VD: 0.01 PROJECTED POWER FLOW: 508.1 KW 406.2 KVAR 650.6 KVA PF:0.78 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.1 KVA LOAD TO: 017 MV SWITCH #5 CBL-0021 FEEDER AMPS: 116.6 VOLTAGE DROP: 4. %VD: 0.03 PROJECTED POWER FLOW: 1656.1 KW 1492.9 KVAR 2229.7 KVA PF:0.74 LAGGING LOSSES THRU FEEDER: 0.6 KW 0.6 KVAR 0.8 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 016 XFMR T-7 PRI DESIGN VOLTS: 12000 BUS VOLTS: 11032 %VD: 8.06$ ========================= PU BUS VOLTAGE: 0.919 ANGLE: -3.1 DEGREES LOAD FROM: 015 MV SWITCH #6 CBL-0020 FEEDER AMPS: 34.0 VOLTAGE DROP: 1. %VD: 0.01 PROJECTED POWER FLOW: 508.1 KW 406.2 KVAR 650.5 KVA PF:0.78 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.1 KVA LOAD TO: 900 XFMR T-7 SEC T-7 TRANSF AMPS: 34.0 VOLTAGE DROP: 237. %VD: 1.98 PROJECTED POWER FLOW: 508.1 KW 406.2 KVAR 650.5 KVA PF:0.78 LAGGING LOSSES THRU TRANSF: 2.9 KW 19.0 KVAR 19.2 KVA ==== BUS: 017 MV SWITCH #5 DESIGN VOLTS: 12000 BUS VOLTS: 11029 %VD: 8.09$ ========================= PU BUS VOLTAGE: 0.919 ANGLE: -3.1 DEGREES LOAD TO: 019 SWITCH B6 CBL-0022 FEEDER AMPS: 11.7 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 176.3 KW 138.7 KVAR 224.4 KVA PF:0.79 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD FROM: 015 MV SWITCH #6 CBL-0021 FEEDER AMPS: 116.6 VOLTAGE DROP: 4. %VD: 0.03 PROJECTED POWER FLOW: 1655.5 KW 1492.3 KVAR 2228.8 KVA PF:0.74 LAGGING LOSSES THRU FEEDER: 0.6 KW 0.6 KVAR 0.8 KVA LOAD TO: 020 SWITCH A1 CBL-0028 FEEDER AMPS: 37.6 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 551.7 KW 462.0 KVAR 719.6 KVA PF:0.77 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 018 SWITCH 137P19 CBL-0029 FEEDER AMPS: 39.6 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 617.9 KW 437.7 KVAR 757.2 KVA PF:0.82 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 021 MV SWITCH #4 CBL-0024 FEEDER AMPS: 28.7 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 309.6 KW 453.9 KVAR 549.4 KVA PF:0.56 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 018 SWITCH 137P19 DESIGN VOLTS: 12000 BUS VOLTS: 11029 %VD: 8.09$ ========================= PU BUS VOLTAGE: 0.919 ANGLE: -3.1 DEGREES LOAD FROM: 017 MV SWITCH #5 CBL-0029 FEEDER AMPS: 39.6 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 617.9 KW 437.7 KVAR 757.2 KVA PF:0.82 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 240 XFMR T-1-2 SEC T-1-2 TRANSF AMPS: 39.6 VOLTAGE DROP: 574. %VD: 4.78$ PROJECTED POWER FLOW: 617.9 KW 437.7 KVAR 757.2 KVA PF:0.82 LAGGING LOSSES THRU TRANSF: 10.5 KW 55.1 KVAR 56.1 KVA ==== BUS: 019 SWITCH B6 DESIGN VOLTS: 12000 BUS VOLTS: 11029 %VD: 8.09$ ========================= PU BUS VOLTAGE: 0.919 ANGLE: -3.1 DEGREES LOAD TO: 500 XFMR T-19B SEC T-19B TRANSF AMPS: 11.7 VOLTAGE DROP: 703. %VD: 5.86$ PROJECTED POWER FLOW: 176.3 KW 138.7 KVAR 224.4 KVA PF:0.79 LAGGING LOSSES THRU TRANSF: 1.9 KW 7.5 KVAR 7.7 KVA LOAD FROM: 017 MV SWITCH #5 CBL-0022 FEEDER AMPS: 11.7 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 176.3 KW 138.7 KVAR 224.4 KVA PF:0.79 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 020 SWITCH A1 DESIGN VOLTS: 12000 BUS VOLTS: 11029 %VD: 8.09$ ========================= PU BUS VOLTAGE: 0.919 ANGLE: -3.1 DEGREES LOAD FROM: 017 MV SWITCH #5 CBL-0028 FEEDER AMPS: 37.6 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 551.7 KW 462.0 KVAR 719.6 KVA PF:0.77 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 340 XRAY SUBSTATION T-1-3 TRANSF AMPS: 37.6 VOLTAGE DROP: 764. %VD: 6.37$ PROJECTED POWER FLOW: 551.7 KW 462.0 KVAR 719.6 KVA PF:0.77 LAGGING LOSSES THRU TRANSF: 9.8 KW 51.5 KVAR 52.5 KVA ==== BUS: 021 MV SWITCH #4 DESIGN VOLTS: 12000 BUS VOLTS: 11029 %VD: 8.09$ ========================= PU BUS VOLTAGE: 0.919 ANGLE: -3.1 DEGREES LOAD FROM: 007 MV SWITCH #3 CBL-0016 FEEDER AMPS: 97.9 VOLTAGE DROP: 1. %VD: 0.01 PROJECTED POWER FLOW: 1574.1 KW 1010.9 KVAR 1870.7 KVA PF:0.84 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.2 KVA LOAD FROM: 017 MV SWITCH #5 CBL-0024 FEEDER AMPS: 28.7 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 309.6 KW 453.9 KVAR 549.4 KVA PF:0.56 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 022 SWITCH B2 CBL-0030 FEEDER AMPS: 69.6 VOLTAGE DROP: 4. %VD: 0.03 PROJECTED POWER FLOW: 1034.4 KW 837.2 KVAR 1330.8 KVA PF:0.78 LAGGING LOSSES THRU FEEDER: 0.4 KW 0.3 KVAR 0.5 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 024 SWITCH 141P26 CBL-0031 FEEDER AMPS: 39.6 VOLTAGE DROP: 1. %VD: 0.01 PROJECTED POWER FLOW: 617.6 KW 438.9 KVAR 757.7 KVA PF:0.82 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.1 KVA LOAD TO: 023 XFMR T-1-4 PRI CBL-0032 FEEDER AMPS: 15.6 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 231.6 KW 188.7 KVAR 298.7 KVA PF:0.78 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD FROM: 025 SWITCH A6 CBL-0033 FEEDER AMPS: VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 0.0 KW 0.0 KVAR 0.0 KVA PF:0.00 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 022 SWITCH B2 DESIGN VOLTS: 12000 BUS VOLTS: 11025 %VD: 8.13$ ========================= PU BUS VOLTAGE: 0.919 ANGLE: -3.1 DEGREES LOAD FROM: 021 MV SWITCH #4 CBL-0030 FEEDER AMPS: 69.6 VOLTAGE DROP: 4. %VD: 0.03 PROJECTED POWER FLOW: 1034.0 KW 836.9 KVAR 1330.3 KVA PF:0.78 LAGGING LOSSES THRU FEEDER: 0.4 KW 0.3 KVAR 0.5 KVA LOAD TO: 320 AC SWBD T-1-5 TRANSF AMPS: 69.6 VOLTAGE DROP: 476. %VD: 3.96$ PROJECTED POWER FLOW: 1034.0 KW 836.9 KVAR 1330.3 KVA PF:0.78 LAGGING LOSSES THRU TRANSF: 12.0 KW 78.2 KVAR 79.1 KVA ==== BUS: 023 XFMR T-1-4 PRI DESIGN VOLTS: 12000 BUS VOLTS: 11029 %VD: 8.09$ ========================= PU BUS VOLTAGE: 0.919 ANGLE: -3.1 DEGREES LOAD FROM: 021 MV SWITCH #4 CBL-0032 FEEDER AMPS: 15.6 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 231.6 KW 188.7 KVAR 298.7 KVA PF:0.78 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 330 XFMR T-1-4 SEC T-1-4 TRANSF AMPS: 15.6 VOLTAGE DROP: 893. %VD: 7.44$ PROJECTED POWER FLOW: 231.6 KW 188.7 KVAR 298.7 KVA PF:0.78 LAGGING LOSSES THRU TRANSF: 4.0 KW 16.6 KVAR 17.1 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 024 SWITCH 141P26 DESIGN VOLTS: 12000 BUS VOLTS: 11028 %VD: 8.10$ ========================= PU BUS VOLTAGE: 0.919 ANGLE: -3.1 DEGREES LOAD FROM: 021 MV SWITCH #4 CBL-0031 FEEDER AMPS: 39.6 VOLTAGE DROP: 1. %VD: 0.01 PROJECTED POWER FLOW: 617.6 KW 438.9 KVAR 757.6 KVA PF:0.82 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.1 KVA LOAD TO: 170 XFMR T-1-1 SEC T-1-1 TRANSF AMPS: 39.6 VOLTAGE DROP: 571. %VD: 4.76$ PROJECTED POWER FLOW: 617.6 KW 438.9 KVAR 757.6 KVA PF:0.82 LAGGING LOSSES THRU TRANSF: 10.5 KW 54.8 KVAR 55.8 KVA ==== BUS: 025 SWITCH A6 DESIGN VOLTS: 12000 BUS VOLTS: 11029 %VD: 8.09$ ========================= PU BUS VOLTAGE: 0.919 ANGLE: -3.1 DEGREES **** NO LOAD SPECIFIED **** ==== BUS: 101 MDSB-A DESIGN VOLTS: 480 BUS VOLTS: 420 %VD: 12.49$ ========================= PU BUS VOLTAGE: 0.875 ANGLE: -35.7 DEGREES LOAD FROM: 012 XFMR T-1A-1 PRI T-1A-1 TRANSF AMPS:1316.9 VOLTAGE DROP: 22. %VD: 4.54$ PROJECTED POWER FLOW: 766.0 KW 575.6 KVAR 958.1 KVA PF:0.80 LAGGING LOSSES THRU TRANSF: 11.5 KW 65.8 KVAR 66.8 KVA LOAD TO: 114 ATS-E2_N CBL-0039 FEEDER AMPS: 249.6 VOLTAGE DROP: 1. %VD: 0.16 PROJECTED POWER FLOW: 145.2 KW 109.1 KVAR 181.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.3 KVAR 0.4 KVA LOAD TO: 115 ATS-E3_N CBL-0044 FEEDER AMPS: 347.0 VOLTAGE DROP: 1. %VD: 0.12 PROJECTED POWER FLOW: 201.6 KW 151.9 KVAR 252.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.3 KVAR 0.4 KVA LOAD TO: 102 LP-GA CBL-0055 FEEDER AMPS: 41.2 VOLTAGE DROP: 1. %VD: 0.16 PROJECTED POWER FLOW: 24.0 KW 18.0 KVAR 30.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD TO: 111 MCC-GB CBL-0057 FEEDER AMPS: 228.7 VOLTAGE DROP: 1. %VD: 0.16 PROJECTED POWER FLOW: 133.1 KW 99.9 KVAR 166.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.3 KVAR 0.3 KVA LOAD TO: 104 LP-1A CBL-0059 FEEDER AMPS: 41.2 VOLTAGE DROP: 1. %VD: 0.20 PROJECTED POWER FLOW: 24.0 KW 18.0 KVAR 30.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 103 LP-GB CBL-0060 FEEDER AMPS: 41.3 VOLTAGE DROP: 2. %VD: 0.37 PROJECTED POWER FLOW: 24.1 KW 18.0 KVAR 30.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD TO: 105 LP-1B CBL-0061 FEEDER AMPS: 41.3 VOLTAGE DROP: 2. %VD: 0.35 PROJECTED POWER FLOW: 24.1 KW 18.0 KVAR 30.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD TO: 106 LP-2B CBL-0062 FEEDER AMPS: 72.0 VOLTAGE DROP: 0. %VD: 0.07 PROJECTED POWER FLOW: 41.9 KW 31.5 KVAR 52.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 112 MCC-2B CBL-0063 FEEDER AMPS: 16.5 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 9.6 KW 7.2 KVAR 12.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 113 ATS-E1_N CBL-0064 FEEDER AMPS: 237.9 VOLTAGE DROP: 1. %VD: 0.21 PROJECTED POWER FLOW: 138.4 KW 104.0 KVAR 173.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.3 KVAR 0.4 KVA ==== BUS: 102 LP-GA DESIGN VOLTS: 480 BUS VOLTS: 419 %VD: 12.66$ ========================= PU BUS VOLTAGE: 0.873 ANGLE: -35.7 DEGREES NET BRANCH DIVERSITY LOAD: 23.9 KW 18.0 KVAR LOAD FROM: 101 MDSB-A CBL-0055 FEEDER AMPS: 41.2 VOLTAGE DROP: 1. %VD: 0.16 PROJECTED POWER FLOW: 23.9 KW 18.0 KVAR 29.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA ==== BUS: 103 LP-GB DESIGN VOLTS: 480 BUS VOLTS: 418 %VD: 12.87$ ========================= PU BUS VOLTAGE: 0.871 ANGLE: -35.6 DEGREES NET BRANCH DIVERSITY LOAD: 23.9 KW 18.0 KVAR LOAD FROM: 101 MDSB-A CBL-0060 FEEDER AMPS: 41.3 VOLTAGE DROP: 2. %VD: 0.37 PROJECTED POWER FLOW: 23.9 KW 18.0 KVAR 29.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 104 LP-1A DESIGN VOLTS: 480 BUS VOLTS: 419 %VD: 12.69$ ========================= PU BUS VOLTAGE: 0.873 ANGLE: -35.7 DEGREES NET BRANCH DIVERSITY LOAD: 23.9 KW 18.0 KVAR LOAD FROM: 101 MDSB-A CBL-0059 FEEDER AMPS: 41.2 VOLTAGE DROP: 1. %VD: 0.20 PROJECTED POWER FLOW: 23.9 KW 18.0 KVAR 29.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA ==== BUS: 105 LP-1B DESIGN VOLTS: 480 BUS VOLTS: 418 %VD: 12.84$ ========================= PU BUS VOLTAGE: 0.872 ANGLE: -35.6 DEGREES NET BRANCH DIVERSITY LOAD: 23.9 KW 18.0 KVAR LOAD FROM: 101 MDSB-A CBL-0061 FEEDER AMPS: 41.3 VOLTAGE DROP: 2. %VD: 0.35 PROJECTED POWER FLOW: 23.9 KW 18.0 KVAR 29.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA ==== BUS: 106 LP-2B DESIGN VOLTS: 480 BUS VOLTS: 420 %VD: 12.57$ ========================= PU BUS VOLTAGE: 0.874 ANGLE: -35.8 DEGREES LOAD FROM: 101 MDSB-A CBL-0062 FEEDER AMPS: 72.0 VOLTAGE DROP: 0. %VD: 0.07 PROJECTED POWER FLOW: 41.9 KW 31.4 KVAR 52.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 107 ECB 2160 CBL-0086 FEEDER AMPS: 18.0 VOLTAGE DROP: 0. %VD: 0.04 PROJECTED POWER FLOW: 10.5 KW 7.9 KVAR 13.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 108 ECB 2148 CBL-0087 FEEDER AMPS: 18.0 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 10.5 KW 7.9 KVAR 13.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 109 ECB 2149 CBL-0088 FEEDER AMPS: 18.0 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 10.5 KW 7.9 KVAR 13.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 110 ECB 2163 CBL-0089 FEEDER AMPS: 18.0 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 10.5 KW 7.9 KVAR 13.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 107 ECB 2160 DESIGN VOLTS: 480 BUS VOLTS: 420 %VD: 12.60$ ========================= PU BUS VOLTAGE: 0.874 ANGLE: -35.8 DEGREES NET BRANCH DIVERSITY LOAD: 10.5 KW 7.9 KVAR LOAD FROM: 106 LP-2B CBL-0086 FEEDER AMPS: 18.0 VOLTAGE DROP: 0. %VD: 0.04 PROJECTED POWER FLOW: 10.5 KW 7.9 KVAR 13.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 108 ECB 2148 DESIGN VOLTS: 480 BUS VOLTS: 419 %VD: 12.62$ ========================= PU BUS VOLTAGE: 0.874 ANGLE: -35.7 DEGREES NET BRANCH DIVERSITY LOAD: 10.5 KW 7.9 KVAR LOAD FROM: 106 LP-2B CBL-0087 FEEDER AMPS: 18.0 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 10.5 KW 7.9 KVAR 13.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 109 ECB 2149 DESIGN VOLTS: 480 BUS VOLTS: 419 %VD: 12.61$ ========================= PU BUS VOLTAGE: 0.874 ANGLE: -35.7 DEGREES NET BRANCH DIVERSITY LOAD: 10.5 KW 7.9 KVAR LOAD FROM: 106 LP-2B CBL-0088 FEEDER AMPS: 18.0 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 10.5 KW 7.9 KVAR 13.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 110 ECB 2163 DESIGN VOLTS: 480 BUS VOLTS: 420 %VD: 12.59$ ========================= PU BUS VOLTAGE: 0.874 ANGLE: -35.8 DEGREES NET BRANCH DIVERSITY LOAD: 10.5 KW 7.9 KVAR LOAD FROM: 106 LP-2B CBL-0089 FEEDER AMPS: 18.0 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 10.5 KW 7.9 KVAR 13.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 111 MCC-GB DESIGN VOLTS: 480 BUS VOLTS: 419 %VD: 12.65$ ========================= PU BUS VOLTAGE: 0.873 ANGLE: -35.8 DEGREES NET BRANCH DIVERSITY LOAD: 72.8 KW 54.6 KVAR LOAD FROM: 101 MDSB-A CBL-0057 FEEDER AMPS: 228.7 VOLTAGE DROP: 1. %VD: 0.16 PROJECTED POWER FLOW: 132.9 KW 99.6 KVAR 166.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.3 KVAR 0.3 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 111A CBL-0511 FEEDER AMPS: 68.9 VOLTAGE DROP: 1. %VD: 0.15 PROJECTED POWER FLOW: 40.1 KW 30.0 KVAR 50.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD TO: 111B CBL-0512 FEEDER AMPS: 34.4 VOLTAGE DROP: 0. %VD: 0.07 PROJECTED POWER FLOW: 20.0 KW 15.0 KVAR 25.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 112 MCC-2B DESIGN VOLTS: 480 BUS VOLTS: 420 %VD: 12.53$ ========================= PU BUS VOLTAGE: 0.875 ANGLE: -35.7 DEGREES NET BRANCH DIVERSITY LOAD: 9.6 KW 7.2 KVAR LOAD FROM: 101 MDSB-A CBL-0063 FEEDER AMPS: 16.5 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 9.6 KW 7.2 KVAR 12.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 117 EDP-GA DESIGN VOLTS: 480 BUS VOLTS: 480 %VD: 0.00 ========================= PU BUS VOLTAGE: 1.000 ANGLE: 0.0 DEGREES **** NO LOAD SPECIFIED **** ==== BUS: 121 ATS-E1_L DESIGN VOLTS: 480 BUS VOLTS: 419 %VD: 12.71$ ========================= PU BUS VOLTAGE: 0.873 ANGLE: -35.8 DEGREES LOAD FROM: 113 ATS-E1_N ATS-E1 FEEDER AMPS: 237.9 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 138.1 KW 103.7 KVAR 172.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 122 E1DP-GA CBL-0071 FEEDER AMPS: 237.9 VOLTAGE DROP: 0. %VD: 0.04 PROJECTED POWER FLOW: 138.1 KW 103.7 KVAR 172.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.1 KVA ==== BUS: 122 E1DP-GA DESIGN VOLTS: 480 BUS VOLTS: 419 %VD: 12.76$ ========================= PU BUS VOLTAGE: 0.872 ANGLE: -35.8 DEGREES NET BRANCH DIVERSITY LOAD: 56.5 KW 42.4 KVAR LOAD FROM: 121 ATS-E1_L CBL-0071 FEEDER AMPS: 237.9 VOLTAGE DROP: 0. %VD: 0.04 PROJECTED POWER FLOW: 138.0 KW 103.6 KVAR 172.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.1 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 123 E1LP-GB CBL-0079 FEEDER AMPS: 140.5 VOLTAGE DROP: 2. %VD: 0.33 PROJECTED POWER FLOW: 81.5 KW 61.2 KVAR 101.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.4 KVAR 0.4 KVA ==== BUS: 123 E1LP-GB DESIGN VOLTS: 480 BUS VOLTS: 417 %VD: 13.09$ ========================= PU BUS VOLTAGE: 0.869 ANGLE: -35.8 DEGREES NET BRANCH DIVERSITY LOAD: 34.6 KW 25.9 KVAR LOAD FROM: 122 E1DP-GA CBL-0079 FEEDER AMPS: 140.5 VOLTAGE DROP: 2. %VD: 0.33 PROJECTED POWER FLOW: 81.3 KW 60.9 KVAR 101.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.4 KVAR 0.4 KVA LOAD TO: 124 E1LP-1B CBL-0080 FEEDER AMPS: 80.6 VOLTAGE DROP: 1. %VD: 0.14 PROJECTED POWER FLOW: 46.7 KW 34.9 KVAR 58.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA ==== BUS: 124 E1LP-1B DESIGN VOLTS: 480 BUS VOLTS: 417 %VD: 13.23$ ========================= PU BUS VOLTAGE: 0.868 ANGLE: -35.8 DEGREES NET BRANCH DIVERSITY LOAD: 23.3 KW 17.5 KVAR LOAD FROM: 123 E1LP-GB CBL-0080 FEEDER AMPS: 80.6 VOLTAGE DROP: 1. %VD: 0.14 PROJECTED POWER FLOW: 46.6 KW 34.9 KVAR 58.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD TO: 125 E1LP-2B CBL-0081 FEEDER AMPS: 40.3 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 23.3 KW 17.5 KVAR 29.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 125 E1LP-2B DESIGN VOLTS: 480 BUS VOLTS: 416 %VD: 13.27$ ========================= PU BUS VOLTAGE: 0.867 ANGLE: -35.8 DEGREES NET BRANCH DIVERSITY LOAD: 23.3 KW 17.5 KVAR LOAD FROM: 124 E1LP-1B CBL-0081 FEEDER AMPS: 40.3 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 23.3 KW 17.5 KVAR 29.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 126 ATS-E2_L DESIGN VOLTS: 480 BUS VOLTS: 419 %VD: 12.66$ ========================= PU BUS VOLTAGE: 0.873 ANGLE: -35.8 DEGREES LOAD FROM: 114 ATS-E2_N ATS-E2 FEEDER AMPS: 249.6 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 145.0 KW 108.7 KVAR 181.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 127 E2DP-GA CBL-0040 FEEDER AMPS: 249.6 VOLTAGE DROP: 0. %VD: 0.04 PROJECTED POWER FLOW: 145.0 KW 108.7 KVAR 181.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.1 KVAR 0.1 KVA ==== BUS: 127 E2DP-GA DESIGN VOLTS: 480 BUS VOLTS: 419 %VD: 12.70$ ========================= PU BUS VOLTAGE: 0.873 ANGLE: -35.8 DEGREES LOAD FROM: 126 ATS-E2_L CBL-0040 FEEDER AMPS: 249.6 VOLTAGE DROP: 0. %VD: 0.04 PROJECTED POWER FLOW: 145.0 KW 108.7 KVAR 181.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.1 KVAR 0.1 KVA LOAD TO: 129 E2LP-GA CBL-0041 FEEDER AMPS: 208.0 VOLTAGE DROP: 3. %VD: 0.64 PROJECTED POWER FLOW: 120.8 KW 90.6 KVAR 151.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.8 KW 0.7 KVAR 1.1 KVA LOAD TO: 128 ECB CBL-0465 FEEDER AMPS: 41.5 VOLTAGE DROP: 3. %VD: 0.63 PROJECTED POWER FLOW: 24.2 KW 18.0 KVAR 30.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.1 KVAR 0.2 KVA ==== BUS: 128 ECB DESIGN VOLTS: 480 BUS VOLTS: 416 %VD: 13.33$ ========================= PU BUS VOLTAGE: 0.867 ANGLE: -35.7 DEGREES NET BRANCH DIVERSITY LOAD: 23.9 KW 18.0 KVAR LOAD FROM: 127 E2DP-GA CBL-0465 FEEDER AMPS: 41.5 VOLTAGE DROP: 3. %VD: 0.63 PROJECTED POWER FLOW: 23.9 KW 18.0 KVAR 29.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.1 KVAR 0.2 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 129 E2LP-GA DESIGN VOLTS: 480 BUS VOLTS: 416 %VD: 13.33$ ========================= PU BUS VOLTAGE: 0.867 ANGLE: -35.8 DEGREES LOAD FROM: 127 E2DP-GA CBL-0041 FEEDER AMPS: 208.0 VOLTAGE DROP: 3. %VD: 0.64 PROJECTED POWER FLOW: 120.0 KW 89.9 KVAR 149.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.8 KW 0.7 KVAR 1.1 KVA LOAD TO: 130 E2LP-1A CBL-0042 FEEDER AMPS: 83.2 VOLTAGE DROP: 0. %VD: 0.09 PROJECTED POWER FLOW: 48.0 KW 35.9 KVAR 60.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD TO: 132 E2LP-2C CBL-0043 FEEDER AMPS: 124.8 VOLTAGE DROP: 1. %VD: 0.15 PROJECTED POWER FLOW: 72.0 KW 54.0 KVAR 90.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.2 KVA ==== BUS: 130 E2LP-1A DESIGN VOLTS: 480 BUS VOLTS: 416 %VD: 13.43$ ========================= PU BUS VOLTAGE: 0.866 ANGLE: -35.8 DEGREES NET BRANCH DIVERSITY LOAD: 23.9 KW 18.0 KVAR LOAD FROM: 129 E2LP-GA CBL-0042 FEEDER AMPS: 83.2 VOLTAGE DROP: 0. %VD: 0.09 PROJECTED POWER FLOW: 47.9 KW 35.9 KVAR 59.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD TO: 131 E2LP-2B CBL-0082 FEEDER AMPS: 41.6 VOLTAGE DROP: 0. %VD: 0.09 PROJECTED POWER FLOW: 24.0 KW 18.0 KVAR 30.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 131 E2LP-2B DESIGN VOLTS: 480 BUS VOLTS: 415 %VD: 13.52$ ========================= PU BUS VOLTAGE: 0.865 ANGLE: -35.8 DEGREES NET BRANCH DIVERSITY LOAD: 23.9 KW 18.0 KVAR LOAD FROM: 130 E2LP-1A CBL-0082 FEEDER AMPS: 41.6 VOLTAGE DROP: 0. %VD: 0.09 PROJECTED POWER FLOW: 23.9 KW 18.0 KVAR 29.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 132 E2LP-2C DESIGN VOLTS: 480 BUS VOLTS: 415 %VD: 13.48$ ========================= PU BUS VOLTAGE: 0.865 ANGLE: -35.8 DEGREES NET BRANCH DIVERSITY LOAD: 47.9 KW 35.9 KVAR LOAD FROM: 129 E2LP-GA CBL-0043 FEEDER AMPS: 124.8 VOLTAGE DROP: 1. %VD: 0.15 PROJECTED POWER FLOW: 71.8 KW 53.9 KVAR 89.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.2 KVA LOAD TO: 133 2143 ECB CBL-0091 FEEDER AMPS: 41.6 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 24.0 KW 18.0 KVAR 29.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 133 2143 ECB DESIGN VOLTS: 480 BUS VOLTS: 415 %VD: 13.53$ ========================= PU BUS VOLTAGE: 0.865 ANGLE: -35.8 DEGREES NET BRANCH DIVERSITY LOAD: 23.9 KW 18.0 KVAR LOAD FROM: 132 E2LP-2C CBL-0091 FEEDER AMPS: 41.6 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 23.9 KW 18.0 KVAR 29.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 134 ATS-E3_L DESIGN VOLTS: 480 BUS VOLTS: 419 %VD: 12.63$ ========================= PU BUS VOLTAGE: 0.874 ANGLE: -35.8 DEGREES LOAD FROM: 115 ATS-E3_N ATS-E3 FEEDER AMPS: 347.0 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 201.5 KW 151.5 KVAR 252.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.1 KVAR 0.1 KVA LOAD TO: 135 E3DP-GA CBL-0045 FEEDER AMPS: 347.0 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 201.5 KW 151.5 KVAR 252.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.1 KVAR 0.1 KVA ==== BUS: 135 E3DP-GA DESIGN VOLTS: 480 BUS VOLTS: 419 %VD: 12.66$ ========================= PU BUS VOLTAGE: 0.873 ANGLE: -35.8 DEGREES LOAD FROM: 134 ATS-E3_L CBL-0045 FEEDER AMPS: 347.0 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 201.4 KW 151.4 KVAR 252.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.1 KVAR 0.1 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 139 EMCC-GB CBL-0058 FEEDER AMPS: 41.3 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 24.0 KW 18.0 KVAR 30.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 136 OR CHILLER CBL-0072 FEEDER AMPS: 41.3 VOLTAGE DROP: 1. %VD: 0.12 PROJECTED POWER FLOW: 24.0 KW 18.0 KVAR 30.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 140 E3LP-2B CBL-0073 FEEDER AMPS: 206.9 VOLTAGE DROP: 2. %VD: 0.35 PROJECTED POWER FLOW: 120.0 KW 90.4 KVAR 150.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.6 KVAR 0.7 KVA LOAD TO: 137 E3LP-GA CONTACTOR CBL-0046 FEEDER AMPS: 57.4 VOLTAGE DROP: 1. %VD: 0.23 PROJECTED POWER FLOW: 33.4 KW 25.0 KVAR 41.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA ==== BUS: 136 OR CHILLER DESIGN VOLTS: 480 BUS VOLTS: 419 %VD: 12.78$ ========================= PU BUS VOLTAGE: 0.872 ANGLE: -35.8 DEGREES NET BRANCH DIVERSITY LOAD: 24.0 KW 18.0 KVAR LOAD FROM: 135 E3DP-GA CBL-0072 FEEDER AMPS: 41.3 VOLTAGE DROP: 1. %VD: 0.12 PROJECTED POWER FLOW: 24.0 KW 18.0 KVAR 30.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 137 E3LP-GA CONTACTOR DESIGN VOLTS: 480 BUS VOLTS: 418 %VD: 12.88$ ========================= PU BUS VOLTAGE: 0.871 ANGLE: -35.8 DEGREES LOAD FROM: 135 E3DP-GA CBL-0046 FEEDER AMPS: 57.4 VOLTAGE DROP: 1. %VD: 0.23 PROJECTED POWER FLOW: 33.3 KW 24.9 KVAR 41.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD TO: 138 E3LP-GA CBL-0083 FEEDER AMPS: 57.4 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 33.3 KW 24.9 KVAR 41.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 138 E3LP-GA DESIGN VOLTS: 480 BUS VOLTS: 418 %VD: 12.90$ ========================= PU BUS VOLTAGE: 0.871 ANGLE: -35.8 DEGREES NET BRANCH DIVERSITY LOAD: 33.3 KW 24.9 KVAR LOAD FROM: 137 E3LP-GA CONTACTOR CBL-0083 FEEDER AMPS: 57.4 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 33.3 KW 24.9 KVAR 41.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 139 EMCC-GB DESIGN VOLTS: 480 BUS VOLTS: 419 %VD: 12.71$ ========================= PU BUS VOLTAGE: 0.873 ANGLE: -35.8 DEGREES NET BRANCH DIVERSITY LOAD: 24.0 KW 18.0 KVAR LOAD FROM: 135 E3DP-GA CBL-0058 FEEDER AMPS: 41.3 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 24.0 KW 18.0 KVAR 30.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 140 E3LP-2B DESIGN VOLTS: 480 BUS VOLTS: 418 %VD: 13.01$ ========================= PU BUS VOLTAGE: 0.870 ANGLE: -35.9 DEGREES NET BRANCH DIVERSITY LOAD: 95.8 KW 71.8 KVAR LOAD FROM: 135 E3DP-GA CBL-0073 FEEDER AMPS: 206.9 VOLTAGE DROP: 2. %VD: 0.35 PROJECTED POWER FLOW: 119.7 KW 89.8 KVAR 149.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.6 KVAR 0.7 KVA LOAD TO: 141 CONTACTOR CBL-0084 FEEDER AMPS: 41.3 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 23.9 KW 18.0 KVAR 29.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 141 CONTACTOR DESIGN VOLTS: 480 BUS VOLTS: 417 %VD: 13.02$ ========================= PU BUS VOLTAGE: 0.870 ANGLE: -35.9 DEGREES NET BRANCH DIVERSITY LOAD: 23.9 KW 18.0 KVAR LOAD FROM: 140 E3LP-2B CBL-0084 FEEDER AMPS: 41.3 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 23.9 KW 18.0 KVAR 29.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 150 MDSB-B DESIGN VOLTS: 208 BUS VOLTS: 185 %VD: 11.03$ ========================= PU BUS VOLTAGE: 0.890 ANGLE: -34.8 DEGREES LOAD FROM: 013 XFMR T-1A-2 PRI T-1A-2 TRANSF AMPS:1227.5 VOLTAGE DROP: 6. %VD: 3.08$ PROJECTED POWER FLOW: 314.1 KW 236.9 KVAR 393.5 KVA PF:0.80 LAGGING LOSSES THRU TRANSF: 3.7 KW 17.4 KVAR 17.8 KVA LOAD TO: 151 RP-GA CBL-0056 FEEDER AMPS: 181.1 VOLTAGE DROP: 1. %VD: 0.65 PROJECTED POWER FLOW: 46.5 KW 34.8 KVAR 58.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.3 KVAR 0.4 KVA LOAD TO: 152 RP-1B CBL-0065 FEEDER AMPS: 228.4 VOLTAGE DROP: 3. %VD: 1.43 PROJECTED POWER FLOW: 58.4 KW 44.1 KVAR 73.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.8 KW 0.9 KVAR 1.2 KVA LOAD TO: 153 RP-1A CBL-0066 FEEDER AMPS: 272.1 VOLTAGE DROP: 2. %VD: 0.79 PROJECTED POWER FLOW: 69.7 KW 52.5 KVAR 87.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.6 KVAR 0.8 KVA LOAD TO: 154 RP-GB CBL-0067 FEEDER AMPS: 273.5 VOLTAGE DROP: 3. %VD: 1.23 PROJECTED POWER FLOW: 69.9 KW 53.0 KVAR 87.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.7 KW 1.1 KVAR 1.3 KVA LOAD TO: 155 RP-2B CBL-0068 FEEDER AMPS: 272.1 VOLTAGE DROP: 2. %VD: 0.79 PROJECTED POWER FLOW: 69.7 KW 52.5 KVAR 87.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.6 KVAR 0.8 KVA ==== BUS: 151 RP-GA DESIGN VOLTS: 208 BUS VOLTS: 184 %VD: 11.68$ ========================= PU BUS VOLTAGE: 0.883 ANGLE: -34.8 DEGREES NET BRANCH DIVERSITY LOAD: 46.1 KW 34.6 KVAR LOAD FROM: 150 MDSB-B CBL-0056 FEEDER AMPS: 181.1 VOLTAGE DROP: 1. %VD: 0.65 PROJECTED POWER FLOW: 46.1 KW 34.6 KVAR 57.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.3 KVAR 0.4 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 152 RP-1B DESIGN VOLTS: 208 BUS VOLTS: 182 %VD: 12.46$ ========================= PU BUS VOLTAGE: 0.875 ANGLE: -35.0 DEGREES NET BRANCH DIVERSITY LOAD: 57.6 KW 43.2 KVAR LOAD FROM: 150 MDSB-B CBL-0065 FEEDER AMPS: 228.4 VOLTAGE DROP: 3. %VD: 1.43 PROJECTED POWER FLOW: 57.6 KW 43.2 KVAR 72.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.8 KW 0.9 KVAR 1.2 KVA ==== BUS: 153 RP-1A DESIGN VOLTS: 208 BUS VOLTS: 183 %VD: 11.83$ ========================= PU BUS VOLTAGE: 0.882 ANGLE: -34.9 DEGREES NET BRANCH DIVERSITY LOAD: 69.2 KW 51.9 KVAR LOAD FROM: 150 MDSB-B CBL-0066 FEEDER AMPS: 272.1 VOLTAGE DROP: 2. %VD: 0.79 PROJECTED POWER FLOW: 69.2 KW 51.9 KVAR 86.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.6 KVAR 0.8 KVA ==== BUS: 154 RP-GB DESIGN VOLTS: 208 BUS VOLTS: 182 %VD: 12.27$ ========================= PU BUS VOLTAGE: 0.877 ANGLE: -35.1 DEGREES NET BRANCH DIVERSITY LOAD: 69.2 KW 51.9 KVAR LOAD FROM: 150 MDSB-B CBL-0067 FEEDER AMPS: 273.5 VOLTAGE DROP: 3. %VD: 1.23 PROJECTED POWER FLOW: 69.2 KW 51.9 KVAR 86.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.7 KW 1.1 KVAR 1.3 KVA ==== BUS: 155 RP-2B DESIGN VOLTS: 208 BUS VOLTS: 183 %VD: 11.83$ ========================= PU BUS VOLTAGE: 0.882 ANGLE: -34.9 DEGREES NET BRANCH DIVERSITY LOAD: 69.2 KW 51.9 KVAR LOAD FROM: 150 MDSB-B CBL-0068 FEEDER AMPS: 272.1 VOLTAGE DROP: 2. %VD: 0.79 PROJECTED POWER FLOW: 69.2 KW 51.9 KVAR 86.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.6 KVAR 0.8 KVA ==== BUS: 160 MDSB-C DESIGN VOLTS: 480 BUS VOLTS: 439 %VD: 8.56$ ========================= PU BUS VOLTAGE: 0.914 ANGLE: -33.5 DEGREES LOAD FROM: 014 XFMR T-1A-3 PRI T-1A-3 TRANSF AMPS: 142.1 VOLTAGE DROP: 3. %VD: 0.61 PROJECTED POWER FLOW: 86.4 KW 64.9 KVAR 108.1 KVA PF:0.80 LAGGING LOSSES THRU TRANSF: 0.2 KW 1.0 KVAR 1.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 161 CHILLER #1 CBL-0069 FEEDER AMPS: 71.0 VOLTAGE DROP: 0. %VD: 0.08 PROJECTED POWER FLOW: 43.2 KW 32.4 KVAR 54.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.1 KVA LOAD TO: 162 CHILLER #2 CBL-0070 FEEDER AMPS: 71.0 VOLTAGE DROP: 0. %VD: 0.07 PROJECTED POWER FLOW: 43.2 KW 32.4 KVAR 54.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 161 CHILLER #1 DESIGN VOLTS: 480 BUS VOLTS: 439 %VD: 8.64$ ========================= PU BUS VOLTAGE: 0.914 ANGLE: -33.5 DEGREES NET BRANCH DIVERSITY LOAD: 43.2 KW 32.4 KVAR LOAD FROM: 160 MDSB-C CBL-0069 FEEDER AMPS: 71.0 VOLTAGE DROP: 0. %VD: 0.08 PROJECTED POWER FLOW: 43.2 KW 32.4 KVAR 54.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.1 KVA ==== BUS: 162 CHILLER #2 DESIGN VOLTS: 480 BUS VOLTS: 439 %VD: 8.63$ ========================= PU BUS VOLTAGE: 0.914 ANGLE: -33.5 DEGREES NET BRANCH DIVERSITY LOAD: 43.2 KW 32.4 KVAR LOAD FROM: 160 MDSB-C CBL-0070 FEEDER AMPS: 71.0 VOLTAGE DROP: 0. %VD: 0.07 PROJECTED POWER FLOW: 43.2 KW 32.4 KVAR 54.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 170 XFMR T-1-1 SEC DESIGN VOLTS: 208 BUS VOLTS: 181 %VD: 12.86$ ========================= PU BUS VOLTAGE: 0.871 ANGLE: -36.2 DEGREES LOAD FROM: 024 SWITCH 141P26 T-1-1 TRANSF AMPS:2288.2 VOLTAGE DROP: 10. %VD: 4.76$ PROJECTED POWER FLOW: 607.1 KW 384.0 KVAR 718.4 KVA PF:0.85 LAGGING LOSSES THRU TRANSF: 10.5 KW 54.8 KVAR 55.8 KVA LOAD TO: 171 MAIN SG A CBL-0035 FEEDER AMPS:2288.2 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 607.1 KW 384.0 KVAR 718.4 KVA PF:0.85 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 171 MAIN SG A DESIGN VOLTS: 208 BUS VOLTS: 181 %VD: 12.86$ ========================= PU BUS VOLTAGE: 0.871 ANGLE: -36.2 DEGREES LOAD FROM: 170 XFMR T-1-1 SEC CBL-0035 FEEDER AMPS:2288.2 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 607.1 KW 384.0 KVAR 718.3 KVA PF:0.85 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 172 PPGM-A AC SHOP CBL-0171 FEEDER AMPS: 121.1 VOLTAGE DROP: 3. %VD: 1.31 PROJECTED POWER FLOW: 30.4 KW 22.9 KVAR 38.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.4 KW 0.4 KVAR 0.6 KVA LOAD TO: 173 TAP CBL-0172 FEEDER AMPS: 151.8 VOLTAGE DROP: 3. %VD: 1.49 PROJECTED POWER FLOW: 37.9 KW 28.8 KVAR 47.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.7 KVAR 0.9 KVA LOAD TO: 177 TAP CBL-0173 FEEDER AMPS: 152.7 VOLTAGE DROP: 4. %VD: 2.04 PROJECTED POWER FLOW: 38.1 KW 29.1 KVAR 48.0 KVA PF:0.79 LAGGING LOSSES THRU FEEDER: 0.6 KW 1.0 KVAR 1.2 KVA LOAD TO: 182 PNL A CBL-0174 FEEDER AMPS: 67.9 VOLTAGE DROP: 2. %VD: 1.07 PROJECTED POWER FLOW: 17.0 KW 12.8 KVAR 21.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.2 KVAR 0.3 KVA LOAD TO: 183 LP6B CBL-0182 FEEDER AMPS: 69.6 VOLTAGE DROP: 2. %VD: 0.93 PROJECTED POWER FLOW: 17.5 KW 13.1 KVAR 21.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.2 KVAR 0.2 KVA LOAD TO: 185 TAP CBL-0184 FEEDER AMPS: 87.0 VOLTAGE DROP: 3. %VD: 1.28 PROJECTED POWER FLOW: 21.8 KW 16.5 KVAR 27.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.3 KVAR 0.4 KVA LOAD TO: 189 TAP CBL-0188 FEEDER AMPS: 121.9 VOLTAGE DROP: 4. %VD: 1.86 PROJECTED POWER FLOW: 30.5 KW 23.1 KVAR 38.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.6 KVAR 0.8 KVA LOAD TO: 192 TAP CBL-0189 FEEDER AMPS: 106.2 VOLTAGE DROP: 3. %VD: 1.47 PROJECTED POWER FLOW: 26.7 KW 20.0 KVAR 33.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.3 KVAR 0.6 KVA LOAD TO: 194 PPGL CBL-0190 FEEDER AMPS: 20.7 VOLTAGE DROP: 1. %VD: 0.36 PROJECTED POWER FLOW: 5.2 KW 3.9 KVAR 6.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 195 PP2K-B CBL-0191 FEEDER AMPS: 67.9 VOLTAGE DROP: 2. %VD: 1.09 PROJECTED POWER FLOW: 17.1 KW 12.8 KVAR 21.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.1 KVAR 0.3 KVA LOAD TO: 196 ELEVATOR TAP CBL-0192 FEEDER AMPS: 328.2 VOLTAGE DROP: 4. %VD: 1.73 PROJECTED POWER FLOW: 82.0 KW 62.4 KVAR 103.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.2 KW 1.8 KVAR 2.2 KVA LOAD TO: 205 XRAY B CBL-0200 FEEDER AMPS: 120.6 VOLTAGE DROP: 2. %VD: 0.81 PROJECTED POWER FLOW: 30.3 KW 22.8 KVAR 37.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.3 KVAR 0.4 KVA LOAD TO: 206 CBL-0201 FEEDER AMPS: 162.4 VOLTAGE DROP: 2. %VD: 0.86 PROJECTED POWER FLOW: 40.7 KW 30.7 KVAR 51.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.4 KVAR 0.5 KVA LOAD TO: 210 TAP CBL-0204 FEEDER AMPS: 300.7 VOLTAGE DROP: 7. %VD: 3.25$ PROJECTED POWER FLOW: 74.7 KW 57.7 KVAR 94.4 KVA PF:0.79 LAGGING LOSSES THRU FEEDER: 2.0 KW 3.1 KVAR 3.7 KVA LOAD TO: 216 TAP CBL-0214 FEEDER AMPS: 121.2 VOLTAGE DROP: 3. %VD: 1.36 PROJECTED POWER FLOW: 30.3 KW 23.0 KVAR 38.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.5 KVAR 0.6 KVA LOAD TO: 223 LP4A-1 CBL-0217 FEEDER AMPS: 244.6 VOLTAGE DROP: 4. %VD: 2.11 PROJECTED POWER FLOW: 61.4 KW 46.2 KVAR 76.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.4 KW 1.2 KVAR 1.9 KVA LOAD TO: 225 TAP CBL-0219 FEEDER AMPS: 60.0 VOLTAGE DROP: 1. %VD: 0.46 PROJECTED POWER FLOW: 15.0 KW 11.3 KVAR 18.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.1 KVA LOAD TO: 227 E2-4B CBL-0224 FEEDER AMPS: 120.7 VOLTAGE DROP: 2. %VD: 1.03 PROJECTED POWER FLOW: 30.2 KW 22.9 KVAR 37.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.4 KVAR 0.5 KVA LOAD TO: 228 CAPACITOR A CBL-0225 FEEDER AMPS: 242.7 VOLTAGE DROP: -1. %VD: -0.31 PROJECTED POWER FLOW: 0.2 KW -76.2 KVAR 76.2 KVA PF:0.00 LEADING LOSSES THRU FEEDER: 0.2 KW 0.3 KVAR 0.4 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 172 PPGM-A AC SHOP DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 14.17$ ========================= PU BUS VOLTAGE: 0.858 ANGLE: -36.4 DEGREES NET BRANCH DIVERSITY LOAD: 30.0 KW 22.5 KVAR LOAD FROM: 171 MAIN SG A CBL-0171 FEEDER AMPS: 121.1 VOLTAGE DROP: 3. %VD: 1.31 PROJECTED POWER FLOW: 30.0 KW 22.5 KVAR 37.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.4 KW 0.4 KVAR 0.6 KVA ==== BUS: 173 TAP DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.36$ ========================= PU BUS VOLTAGE: 0.856 ANGLE: -36.6 DEGREES LOAD FROM: 171 MAIN SG A CBL-0172 FEEDER AMPS: 151.8 VOLTAGE DROP: 3. %VD: 1.49 PROJECTED POWER FLOW: 37.5 KW 28.1 KVAR 46.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.7 KVAR 0.9 KVA LOAD TO: 174 LP7A-1 CBL-0175 FEEDER AMPS: 91.0 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 22.5 KW 16.9 KVAR 28.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 175 TAP CBL-0176 FEEDER AMPS: 60.7 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 15.0 KW 11.2 KVAR 18.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 174 LP7A-1 DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.37$ ========================= PU BUS VOLTAGE: 0.856 ANGLE: -36.6 DEGREES NET BRANCH DIVERSITY LOAD: 22.5 KW 16.9 KVAR LOAD FROM: 173 TAP CBL-0175 FEEDER AMPS: 91.0 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 22.5 KW 16.9 KVAR 28.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 175 TAP DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.38$ ========================= PU BUS VOLTAGE: 0.856 ANGLE: -36.6 DEGREES LOAD FROM: 173 TAP CBL-0176 FEEDER AMPS: 60.7 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 15.0 KW 11.2 KVAR 18.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 176 LP8B CBL-0177 FEEDER AMPS: 60.7 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 15.0 KW 11.2 KVAR 18.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 176 LP8B DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.39$ ========================= PU BUS VOLTAGE: 0.856 ANGLE: -36.6 DEGREES NET BRANCH DIVERSITY LOAD: 15.0 KW 11.2 KVAR LOAD FROM: 175 TAP CBL-0177 FEEDER AMPS: 60.7 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 15.0 KW 11.2 KVAR 18.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 177 TAP DESIGN VOLTS: 208 BUS VOLTS: 177 %VD: 14.90$ ========================= PU BUS VOLTAGE: 0.851 ANGLE: -36.7 DEGREES LOAD FROM: 171 MAIN SG A CBL-0173 FEEDER AMPS: 152.7 VOLTAGE DROP: 4. %VD: 2.04 PROJECTED POWER FLOW: 37.5 KW 28.1 KVAR 46.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.6 KW 1.0 KVAR 1.2 KVA LOAD TO: 178 LP7A CBL-0178 FEEDER AMPS: 122.2 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 30.0 KW 22.5 KVAR 37.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 180 TAP CBL-0179 FEEDER AMPS: 30.5 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 7.5 KW 5.6 KVAR 9.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 178 LP7A DESIGN VOLTS: 208 BUS VOLTS: 177 %VD: 14.91$ ========================= PU BUS VOLTAGE: 0.851 ANGLE: -36.7 DEGREES NET BRANCH DIVERSITY LOAD: 15.0 KW 11.2 KVAR LOAD FROM: 177 TAP CBL-0178 FEEDER AMPS: 122.2 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 30.0 KW 22.5 KVAR 37.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 179 LP7A1 CBL-0180 FEEDER AMPS: 61.1 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 15.0 KW 11.2 KVAR 18.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 179 LP7A1 DESIGN VOLTS: 208 BUS VOLTS: 177 %VD: 14.92$ ========================= PU BUS VOLTAGE: 0.851 ANGLE: -36.7 DEGREES NET BRANCH DIVERSITY LOAD: 15.0 KW 11.2 KVAR LOAD FROM: 178 LP7A CBL-0180 FEEDER AMPS: 61.1 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 15.0 KW 11.2 KVAR 18.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 180 TAP DESIGN VOLTS: 208 BUS VOLTS: 177 %VD: 14.91$ ========================= PU BUS VOLTAGE: 0.851 ANGLE: -36.7 DEGREES LOAD FROM: 177 TAP CBL-0179 FEEDER AMPS: 30.5 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 7.5 KW 5.6 KVAR 9.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 181 LP8A CBL-0181 FEEDER AMPS: 30.5 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.5 KW 5.6 KVAR 9.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 181 LP8A DESIGN VOLTS: 208 BUS VOLTS: 177 %VD: 14.92$ ========================= PU BUS VOLTAGE: 0.851 ANGLE: -36.7 DEGREES NET BRANCH DIVERSITY LOAD: 7.5 KW 5.6 KVAR LOAD FROM: 180 TAP CBL-0181 FEEDER AMPS: 30.5 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.5 KW 5.6 KVAR 9.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 182 PNL A DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.94$ ========================= PU BUS VOLTAGE: 0.861 ANGLE: -36.4 DEGREES NET BRANCH DIVERSITY LOAD: 16.9 KW 12.6 KVAR LOAD FROM: 171 MAIN SG A CBL-0174 FEEDER AMPS: 67.9 VOLTAGE DROP: 2. %VD: 1.07 PROJECTED POWER FLOW: 16.9 KW 12.6 KVAR 21.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.2 KVAR 0.3 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 183 LP6B DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.80$ ========================= PU BUS VOLTAGE: 0.862 ANGLE: -36.3 DEGREES NET BRANCH DIVERSITY LOAD: 15.0 KW 11.2 KVAR LOAD FROM: 171 MAIN SG A CBL-0182 FEEDER AMPS: 69.6 VOLTAGE DROP: 2. %VD: 0.93 PROJECTED POWER FLOW: 17.3 KW 13.0 KVAR 21.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.2 KVAR 0.2 KVA LOAD TO: 184 LP6B2 CBL-0183 FEEDER AMPS: 9.2 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 2.3 KW 1.7 KVAR 2.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 184 LP6B2 DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.80$ ========================= PU BUS VOLTAGE: 0.862 ANGLE: -36.3 DEGREES NET BRANCH DIVERSITY LOAD: 2.3 KW 1.7 KVAR LOAD FROM: 183 LP6B CBL-0183 FEEDER AMPS: 9.2 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 2.3 KW 1.7 KVAR 2.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 185 TAP DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 14.15$ ========================= PU BUS VOLTAGE: 0.859 ANGLE: -36.4 DEGREES LOAD FROM: 171 MAIN SG A CBL-0184 FEEDER AMPS: 87.0 VOLTAGE DROP: 3. %VD: 1.28 PROJECTED POWER FLOW: 21.6 KW 16.2 KVAR 26.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.3 KVAR 0.4 KVA LOAD TO: 186 LP5A-LH CBL-0185 FEEDER AMPS: 26.7 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 6.6 KW 5.0 KVAR 8.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 187 LP5A-RH CBL-0186 FEEDER AMPS: 26.7 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 6.6 KW 5.0 KVAR 8.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 188 LP5A2 CBL-0187 FEEDER AMPS: 33.5 VOLTAGE DROP: 0. %VD: 0.08 PROJECTED POWER FLOW: 8.3 KW 6.2 KVAR 10.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 186 LP5A-LH DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 14.15$ ========================= PU BUS VOLTAGE: 0.859 ANGLE: -36.4 DEGREES NET BRANCH DIVERSITY LOAD: 6.6 KW 5.0 KVAR LOAD FROM: 185 TAP CBL-0185 FEEDER AMPS: 26.7 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 6.6 KW 5.0 KVAR 8.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 187 LP5A-RH DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 14.15$ ========================= PU BUS VOLTAGE: 0.859 ANGLE: -36.4 DEGREES NET BRANCH DIVERSITY LOAD: 6.6 KW 5.0 KVAR LOAD FROM: 185 TAP CBL-0186 FEEDER AMPS: 26.7 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 6.6 KW 5.0 KVAR 8.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 188 LP5A2 DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.22$ ========================= PU BUS VOLTAGE: 0.858 ANGLE: -36.4 DEGREES NET BRANCH DIVERSITY LOAD: 8.3 KW 6.2 KVAR LOAD FROM: 185 TAP CBL-0187 FEEDER AMPS: 33.5 VOLTAGE DROP: 0. %VD: 0.08 PROJECTED POWER FLOW: 8.3 KW 6.2 KVAR 10.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 189 TAP DESIGN VOLTS: 208 BUS VOLTS: 177 %VD: 14.72$ ========================= PU BUS VOLTAGE: 0.853 ANGLE: -36.5 DEGREES LOAD FROM: 171 MAIN SG A CBL-0188 FEEDER AMPS: 121.9 VOLTAGE DROP: 4. %VD: 1.86 PROJECTED POWER FLOW: 30.0 KW 22.5 KVAR 37.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.6 KVAR 0.8 KVA LOAD TO: 190 LP6A-LH CBL-0193 FEEDER AMPS: 60.9 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 15.0 KW 11.2 KVAR 18.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 191 LP6A-RH CBL-0194 FEEDER AMPS: 60.9 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 15.0 KW 11.2 KVAR 18.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 190 LP6A-LH DESIGN VOLTS: 208 BUS VOLTS: 177 %VD: 14.73$ ========================= PU BUS VOLTAGE: 0.853 ANGLE: -36.5 DEGREES NET BRANCH DIVERSITY LOAD: 15.0 KW 11.2 KVAR LOAD FROM: 189 TAP CBL-0193 FEEDER AMPS: 60.9 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 15.0 KW 11.2 KVAR 18.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 191 LP6A-RH DESIGN VOLTS: 208 BUS VOLTS: 177 %VD: 14.73$ ========================= PU BUS VOLTAGE: 0.853 ANGLE: -36.5 DEGREES NET BRANCH DIVERSITY LOAD: 15.0 KW 11.2 KVAR LOAD FROM: 189 TAP CBL-0194 FEEDER AMPS: 60.9 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 15.0 KW 11.2 KVAR 18.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 192 TAP DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.33$ ========================= PU BUS VOLTAGE: 0.857 ANGLE: -36.2 DEGREES LOAD FROM: 171 MAIN SG A CBL-0189 FEEDER AMPS: 106.2 VOLTAGE DROP: 3. %VD: 1.47 PROJECTED POWER FLOW: 26.2 KW 19.7 KVAR 32.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.3 KVAR 0.6 KVA LOAD TO: 193 PP RM1134 CBL-0195 FEEDER AMPS: 106.2 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 26.2 KW 19.7 KVAR 32.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 193 PP RM1134 DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.35$ ========================= PU BUS VOLTAGE: 0.857 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 26.2 KW 19.7 KVAR LOAD FROM: 192 TAP CBL-0195 FEEDER AMPS: 106.2 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 26.2 KW 19.7 KVAR 32.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 194 PPGL DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.22$ ========================= PU BUS VOLTAGE: 0.868 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 5.2 KW 3.9 KVAR LOAD FROM: 171 MAIN SG A CBL-0190 FEEDER AMPS: 20.7 VOLTAGE DROP: 1. %VD: 0.36 PROJECTED POWER FLOW: 5.2 KW 3.9 KVAR 6.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 195 PP2K-B DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.95$ ========================= PU BUS VOLTAGE: 0.861 ANGLE: -36.1 DEGREES NET BRANCH DIVERSITY LOAD: 16.9 KW 12.6 KVAR LOAD FROM: 171 MAIN SG A CBL-0191 FEEDER AMPS: 67.9 VOLTAGE DROP: 2. %VD: 1.09 PROJECTED POWER FLOW: 16.9 KW 12.6 KVAR 21.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.1 KVAR 0.3 KVA LOAD FROM: 195A CONTACTOR CBL-0501 FEEDER AMPS: VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 0.0 KW 0.0 KVAR 0.0 KVA PF:0.00 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 195A CONTACTOR DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.95$ ========================= PU BUS VOLTAGE: 0.861 ANGLE: -36.1 DEGREES **** NO LOAD SPECIFIED **** ==== BUS: 195B PANEL DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.95$ ========================= PU BUS VOLTAGE: 0.861 ANGLE: -36.1 DEGREES **** NO LOAD SPECIFIED **** ==== BUS: 196 ELEVATOR TAP DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.60$ ========================= PU BUS VOLTAGE: 0.854 ANGLE: -36.7 DEGREES LOAD FROM: 171 MAIN SG A CBL-0192 FEEDER AMPS: 328.2 VOLTAGE DROP: 4. %VD: 1.73 PROJECTED POWER FLOW: 80.8 KW 60.6 KVAR 101.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.2 KW 1.8 KVAR 2.2 KVA LOAD TO: 198 ELE 2 ATS_N CBL-0197 FEEDER AMPS: 164.1 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 40.4 KW 30.3 KVAR 50.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 197 ELE 1 ATS_N CBL-0196 FEEDER AMPS: 164.1 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 40.4 KW 30.3 KVAR 50.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 205 XRAY B DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.67$ ========================= PU BUS VOLTAGE: 0.863 ANGLE: -36.3 DEGREES LOAD FROM: 171 MAIN SG A CBL-0200 FEEDER AMPS: 120.6 VOLTAGE DROP: 2. %VD: 0.81 PROJECTED POWER FLOW: 30.0 KW 22.5 KVAR 37.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.3 KVAR 0.4 KVA LOAD TO: 205D RP2K CBL-0484 FEEDER AMPS: 30.1 VOLTAGE DROP: 0. %VD: 0.16 PROJECTED POWER FLOW: 7.5 KW 5.6 KVAR 9.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 205B 2H CBL-0487 FEEDER AMPS: 30.1 VOLTAGE DROP: 0. %VD: 0.16 PROJECTED POWER FLOW: 7.5 KW 5.6 KVAR 9.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 205C 2J CBL-0488 FEEDER AMPS: 30.1 VOLTAGE DROP: 0. %VD: 0.16 PROJECTED POWER FLOW: 7.5 KW 5.6 KVAR 9.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 205A RP2G CBL-0486 FEEDER AMPS: 30.1 VOLTAGE DROP: 0. %VD: 0.14 PROJECTED POWER FLOW: 7.5 KW 5.6 KVAR 9.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 205A RP2G DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.80$ ========================= PU BUS VOLTAGE: 0.862 ANGLE: -36.3 DEGREES NET BRANCH DIVERSITY LOAD: 7.5 KW 5.6 KVAR LOAD FROM: 205 XRAY B CBL-0486 FEEDER AMPS: 30.1 VOLTAGE DROP: 0. %VD: 0.14 PROJECTED POWER FLOW: 7.5 KW 5.6 KVAR 9.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 205B 2H DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.83$ ========================= PU BUS VOLTAGE: 0.862 ANGLE: -36.3 DEGREES NET BRANCH DIVERSITY LOAD: 7.5 KW 5.6 KVAR LOAD FROM: 205 XRAY B CBL-0487 FEEDER AMPS: 30.1 VOLTAGE DROP: 0. %VD: 0.16 PROJECTED POWER FLOW: 7.5 KW 5.6 KVAR 9.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 205C 2J DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.83$ ========================= PU BUS VOLTAGE: 0.862 ANGLE: -36.3 DEGREES NET BRANCH DIVERSITY LOAD: 7.5 KW 5.6 KVAR LOAD FROM: 205 XRAY B CBL-0488 FEEDER AMPS: 30.1 VOLTAGE DROP: 0. %VD: 0.16 PROJECTED POWER FLOW: 7.5 KW 5.6 KVAR 9.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 205D RP2K DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.83$ ========================= PU BUS VOLTAGE: 0.862 ANGLE: -36.3 DEGREES NET BRANCH DIVERSITY LOAD: 7.5 KW 5.6 KVAR LOAD FROM: 205 XRAY B CBL-0484 FEEDER AMPS: 30.1 VOLTAGE DROP: 0. %VD: 0.16 PROJECTED POWER FLOW: 7.5 KW 5.6 KVAR 9.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 210 TAP DESIGN VOLTS: 208 BUS VOLTS: 174 %VD: 16.11$ ========================= PU BUS VOLTAGE: 0.839 ANGLE: -37.0 DEGREES LOAD FROM: 171 MAIN SG A CBL-0204 FEEDER AMPS: 300.7 VOLTAGE DROP: 7. %VD: 3.25$ PROJECTED POWER FLOW: 72.7 KW 54.6 KVAR 90.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 2.0 KW 3.1 KVAR 3.7 KVA LOAD TO: 211 PPGB CBL-0205 FEEDER AMPS: 30.9 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.5 KW 5.6 KVAR 9.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 212 LPGA CBL-0206 FEEDER AMPS: 61.9 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 15.0 KW 11.2 KVAR 18.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 213 TAP CBL-0207 FEEDER AMPS: 207.7 VOLTAGE DROP: 0. %VD: 0.09 PROJECTED POWER FLOW: 50.2 KW 37.7 KVAR 62.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.1 KVAR 0.1 KVA ==== BUS: 211 PPGB DESIGN VOLTS: 208 BUS VOLTS: 174 %VD: 16.11$ ========================= PU BUS VOLTAGE: 0.839 ANGLE: -37.0 DEGREES NET BRANCH DIVERSITY LOAD: 7.5 KW 5.6 KVAR LOAD FROM: 210 TAP CBL-0205 FEEDER AMPS: 30.9 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.5 KW 5.6 KVAR 9.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 212 LPGA DESIGN VOLTS: 208 BUS VOLTS: 174 %VD: 16.12$ ========================= PU BUS VOLTAGE: 0.839 ANGLE: -37.0 DEGREES NET BRANCH DIVERSITY LOAD: 15.0 KW 11.2 KVAR LOAD FROM: 210 TAP CBL-0206 FEEDER AMPS: 61.9 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 15.0 KW 11.2 KVAR 18.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 213 TAP DESIGN VOLTS: 208 BUS VOLTS: 174 %VD: 16.20$ ========================= PU BUS VOLTAGE: 0.838 ANGLE: -37.0 DEGREES LOAD FROM: 210 TAP CBL-0207 FEEDER AMPS: 207.7 VOLTAGE DROP: 0. %VD: 0.09 PROJECTED POWER FLOW: 50.2 KW 37.6 KVAR 62.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.1 KVAR 0.1 KVA LOAD TO: 214 RP-1C-1 CBL-0208 FEEDER AMPS: 207.7 VOLTAGE DROP: 0. %VD: 0.04 PROJECTED POWER FLOW: 50.2 KW 37.6 KVAR 62.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 214 RP-1C-1 DESIGN VOLTS: 208 BUS VOLTS: 174 %VD: 16.24$ ========================= PU BUS VOLTAGE: 0.838 ANGLE: -37.1 DEGREES NET BRANCH DIVERSITY LOAD: 25.1 KW 18.8 KVAR LOAD FROM: 213 TAP CBL-0208 FEEDER AMPS: 207.7 VOLTAGE DROP: 0. %VD: 0.04 PROJECTED POWER FLOW: 50.2 KW 37.6 KVAR 62.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 215 RP-1C-2 CBL-0209 FEEDER AMPS: 103.8 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 25.1 KW 18.8 KVAR 31.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 215 RP-1C-2 DESIGN VOLTS: 208 BUS VOLTS: 174 %VD: 16.25$ ========================= PU BUS VOLTAGE: 0.837 ANGLE: -37.1 DEGREES NET BRANCH DIVERSITY LOAD: 25.1 KW 18.8 KVAR LOAD FROM: 214 RP-1C-1 CBL-0209 FEEDER AMPS: 103.8 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 25.1 KW 18.8 KVAR 31.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 216 TAP DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.22$ ========================= PU BUS VOLTAGE: 0.858 ANGLE: -36.6 DEGREES LOAD FROM: 171 MAIN SG A CBL-0214 FEEDER AMPS: 121.2 VOLTAGE DROP: 3. %VD: 1.36 PROJECTED POWER FLOW: 30.0 KW 22.5 KVAR 37.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.5 KVAR 0.6 KVA LOAD TO: 217 LP2A-LH CBL-0210 FEEDER AMPS: 30.3 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.5 KW 5.6 KVAR 9.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 218 LP2A-RH CBL-0211 FEEDER AMPS: 30.3 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.5 KW 5.6 KVAR 9.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 219 TAP CBL-0212 FEEDER AMPS: 60.6 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 15.0 KW 11.2 KVAR 18.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 217 LP2A-LH DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.23$ ========================= PU BUS VOLTAGE: 0.858 ANGLE: -36.6 DEGREES NET BRANCH DIVERSITY LOAD: 7.5 KW 5.6 KVAR LOAD FROM: 216 TAP CBL-0210 FEEDER AMPS: 30.3 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.5 KW 5.6 KVAR 9.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 218 LP2A-RH DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.23$ ========================= PU BUS VOLTAGE: 0.858 ANGLE: -36.6 DEGREES NET BRANCH DIVERSITY LOAD: 7.5 KW 5.6 KVAR LOAD FROM: 216 TAP CBL-0211 FEEDER AMPS: 30.3 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.5 KW 5.6 KVAR 9.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 219 TAP DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.25$ ========================= PU BUS VOLTAGE: 0.858 ANGLE: -36.6 DEGREES LOAD FROM: 216 TAP CBL-0212 FEEDER AMPS: 60.6 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 15.0 KW 11.2 KVAR 18.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 220 LP3A-LH CBL-0215 FEEDER AMPS: 30.3 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.5 KW 5.6 KVAR 9.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 221 LP3A-RH CBL-0216 FEEDER AMPS: 30.3 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.5 KW 5.6 KVAR 9.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 220 LP3A-LH DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.25$ ========================= PU BUS VOLTAGE: 0.857 ANGLE: -36.6 DEGREES NET BRANCH DIVERSITY LOAD: 7.5 KW 5.6 KVAR LOAD FROM: 219 TAP CBL-0215 FEEDER AMPS: 30.3 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.5 KW 5.6 KVAR 9.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 221 LP3A-RH DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.25$ ========================= PU BUS VOLTAGE: 0.857 ANGLE: -36.6 DEGREES NET BRANCH DIVERSITY LOAD: 7.5 KW 5.6 KVAR LOAD FROM: 219 TAP CBL-0216 FEEDER AMPS: 30.3 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.5 KW 5.6 KVAR 9.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 223 LP4A-1 DESIGN VOLTS: 208 BUS VOLTS: 177 %VD: 14.97$ ========================= PU BUS VOLTAGE: 0.850 ANGLE: -36.3 DEGREES NET BRANCH DIVERSITY LOAD: 30.0 KW 22.5 KVAR LOAD FROM: 171 MAIN SG A CBL-0217 FEEDER AMPS: 244.6 VOLTAGE DROP: 4. %VD: 2.11 PROJECTED POWER FLOW: 60.0 KW 45.0 KVAR 74.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.4 KW 1.2 KVAR 1.9 KVA LOAD TO: 224 LP4A-2 CBL-0218 FEEDER AMPS: 122.3 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 30.0 KW 22.5 KVAR 37.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 224 LP4A-2 DESIGN VOLTS: 208 BUS VOLTS: 177 %VD: 14.99$ ========================= PU BUS VOLTAGE: 0.850 ANGLE: -36.3 DEGREES NET BRANCH DIVERSITY LOAD: 30.0 KW 22.5 KVAR LOAD FROM: 223 LP4A-1 CBL-0218 FEEDER AMPS: 122.3 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 30.0 KW 22.5 KVAR 37.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 225 TAP DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.32$ ========================= PU BUS VOLTAGE: 0.867 ANGLE: -36.3 DEGREES LOAD FROM: 171 MAIN SG A CBL-0219 FEEDER AMPS: 60.0 VOLTAGE DROP: 1. %VD: 0.46 PROJECTED POWER FLOW: 15.0 KW 11.2 KVAR 18.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.1 KVA LOAD TO: 226 LP2B CBL-0221 FEEDER AMPS: 60.0 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 15.0 KW 11.2 KVAR 18.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 226 LP2B DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.35$ ========================= PU BUS VOLTAGE: 0.867 ANGLE: -36.3 DEGREES NET BRANCH DIVERSITY LOAD: 15.0 KW 11.2 KVAR LOAD FROM: 225 TAP CBL-0221 FEEDER AMPS: 60.0 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 15.0 KW 11.2 KVAR 18.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 227 E2-4B DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.89$ ========================= PU BUS VOLTAGE: 0.861 ANGLE: -36.5 DEGREES NET BRANCH DIVERSITY LOAD: 30.0 KW 22.5 KVAR LOAD FROM: 171 MAIN SG A CBL-0224 FEEDER AMPS: 120.7 VOLTAGE DROP: 2. %VD: 1.03 PROJECTED POWER FLOW: 30.0 KW 22.5 KVAR 37.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.4 KVAR 0.5 KVA ==== BUS: 228 CAPACITOR A DESIGN VOLTS: 208 BUS VOLTS: 182 %VD: 12.55$ ========================= PU BUS VOLTAGE: 0.874 ANGLE: -36.4 DEGREES NET BRANCH DIVERSITY LOAD: 0.0 KW -76.5 KVAR LOAD FROM: 171 MAIN SG A CBL-0225 FEEDER AMPS: 242.7 VOLTAGE DROP: -1. %VD: -0.31 PROJECTED POWER FLOW: 0.0 KW -76.5 KVAR 76.5 KVA PF:0.00 LEADING LOSSES THRU FEEDER: 0.2 KW 0.3 KVAR 0.4 KVA ==== BUS: 229 ELE 1 ATS_L DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.65$ ========================= PU BUS VOLTAGE: 0.854 ANGLE: -36.7 DEGREES LOAD FROM: 197 ELE 1 ATS_N ELE 1 ATS FEEDER AMPS: 164.1 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 40.4 KW 30.3 KVAR 50.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 230 ELE#1 ECB CBL-0231 FEEDER AMPS: 164.1 VOLTAGE DROP: 1. %VD: 0.52 PROJECTED POWER FLOW: 40.4 KW 30.3 KVAR 50.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.2 KVAR 0.3 KVA ==== BUS: 230 ELE#1 ECB DESIGN VOLTS: 208 BUS VOLTS: 176 %VD: 15.16$ ========================= PU BUS VOLTAGE: 0.848 ANGLE: -36.7 DEGREES LOAD FROM: 229 ELE 1 ATS_L CBL-0231 FEEDER AMPS: 164.1 VOLTAGE DROP: 1. %VD: 0.52 PROJECTED POWER FLOW: 40.1 KW 30.1 KVAR 50.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.2 KVAR 0.3 KVA LOAD TO: 231 ELE#1 CBL-0198 FEEDER AMPS: 164.1 VOLTAGE DROP: 1. %VD: 0.27 PROJECTED POWER FLOW: 40.1 KW 30.1 KVAR 50.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.2 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 233 ELE 2 ATS_L DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.65$ ========================= PU BUS VOLTAGE: 0.854 ANGLE: -36.7 DEGREES LOAD FROM: 198 ELE 2 ATS_N ELE 2 ATS FEEDER AMPS: 164.1 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 40.4 KW 30.3 KVAR 50.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 234 ELE#2 ECB CBL-0232 FEEDER AMPS: 164.1 VOLTAGE DROP: 1. %VD: 0.52 PROJECTED POWER FLOW: 40.4 KW 30.3 KVAR 50.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.2 KVAR 0.3 KVA ==== BUS: 234 ELE#2 ECB DESIGN VOLTS: 208 BUS VOLTS: 176 %VD: 15.16$ ========================= PU BUS VOLTAGE: 0.848 ANGLE: -36.7 DEGREES LOAD FROM: 233 ELE 2 ATS_L CBL-0232 FEEDER AMPS: 164.1 VOLTAGE DROP: 1. %VD: 0.52 PROJECTED POWER FLOW: 40.1 KW 30.1 KVAR 50.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.2 KVAR 0.3 KVA LOAD TO: 235 ELE#2 CBL-0199 FEEDER AMPS: 164.1 VOLTAGE DROP: 1. %VD: 0.27 PROJECTED POWER FLOW: 40.1 KW 30.1 KVAR 50.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.2 KVA ==== BUS: 236 ELE 3 ATS_L DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.77$ ========================= PU BUS VOLTAGE: 0.862 ANGLE: -36.4 DEGREES LOAD FROM: 207 ELE 3 ATS_N ELE 3 ATS FEEDER AMPS: 162.4 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 40.4 KW 30.3 KVAR 50.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 237 ELE#3 ECB CBL-0482 FEEDER AMPS: 162.4 VOLTAGE DROP: 1. %VD: 0.51 PROJECTED POWER FLOW: 40.4 KW 30.3 KVAR 50.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.2 KVAR 0.3 KVA ==== BUS: 237 ELE#3 ECB DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.28$ ========================= PU BUS VOLTAGE: 0.857 ANGLE: -36.4 DEGREES LOAD FROM: 236 ELE 3 ATS_L CBL-0482 FEEDER AMPS: 162.4 VOLTAGE DROP: 1. %VD: 0.51 PROJECTED POWER FLOW: 40.1 KW 30.1 KVAR 50.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.2 KVAR 0.3 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 238 ELE#3 CBL-0481 FEEDER AMPS: 162.4 VOLTAGE DROP: 1. %VD: 0.27 PROJECTED POWER FLOW: 40.1 KW 30.1 KVAR 50.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.2 KVA ==== BUS: 240 XFMR T-1-2 SEC DESIGN VOLTS: 208 BUS VOLTS: 181 %VD: 12.87$ ========================= PU BUS VOLTAGE: 0.871 ANGLE: -36.3 DEGREES LOAD FROM: 018 SWITCH 137P19 T-1-2 TRANSF AMPS:2286.8 VOLTAGE DROP: 10. %VD: 4.78$ PROJECTED POWER FLOW: 607.4 KW 382.6 KVAR 717.8 KVA PF:0.85 LAGGING LOSSES THRU TRANSF: 10.5 KW 55.1 KVAR 56.1 KVA LOAD TO: 241 MAIN SG B CBL-0036 FEEDER AMPS:2286.8 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 607.4 KW 382.6 KVAR 717.8 KVA PF:0.85 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 241 MAIN SG B DESIGN VOLTS: 208 BUS VOLTS: 181 %VD: 12.88$ ========================= PU BUS VOLTAGE: 0.871 ANGLE: -36.3 DEGREES LOAD FROM: 240 XFMR T-1-2 SEC CBL-0036 FEEDER AMPS:2286.8 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 607.4 KW 382.5 KVAR 717.8 KVA PF:0.85 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 249 TAP CBL-0097 FEEDER AMPS: 282.5 VOLTAGE DROP: 5. %VD: 2.59 PROJECTED POWER FLOW: 70.3 KW 54.0 KVAR 88.7 KVA PF:0.79 LAGGING LOSSES THRU FEEDER: 1.5 KW 2.4 KVAR 2.8 KVA LOAD TO: 242 DP ECB CBL-0103 FEEDER AMPS: 683.9 VOLTAGE DROP: 1. %VD: 0.31 PROJECTED POWER FLOW: 171.6 KW 128.9 KVAR 214.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.6 KVAR 0.8 KVA LOAD TO: 256 TAP CBL-0104 FEEDER AMPS: 145.2 VOLTAGE DROP: 2. %VD: 1.05 PROJECTED POWER FLOW: 36.4 KW 27.5 KVAR 45.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.5 KVAR 0.6 KVA LOAD TO: 261 TAP CBL-0111 FEEDER AMPS: 182.4 VOLTAGE DROP: 3. %VD: 1.38 PROJECTED POWER FLOW: 45.6 KW 34.6 KVAR 57.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.8 KVAR 1.0 KVA LOAD TO: 270 TAP CBL-0120 FEEDER AMPS: 174.4 VOLTAGE DROP: 2. %VD: 1.11 PROJECTED POWER FLOW: 43.6 KW 33.1 KVAR 54.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.4 KW 0.6 KVAR 0.7 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 282 TAP CBL-0095 FEEDER AMPS: 115.7 VOLTAGE DROP: 2. %VD: 0.73 PROJECTED POWER FLOW: 29.0 KW 21.9 KVAR 36.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.3 KVAR 0.3 KVA LOAD TO: 288 PPGM-B AC SHOP CBL-0142 FEEDER AMPS: 116.2 VOLTAGE DROP: 2. %VD: 1.06 PROJECTED POWER FLOW: 29.1 KW 22.0 KVAR 36.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.4 KVAR 0.5 KVA LOAD TO: 289 TAP CBL-0143 FEEDER AMPS: 172.5 VOLTAGE DROP: 0. %VD: 0.18 PROJECTED POWER FLOW: 43.3 KW 32.5 KVAR 54.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.1 KVA LOAD TO: 294 XRAY 2FL CBL-0147 FEEDER AMPS: 115.9 VOLTAGE DROP: 2. %VD: 0.89 PROJECTED POWER FLOW: 29.1 KW 21.9 KVAR 36.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.3 KVAR 0.4 KVA LOAD TO: 295 TAP CBL-0148 FEEDER AMPS: 131.0 VOLTAGE DROP: 3. %VD: 1.26 PROJECTED POWER FLOW: 32.9 KW 24.8 KVAR 41.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.4 KW 0.4 KVAR 0.6 KVA LOAD TO: 302 TAP CBL-0156 FEEDER AMPS: 57.8 VOLTAGE DROP: 1. %VD: 0.70 PROJECTED POWER FLOW: 14.5 KW 10.9 KVAR 18.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.1 KVA LOAD TO: 305 CAPACITOR B CBL-0160 FEEDER AMPS: 242.6 VOLTAGE DROP: -1. %VD: -0.31 PROJECTED POWER FLOW: 0.2 KW -76.2 KVAR 76.2 KVA PF:0.00 LEADING LOSSES THRU FEEDER: 0.2 KW 0.3 KVAR 0.4 KVA LOAD TO: 306 TAP CBL-0161 FEEDER AMPS: 131.2 VOLTAGE DROP: 3. %VD: 1.39 PROJECTED POWER FLOW: 32.9 KW 24.8 KVAR 41.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.4 KW 0.5 KVAR 0.7 KVA LOAD TO: 309 PPGK CBL-0164 FEEDER AMPS: 28.8 VOLTAGE DROP: 1. %VD: 0.37 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 310 TAP CBL-0165 FEEDER AMPS: 86.0 VOLTAGE DROP: 2. %VD: 1.13 PROJECTED POWER FLOW: 21.6 KW 16.2 KVAR 27.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.2 KVAR 0.4 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 242 DP ECB DESIGN VOLTS: 208 BUS VOLTS: 181 %VD: 13.19$ ========================= PU BUS VOLTAGE: 0.868 ANGLE: -36.3 DEGREES LOAD FROM: 241 MAIN SG B CBL-0103 FEEDER AMPS: 683.9 VOLTAGE DROP: 1. %VD: 0.31 PROJECTED POWER FLOW: 171.1 KW 128.4 KVAR 213.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.6 KVAR 0.8 KVA LOAD TO: 243 PANEL DP CBL-0384 FEEDER AMPS: 683.9 VOLTAGE DROP: 0. %VD: 0.06 PROJECTED POWER FLOW: 171.1 KW 128.4 KVAR 213.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.2 KVA ==== BUS: 243 PANEL DP DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.25$ ========================= PU BUS VOLTAGE: 0.867 ANGLE: -36.3 DEGREES LOAD FROM: 242 DP ECB CBL-0384 FEEDER AMPS: 683.9 VOLTAGE DROP: 0. %VD: 0.06 PROJECTED POWER FLOW: 171.0 KW 128.3 KVAR 213.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.2 KVA LOAD TO: 246 ATS 8_N CBL-0385 FEEDER AMPS: 104.4 VOLTAGE DROP: 1. %VD: 0.25 PROJECTED POWER FLOW: 26.2 KW 19.5 KVAR 32.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.1 KVA LOAD TO: 244 ATS 7_N CBL-0386 FEEDER AMPS: 441.1 VOLTAGE DROP: 1. %VD: 0.39 PROJECTED POWER FLOW: 110.2 KW 82.9 KVAR 137.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.4 KW 0.5 KVAR 0.6 KVA LOAD TO: 245 ATS 9_N CBL-0387 FEEDER AMPS: 43.9 VOLTAGE DROP: 0. %VD: 0.10 PROJECTED POWER FLOW: 11.0 KW 8.2 KVAR 13.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 247 ATS 10_N CBL-0389 FEEDER AMPS: 65.3 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 16.3 KW 12.3 KVAR 20.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 248 LP3 CBL-0390 FEEDER AMPS: 29.0 VOLTAGE DROP: 1. %VD: 0.55 PROJECTED POWER FLOW: 7.3 KW 5.4 KVAR 9.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 248 LP3 DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.80$ ========================= PU BUS VOLTAGE: 0.862 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 7.2 KW 5.4 KVAR LOAD FROM: 243 PANEL DP CBL-0390 FEEDER AMPS: 29.0 VOLTAGE DROP: 1. %VD: 0.55 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA ==== BUS: 249 TAP DESIGN VOLTS: 208 BUS VOLTS: 176 %VD: 15.47$ ========================= PU BUS VOLTAGE: 0.845 ANGLE: -36.9 DEGREES LOAD FROM: 241 MAIN SG B CBL-0097 FEEDER AMPS: 282.5 VOLTAGE DROP: 5. %VD: 2.59 PROJECTED POWER FLOW: 68.8 KW 51.7 KVAR 86.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.5 KW 2.4 KVAR 2.8 KVA LOAD TO: 250 LPGB CBL-0098 FEEDER AMPS: 100.7 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 24.6 KW 18.4 KVAR 30.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 253 LP1D JB CBL-0099 FEEDER AMPS: 181.7 VOLTAGE DROP: 0. %VD: 0.09 PROJECTED POWER FLOW: 44.2 KW 33.3 KVAR 55.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.1 KVAR 0.1 KVA ==== BUS: 250 LPGB DESIGN VOLTS: 208 BUS VOLTS: 176 %VD: 15.48$ ========================= PU BUS VOLTAGE: 0.845 ANGLE: -36.9 DEGREES NET BRANCH DIVERSITY LOAD: 14.4 KW 10.8 KVAR LOAD FROM: 249 TAP CBL-0098 FEEDER AMPS: 100.7 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 24.6 KW 18.4 KVAR 30.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 251 LPGP CBL-0100 FEEDER AMPS: 41.6 VOLTAGE DROP: 1. %VD: 0.32 PROJECTED POWER FLOW: 10.2 KW 7.6 KVAR 12.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 251 LPGP DESIGN VOLTS: 208 BUS VOLTS: 175 %VD: 15.81$ ========================= PU BUS VOLTAGE: 0.842 ANGLE: -36.8 DEGREES NET BRANCH DIVERSITY LOAD: 5.0 KW 3.8 KVAR LOAD FROM: 250 LPGB CBL-0100 FEEDER AMPS: 41.6 VOLTAGE DROP: 1. %VD: 0.32 PROJECTED POWER FLOW: 10.1 KW 7.6 KVAR 12.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD TO: 252 LP-GP CBL-0480 FEEDER AMPS: 20.8 VOLTAGE DROP: 1. %VD: 0.28 PROJECTED POWER FLOW: 5.1 KW 3.8 KVAR 6.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 252 LP-GP DESIGN VOLTS: 208 BUS VOLTS: 175 %VD: 16.09$ ========================= PU BUS VOLTAGE: 0.839 ANGLE: -36.7 DEGREES NET BRANCH DIVERSITY LOAD: 5.0 KW 3.8 KVAR LOAD FROM: 251 LPGP CBL-0480 FEEDER AMPS: 20.8 VOLTAGE DROP: 1. %VD: 0.28 PROJECTED POWER FLOW: 5.0 KW 3.8 KVAR 6.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 253 LP1D JB DESIGN VOLTS: 208 BUS VOLTS: 176 %VD: 15.56$ ========================= PU BUS VOLTAGE: 0.844 ANGLE: -36.9 DEGREES LOAD FROM: 249 TAP CBL-0099 FEEDER AMPS: 181.7 VOLTAGE DROP: 0. %VD: 0.09 PROJECTED POWER FLOW: 44.2 KW 33.2 KVAR 55.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.1 KVAR 0.1 KVA LOAD TO: 254 RP-1D-1 CBL-0101 FEEDER AMPS: 181.7 VOLTAGE DROP: 1. %VD: 0.26 PROJECTED POWER FLOW: 44.2 KW 33.2 KVAR 55.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.2 KVAR 0.2 KVA ==== BUS: 254 RP-1D-1 DESIGN VOLTS: 208 BUS VOLTS: 175 %VD: 15.82$ ========================= PU BUS VOLTAGE: 0.842 ANGLE: -37.0 DEGREES NET BRANCH DIVERSITY LOAD: 22.0 KW 16.5 KVAR LOAD TO: 255 RP-1D-2 CBL-0102 FEEDER AMPS: 90.8 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 22.1 KW 16.5 KVAR 27.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD FROM: 253 LP1D JB CBL-0101 FEEDER AMPS: 181.7 VOLTAGE DROP: 1. %VD: 0.26 PROJECTED POWER FLOW: 44.1 KW 33.1 KVAR 55.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.2 KVAR 0.2 KVA ==== BUS: 255 RP-1D-2 DESIGN VOLTS: 208 BUS VOLTS: 175 %VD: 15.83$ ========================= PU BUS VOLTAGE: 0.842 ANGLE: -37.0 DEGREES NET BRANCH DIVERSITY LOAD: 22.0 KW 16.5 KVAR LOAD FROM: 254 RP-1D-1 CBL-0102 FEEDER AMPS: 90.8 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 22.0 KW 16.5 KVAR 27.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 256 TAP DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.93$ ========================= PU BUS VOLTAGE: 0.861 ANGLE: -36.5 DEGREES LOAD FROM: 241 MAIN SG B CBL-0104 FEEDER AMPS: 145.2 VOLTAGE DROP: 2. %VD: 1.05 PROJECTED POWER FLOW: 36.0 KW 27.0 KVAR 45.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.5 KVAR 0.6 KVA LOAD TO: 257 LP1B CBL-0105 FEEDER AMPS: 58.0 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 258 TAP CBL-0106 FEEDER AMPS: 87.1 VOLTAGE DROP: 0. %VD: 0.04 PROJECTED POWER FLOW: 21.6 KW 16.2 KVAR 27.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 257 LP1B DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.94$ ========================= PU BUS VOLTAGE: 0.861 ANGLE: -36.5 DEGREES NET BRANCH DIVERSITY LOAD: 14.4 KW 10.8 KVAR LOAD FROM: 256 TAP CBL-0105 FEEDER AMPS: 58.0 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 258 TAP DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.97$ ========================= PU BUS VOLTAGE: 0.860 ANGLE: -36.5 DEGREES LOAD FROM: 256 TAP CBL-0106 FEEDER AMPS: 87.1 VOLTAGE DROP: 0. %VD: 0.04 PROJECTED POWER FLOW: 21.6 KW 16.2 KVAR 27.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 259 LP2A CBL-0109 FEEDER AMPS: 29.0 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 260 LP2D CBL-0110 FEEDER AMPS: 58.1 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 259 LP2A DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.98$ ========================= PU BUS VOLTAGE: 0.860 ANGLE: -36.5 DEGREES NET BRANCH DIVERSITY LOAD: 7.2 KW 5.4 KVAR LOAD FROM: 258 TAP CBL-0109 FEEDER AMPS: 29.0 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 260 LP2D DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.98$ ========================= PU BUS VOLTAGE: 0.860 ANGLE: -36.5 DEGREES NET BRANCH DIVERSITY LOAD: 14.4 KW 10.8 KVAR LOAD FROM: 258 TAP CBL-0110 FEEDER AMPS: 58.1 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 261 TAP DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.26$ ========================= PU BUS VOLTAGE: 0.857 ANGLE: -36.6 DEGREES LOAD FROM: 241 MAIN SG B CBL-0111 FEEDER AMPS: 182.4 VOLTAGE DROP: 3. %VD: 1.38 PROJECTED POWER FLOW: 45.1 KW 33.8 KVAR 56.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.8 KVAR 1.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 262 LP6C CBL-0112 FEEDER AMPS: 29.1 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 263 TAP CBL-0113 FEEDER AMPS: 153.3 VOLTAGE DROP: 0. %VD: 0.06 PROJECTED POWER FLOW: 37.9 KW 28.4 KVAR 47.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 262 LP6C DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.26$ ========================= PU BUS VOLTAGE: 0.857 ANGLE: -36.6 DEGREES NET BRANCH DIVERSITY LOAD: 7.2 KW 5.4 KVAR LOAD FROM: 261 TAP CBL-0112 FEEDER AMPS: 29.1 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 263 TAP DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.33$ ========================= PU BUS VOLTAGE: 0.857 ANGLE: -36.6 DEGREES LOAD FROM: 261 TAP CBL-0113 FEEDER AMPS: 153.3 VOLTAGE DROP: 0. %VD: 0.06 PROJECTED POWER FLOW: 37.8 KW 28.4 KVAR 47.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 264 LP7C CBL-0114 FEEDER AMPS: 29.1 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 265 TAP CBL-0115 FEEDER AMPS: 124.1 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 30.6 KW 23.0 KVAR 38.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 264 LP7C DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.33$ ========================= PU BUS VOLTAGE: 0.857 ANGLE: -36.6 DEGREES NET BRANCH DIVERSITY LOAD: 7.2 KW 5.4 KVAR LOAD FROM: 263 TAP CBL-0114 FEEDER AMPS: 29.1 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 265 TAP DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.38$ ========================= PU BUS VOLTAGE: 0.856 ANGLE: -36.6 DEGREES LOAD FROM: 263 TAP CBL-0115 FEEDER AMPS: 124.1 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 30.6 KW 23.0 KVAR 38.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 266 LP8C CBL-0116 FEEDER AMPS: 58.4 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 267 TAP CBL-0117 FEEDER AMPS: 65.7 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 16.2 KW 12.2 KVAR 20.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 266 LP8C DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.39$ ========================= PU BUS VOLTAGE: 0.856 ANGLE: -36.6 DEGREES NET BRANCH DIVERSITY LOAD: 14.4 KW 10.8 KVAR LOAD FROM: 265 TAP CBL-0116 FEEDER AMPS: 58.4 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 267 TAP DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.41$ ========================= PU BUS VOLTAGE: 0.856 ANGLE: -36.6 DEGREES LOAD FROM: 265 TAP CBL-0117 FEEDER AMPS: 65.7 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 16.2 KW 12.2 KVAR 20.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 268 LP9C1 CBL-0118 FEEDER AMPS: 36.5 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 9.0 KW 6.8 KVAR 11.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 269 LP9C CBL-0119 FEEDER AMPS: 29.2 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 268 LP9C1 DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.42$ ========================= PU BUS VOLTAGE: 0.856 ANGLE: -36.6 DEGREES NET BRANCH DIVERSITY LOAD: 9.0 KW 6.8 KVAR LOAD FROM: 267 TAP CBL-0118 FEEDER AMPS: 36.5 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 9.0 KW 6.8 KVAR 11.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 269 LP9C DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.41$ ========================= PU BUS VOLTAGE: 0.856 ANGLE: -36.6 DEGREES NET BRANCH DIVERSITY LOAD: 7.2 KW 5.4 KVAR LOAD FROM: 267 TAP CBL-0119 FEEDER AMPS: 29.2 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 270 TAP DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.99$ ========================= PU BUS VOLTAGE: 0.860 ANGLE: -36.5 DEGREES LOAD FROM: 241 MAIN SG B CBL-0120 FEEDER AMPS: 174.4 VOLTAGE DROP: 2. %VD: 1.11 PROJECTED POWER FLOW: 43.2 KW 32.4 KVAR 54.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.4 KW 0.6 KVAR 0.7 KVA LOAD TO: 271 LPGC-B CBL-0122 FEEDER AMPS: 58.1 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 273 LPGC-A CBL-0123 FEEDER AMPS: 29.0 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 277 TAP CBL-0124 FEEDER AMPS: 87.2 VOLTAGE DROP: 0. %VD: 0.04 PROJECTED POWER FLOW: 21.6 KW 16.2 KVAR 27.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 271 LPGC-B DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.99$ ========================= PU BUS VOLTAGE: 0.860 ANGLE: -36.5 DEGREES NET BRANCH DIVERSITY LOAD: 7.2 KW 5.4 KVAR LOAD FROM: 270 TAP CBL-0122 FEEDER AMPS: 58.1 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 272 LPGC-C CBL-0121 FEEDER AMPS: 29.0 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 272 LPGC-C DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 14.02$ ========================= PU BUS VOLTAGE: 0.860 ANGLE: -36.5 DEGREES NET BRANCH DIVERSITY LOAD: 7.2 KW 5.4 KVAR LOAD FROM: 271 LPGC-B CBL-0121 FEEDER AMPS: 29.0 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 273 LPGC-A DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.99$ ========================= PU BUS VOLTAGE: 0.860 ANGLE: -36.5 DEGREES NET BRANCH DIVERSITY LOAD: 7.2 KW 5.4 KVAR LOAD FROM: 270 TAP CBL-0123 FEEDER AMPS: 29.0 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 277 TAP DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 14.03$ ========================= PU BUS VOLTAGE: 0.860 ANGLE: -36.5 DEGREES LOAD FROM: 270 TAP CBL-0124 FEEDER AMPS: 87.2 VOLTAGE DROP: 0. %VD: 0.04 PROJECTED POWER FLOW: 21.6 KW 16.2 KVAR 27.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 278 LP1C CBL-0126 FEEDER AMPS: 29.0 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 279 TAP CBL-0125 FEEDER AMPS: 58.1 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 278 LP1C DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 14.03$ ========================= PU BUS VOLTAGE: 0.860 ANGLE: -36.5 DEGREES NET BRANCH DIVERSITY LOAD: 7.2 KW 5.4 KVAR LOAD FROM: 277 TAP CBL-0126 FEEDER AMPS: 29.0 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 279 TAP DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 14.05$ ========================= PU BUS VOLTAGE: 0.859 ANGLE: -36.5 DEGREES LOAD FROM: 277 TAP CBL-0125 FEEDER AMPS: 58.1 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 280 LP2C-A CBL-0127 FEEDER AMPS: 29.0 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 281 LP2C CBL-0128 FEEDER AMPS: 29.0 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 280 LP2C-A DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 14.06$ ========================= PU BUS VOLTAGE: 0.859 ANGLE: -36.5 DEGREES NET BRANCH DIVERSITY LOAD: 7.2 KW 5.4 KVAR LOAD FROM: 279 TAP CBL-0127 FEEDER AMPS: 29.0 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 281 LP2C DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 14.06$ ========================= PU BUS VOLTAGE: 0.859 ANGLE: -36.5 DEGREES NET BRANCH DIVERSITY LOAD: 7.2 KW 5.4 KVAR LOAD FROM: 279 TAP CBL-0128 FEEDER AMPS: 29.0 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 282 TAP DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.61$ ========================= PU BUS VOLTAGE: 0.864 ANGLE: -36.4 DEGREES LOAD FROM: 241 MAIN SG B CBL-0095 FEEDER AMPS: 115.7 VOLTAGE DROP: 2. %VD: 0.73 PROJECTED POWER FLOW: 28.8 KW 21.6 KVAR 36.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.3 KVAR 0.3 KVA LOAD TO: 283 LP3C CBL-0137 FEEDER AMPS: 57.8 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 284 TAP CBL-0138 FEEDER AMPS: 57.8 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 283 LP3C DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.62$ ========================= PU BUS VOLTAGE: 0.864 ANGLE: -36.4 DEGREES NET BRANCH DIVERSITY LOAD: 14.4 KW 10.8 KVAR LOAD FROM: 282 TAP CBL-0137 FEEDER AMPS: 57.8 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 284 TAP DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.63$ ========================= PU BUS VOLTAGE: 0.864 ANGLE: -36.4 DEGREES LOAD FROM: 282 TAP CBL-0138 FEEDER AMPS: 57.8 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 285 LP4C CBL-0139 FEEDER AMPS: 28.9 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 286 TAP CBL-0140 FEEDER AMPS: 28.9 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 285 LP4C DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.64$ ========================= PU BUS VOLTAGE: 0.864 ANGLE: -36.4 DEGREES NET BRANCH DIVERSITY LOAD: 7.2 KW 5.4 KVAR LOAD FROM: 284 TAP CBL-0139 FEEDER AMPS: 28.9 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 286 TAP DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.65$ ========================= PU BUS VOLTAGE: 0.864 ANGLE: -36.4 DEGREES LOAD FROM: 284 TAP CBL-0140 FEEDER AMPS: 28.9 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 287 LP5C CBL-0141 FEEDER AMPS: 28.9 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 287 LP5C DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.65$ ========================= PU BUS VOLTAGE: 0.864 ANGLE: -36.4 DEGREES NET BRANCH DIVERSITY LOAD: 7.2 KW 5.4 KVAR LOAD FROM: 286 TAP CBL-0141 FEEDER AMPS: 28.9 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 288 PPGM-B AC SHOP DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.94$ ========================= PU BUS VOLTAGE: 0.861 ANGLE: -36.5 DEGREES NET BRANCH DIVERSITY LOAD: 28.8 KW 21.6 KVAR LOAD FROM: 241 MAIN SG B CBL-0142 FEEDER AMPS: 116.2 VOLTAGE DROP: 2. %VD: 1.06 PROJECTED POWER FLOW: 28.8 KW 21.6 KVAR 36.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.4 KVAR 0.5 KVA ==== BUS: 289 TAP DESIGN VOLTS: 208 BUS VOLTS: 181 %VD: 13.06$ ========================= PU BUS VOLTAGE: 0.869 ANGLE: -36.3 DEGREES LOAD FROM: 241 MAIN SG B CBL-0143 FEEDER AMPS: 172.5 VOLTAGE DROP: 0. %VD: 0.18 PROJECTED POWER FLOW: 43.2 KW 32.4 KVAR 54.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.1 KVA LOAD TO: 290 PPGN-C CBL-0144 FEEDER AMPS: 57.5 VOLTAGE DROP: 0. %VD: 0.06 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 291 PPGN-B CBL-0145 FEEDER AMPS: 57.5 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 293 PPGN-A CBL-0146 FEEDER AMPS: 57.5 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 290 PPGN-C DESIGN VOLTS: 208 BUS VOLTS: 181 %VD: 13.12$ ========================= PU BUS VOLTAGE: 0.869 ANGLE: -36.3 DEGREES NET BRANCH DIVERSITY LOAD: 14.4 KW 10.8 KVAR LOAD FROM: 289 TAP CBL-0144 FEEDER AMPS: 57.5 VOLTAGE DROP: 0. %VD: 0.06 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 291 PPGN-B DESIGN VOLTS: 208 BUS VOLTS: 181 %VD: 13.07$ ========================= PU BUS VOLTAGE: 0.869 ANGLE: -36.3 DEGREES NET BRANCH DIVERSITY LOAD: 14.4 KW 10.8 KVAR LOAD FROM: 289 TAP CBL-0145 FEEDER AMPS: 57.5 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 293 PPGN-A DESIGN VOLTS: 208 BUS VOLTS: 181 %VD: 13.07$ ========================= PU BUS VOLTAGE: 0.869 ANGLE: -36.3 DEGREES NET BRANCH DIVERSITY LOAD: 14.4 KW 10.8 KVAR LOAD FROM: 289 TAP CBL-0146 FEEDER AMPS: 57.5 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 294 XRAY 2FL DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.77$ ========================= PU BUS VOLTAGE: 0.862 ANGLE: -36.3 DEGREES NET BRANCH DIVERSITY LOAD: 28.8 KW 21.6 KVAR LOAD FROM: 241 MAIN SG B CBL-0147 FEEDER AMPS: 115.9 VOLTAGE DROP: 2. %VD: 0.89 PROJECTED POWER FLOW: 28.8 KW 21.6 KVAR 36.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.3 KVAR 0.4 KVA ==== BUS: 295 TAP DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 14.14$ ========================= PU BUS VOLTAGE: 0.859 ANGLE: -36.4 DEGREES LOAD FROM: 241 MAIN SG B CBL-0148 FEEDER AMPS: 131.0 VOLTAGE DROP: 3. %VD: 1.26 PROJECTED POWER FLOW: 32.4 KW 24.3 KVAR 40.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.4 KW 0.4 KVAR 0.6 KVA LOAD TO: 296 PNL C CBL-0149 FEEDER AMPS: 29.1 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 297 LP2L CBL-0150 FEEDER AMPS: 14.5 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 3.6 KW 2.7 KVAR 4.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 298 PP2K CBL-0151 FEEDER AMPS: 29.1 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 299 TAP CBL-0152 FEEDER AMPS: 58.2 VOLTAGE DROP: 0. %VD: 0.06 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 296 PNL C DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 14.14$ ========================= PU BUS VOLTAGE: 0.859 ANGLE: -36.4 DEGREES NET BRANCH DIVERSITY LOAD: 7.2 KW 5.4 KVAR LOAD FROM: 295 TAP CBL-0149 FEEDER AMPS: 29.1 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 297 LP2L DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 14.15$ ========================= PU BUS VOLTAGE: 0.859 ANGLE: -36.4 DEGREES NET BRANCH DIVERSITY LOAD: 3.6 KW 2.7 KVAR LOAD FROM: 295 TAP CBL-0150 FEEDER AMPS: 14.5 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 3.6 KW 2.7 KVAR 4.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 298 PP2K DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 14.14$ ========================= PU BUS VOLTAGE: 0.859 ANGLE: -36.4 DEGREES NET BRANCH DIVERSITY LOAD: 7.2 KW 5.4 KVAR LOAD FROM: 295 TAP CBL-0151 FEEDER AMPS: 29.1 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 299 TAP DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.20$ ========================= PU BUS VOLTAGE: 0.858 ANGLE: -36.4 DEGREES LOAD FROM: 295 TAP CBL-0152 FEEDER AMPS: 58.2 VOLTAGE DROP: 0. %VD: 0.06 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 300 PP4K CBL-0153 FEEDER AMPS: 29.1 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 301 PP5K CBL-0154 FEEDER AMPS: 29.1 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 300 PP4K DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.21$ ========================= PU BUS VOLTAGE: 0.858 ANGLE: -36.4 DEGREES NET BRANCH DIVERSITY LOAD: 7.2 KW 5.4 KVAR LOAD FROM: 299 TAP CBL-0153 FEEDER AMPS: 29.1 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 301 PP5K DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.22$ ========================= PU BUS VOLTAGE: 0.858 ANGLE: -36.4 DEGREES NET BRANCH DIVERSITY LOAD: 7.2 KW 5.4 KVAR LOAD FROM: 299 TAP CBL-0154 FEEDER AMPS: 29.1 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 302 TAP DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.58$ ========================= PU BUS VOLTAGE: 0.864 ANGLE: -36.3 DEGREES LOAD FROM: 241 MAIN SG B CBL-0156 FEEDER AMPS: 57.8 VOLTAGE DROP: 1. %VD: 0.70 PROJECTED POWER FLOW: 14.4 KW 10.8 KVAR 18.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.1 KVA LOAD TO: 304 PP9M CBL-0158 FEEDER AMPS: 28.9 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 303 PP10N CBL-0157 FEEDER AMPS: 28.9 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 303 PP10N DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.60$ ========================= PU BUS VOLTAGE: 0.864 ANGLE: -36.3 DEGREES NET BRANCH DIVERSITY LOAD: 7.2 KW 5.4 KVAR LOAD FROM: 302 TAP CBL-0157 FEEDER AMPS: 28.9 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 304 PP9M DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.59$ ========================= PU BUS VOLTAGE: 0.864 ANGLE: -36.3 DEGREES NET BRANCH DIVERSITY LOAD: 7.2 KW 5.4 KVAR LOAD FROM: 302 TAP CBL-0158 FEEDER AMPS: 28.9 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 305 CAPACITOR B DESIGN VOLTS: 208 BUS VOLTS: 182 %VD: 12.57$ ========================= PU BUS VOLTAGE: 0.874 ANGLE: -36.4 DEGREES NET BRANCH DIVERSITY LOAD: 0.0 KW -76.4 KVAR LOAD FROM: 241 MAIN SG B CBL-0160 FEEDER AMPS: 242.6 VOLTAGE DROP: -1. %VD: -0.31 PROJECTED POWER FLOW: 0.0 KW -76.4 KVAR 76.4 KVA PF:0.00 LEADING LOSSES THRU FEEDER: 0.2 KW 0.3 KVAR 0.4 KVA ==== BUS: 306 TAP DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.27$ ========================= PU BUS VOLTAGE: 0.857 ANGLE: -36.5 DEGREES LOAD FROM: 241 MAIN SG B CBL-0161 FEEDER AMPS: 131.2 VOLTAGE DROP: 3. %VD: 1.39 PROJECTED POWER FLOW: 32.4 KW 24.3 KVAR 40.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.4 KW 0.5 KVAR 0.7 KVA LOAD TO: 307 LP5B-LH CBL-0162 FEEDER AMPS: 65.6 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 16.2 KW 12.2 KVAR 20.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 308 LP5B-RH CBL-0163 FEEDER AMPS: 65.6 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 16.2 KW 12.2 KVAR 20.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 307 LP5B-LH DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.27$ ========================= PU BUS VOLTAGE: 0.857 ANGLE: -36.5 DEGREES NET BRANCH DIVERSITY LOAD: 16.2 KW 12.2 KVAR LOAD FROM: 306 TAP CBL-0162 FEEDER AMPS: 65.6 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 16.2 KW 12.2 KVAR 20.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 308 LP5B-RH DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.27$ ========================= PU BUS VOLTAGE: 0.857 ANGLE: -36.5 DEGREES NET BRANCH DIVERSITY LOAD: 16.2 KW 12.2 KVAR LOAD FROM: 306 TAP CBL-0163 FEEDER AMPS: 65.6 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 16.2 KW 12.2 KVAR 20.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 309 PPGK DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.25$ ========================= PU BUS VOLTAGE: 0.867 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 7.2 KW 5.4 KVAR LOAD FROM: 241 MAIN SG B CBL-0164 FEEDER AMPS: 28.8 VOLTAGE DROP: 1. %VD: 0.37 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 310 TAP DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 14.01$ ========================= PU BUS VOLTAGE: 0.860 ANGLE: -36.3 DEGREES LOAD FROM: 241 MAIN SG B CBL-0165 FEEDER AMPS: 86.0 VOLTAGE DROP: 2. %VD: 1.13 PROJECTED POWER FLOW: 21.3 KW 16.0 KVAR 26.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.2 KVAR 0.4 KVA LOAD TO: 312 TAP CBL-0166 FEEDER AMPS: 60.5 VOLTAGE DROP: 0. %VD: 0.04 PROJECTED POWER FLOW: 15.0 KW 11.2 KVAR 18.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 311 PP6K CBL-0167 FEEDER AMPS: 25.5 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 6.3 KW 4.8 KVAR 7.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 311 PP6K DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 14.01$ ========================= PU BUS VOLTAGE: 0.860 ANGLE: -36.3 DEGREES NET BRANCH DIVERSITY LOAD: 6.3 KW 4.8 KVAR LOAD FROM: 310 TAP CBL-0167 FEEDER AMPS: 25.5 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 6.3 KW 4.8 KVAR 7.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 312 TAP DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 14.04$ ========================= PU BUS VOLTAGE: 0.860 ANGLE: -36.3 DEGREES LOAD FROM: 310 TAP CBL-0166 FEEDER AMPS: 60.5 VOLTAGE DROP: 0. %VD: 0.04 PROJECTED POWER FLOW: 15.0 KW 11.2 KVAR 18.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 314 PP7K CBL-0169 FEEDER AMPS: 34.9 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 8.6 KW 6.5 KVAR 10.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 313 PP8K CBL-0168 FEEDER AMPS: 25.5 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 6.3 KW 4.8 KVAR 7.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 313 PP8K DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 14.06$ ========================= PU BUS VOLTAGE: 0.859 ANGLE: -36.3 DEGREES NET BRANCH DIVERSITY LOAD: 6.3 KW 4.8 KVAR LOAD FROM: 312 TAP CBL-0168 FEEDER AMPS: 25.5 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 6.3 KW 4.8 KVAR 7.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 314 PP7K DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 14.05$ ========================= PU BUS VOLTAGE: 0.860 ANGLE: -36.3 DEGREES NET BRANCH DIVERSITY LOAD: 8.6 KW 6.5 KVAR LOAD FROM: 312 TAP CBL-0169 FEEDER AMPS: 34.9 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 8.6 KW 6.5 KVAR 10.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 320 AC SWBD DESIGN VOLTS: 480 BUS VOLTS: 422 %VD: 12.09$ ========================= PU BUS VOLTAGE: 0.879 ANGLE: -35.5 DEGREES LOAD FROM: 022 SWITCH B2 T-1-5 TRANSF AMPS:1741.5 VOLTAGE DROP: 19. %VD: 3.96$ PROJECTED POWER FLOW: 1022.1 KW 758.7 KVAR 1272.9 KVA PF:0.80 LAGGING LOSSES THRU TRANSF: 12.0 KW 78.2 KVAR 79.1 KVA LOAD TO: 321 LPGE CBL-0227 FEEDER AMPS: 184.5 VOLTAGE DROP: 2. %VD: 0.40 PROJECTED POWER FLOW: 108.2 KW 80.5 KVAR 134.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.4 KVAR 0.6 KVA LOAD TO: 324 MCC IN AC ROOM CBL-0230 FEEDER AMPS:1418.9 VOLTAGE DROP: 1. %VD: 0.10 PROJECTED POWER FLOW: 833.1 KW 617.7 KVAR 1037.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.1 KW 0.6 KVAR 1.2 KVA LOAD TO: 323 HP-9M CBL-0477 FEEDER AMPS: 138.1 VOLTAGE DROP: 5. %VD: 1.06 PROJECTED POWER FLOW: 80.8 KW 60.6 KVAR 101.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.0 KW 0.7 KVAR 1.2 KVA ==== BUS: 321 LPGE DESIGN VOLTS: 480 BUS VOLTS: 420 %VD: 12.49$ ========================= PU BUS VOLTAGE: 0.875 ANGLE: -35.5 DEGREES NET BRANCH DIVERSITY LOAD: 53.2 KW 39.9 KVAR LOAD FROM: 320 AC SWBD CBL-0227 FEEDER AMPS: 184.5 VOLTAGE DROP: 2. %VD: 0.40 PROJECTED POWER FLOW: 107.7 KW 80.1 KVAR 134.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.4 KVAR 0.6 KVA LOAD TO: 322 LP-8E CBL-0229 FEEDER AMPS: 93.0 VOLTAGE DROP: 8. %VD: 1.58 PROJECTED POWER FLOW: 54.5 KW 40.2 KVAR 67.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.3 KW 0.3 KVAR 1.3 KVA ==== BUS: 322 LP-8E DESIGN VOLTS: 480 BUS VOLTS: 412 %VD: 14.06$ ========================= PU BUS VOLTAGE: 0.859 ANGLE: -35.1 DEGREES NET BRANCH DIVERSITY LOAD: 53.2 KW 39.9 KVAR LOAD FROM: 321 LPGE CBL-0229 FEEDER AMPS: 93.0 VOLTAGE DROP: 8. %VD: 1.58 PROJECTED POWER FLOW: 53.2 KW 39.9 KVAR 66.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.3 KW 0.3 KVAR 1.3 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 323 HP-9M DESIGN VOLTS: 480 BUS VOLTS: 417 %VD: 13.15$ ========================= PU BUS VOLTAGE: 0.869 ANGLE: -35.5 DEGREES NET BRANCH DIVERSITY LOAD: 79.8 KW 59.9 KVAR LOAD FROM: 320 AC SWBD CBL-0477 FEEDER AMPS: 138.1 VOLTAGE DROP: 5. %VD: 1.06 PROJECTED POWER FLOW: 79.8 KW 59.9 KVAR 99.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.0 KW 0.7 KVAR 1.2 KVA ==== BUS: 324 MCC IN AC ROOM DESIGN VOLTS: 480 BUS VOLTS: 421 %VD: 12.19$ ========================= PU BUS VOLTAGE: 0.878 ANGLE: -35.5 DEGREES NET BRANCH DIVERSITY LOAD: 832.0 KW 617.1 KVAR LOAD FROM: 320 AC SWBD CBL-0230 FEEDER AMPS:1418.9 VOLTAGE DROP: 1. %VD: 0.10 PROJECTED POWER FLOW: 832.0 KW 617.1 KVAR 1035.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.1 KW 0.6 KVAR 1.2 KVA ==== BUS: 330 XFMR T-1-4 SEC DESIGN VOLTS: 208 BUS VOLTS: 176 %VD: 15.53$ ========================= PU BUS VOLTAGE: 0.845 ANGLE: -35.2 DEGREES LOAD FROM: 023 XFMR T-1-4 PRI T-1-4 TRANSF AMPS: 937.4 VOLTAGE DROP: 15. %VD: 7.44$ PROJECTED POWER FLOW: 227.5 KW 172.1 KVAR 285.3 KVA PF:0.80 LAGGING LOSSES THRU TRANSF: 4.0 KW 16.6 KVAR 17.1 KVA LOAD TO: 331 DIETETICS ECB CBL-0420 FEEDER AMPS: 937.4 VOLTAGE DROP: 2. %VD: 1.16 PROJECTED POWER FLOW: 227.5 KW 172.1 KVAR 285.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 2.3 KW 3.5 KVAR 4.2 KVA ==== BUS: 331 DIETETICS ECB DESIGN VOLTS: 208 BUS VOLTS: 173 %VD: 16.69$ ========================= PU BUS VOLTAGE: 0.833 ANGLE: -35.5 DEGREES LOAD FROM: 330 XFMR T-1-4 SEC CBL-0420 FEEDER AMPS: 937.4 VOLTAGE DROP: 2. %VD: 1.16 PROJECTED POWER FLOW: 225.3 KW 168.6 KVAR 281.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 2.3 KW 3.5 KVAR 4.2 KVA LOAD TO: 332 KDP CBL-0437 FEEDER AMPS: 937.4 VOLTAGE DROP: 0. %VD: 0.13 PROJECTED POWER FLOW: 225.3 KW 168.6 KVAR 281.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.4 KVAR 0.5 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 332 KDP DESIGN VOLTS: 208 BUS VOLTS: 173 %VD: 16.82$ ========================= PU BUS VOLTAGE: 0.832 ANGLE: -35.6 DEGREES LOAD FROM: 331 DIETETICS ECB CBL-0437 FEEDER AMPS: 937.4 VOLTAGE DROP: 0. %VD: 0.13 PROJECTED POWER FLOW: 225.0 KW 168.2 KVAR 280.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.4 KVAR 0.5 KVA LOAD TO: 336 KLP CBL-0441 FEEDER AMPS: 113.9 VOLTAGE DROP: 1. %VD: 0.72 PROJECTED POWER FLOW: 27.4 KW 20.4 KVAR 34.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.1 KVAR 0.3 KVA LOAD TO: 337 UTIL DIST CBL-0442 FEEDER AMPS: 114.2 VOLTAGE DROP: 2. %VD: 0.93 PROJECTED POWER FLOW: 27.5 KW 20.5 KVAR 34.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.4 KW 0.1 KVAR 0.4 KVA LOAD TO: 333 FOOD TRAY CBL-0438 FEEDER AMPS: 114.5 VOLTAGE DROP: 2. %VD: 1.14 PROJECTED POWER FLOW: 27.5 KW 20.5 KVAR 34.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.2 KVAR 0.5 KVA LOAD TO: 334 KPA CBL-0439 FEEDER AMPS: 114.1 VOLTAGE DROP: 2. %VD: 0.81 PROJECTED POWER FLOW: 27.4 KW 20.5 KVAR 34.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.2 KVAR 0.3 KVA LOAD TO: 335 KPD CBL-0440 FEEDER AMPS: 172.0 VOLTAGE DROP: 3. %VD: 1.22 PROJECTED POWER FLOW: 41.3 KW 30.9 KVAR 51.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.7 KW 0.4 KVAR 0.8 KVA LOAD TO: 338 PP CBL-0443 FEEDER AMPS: 152.1 VOLTAGE DROP: 1. %VD: 0.39 PROJECTED POWER FLOW: 36.5 KW 27.3 KVAR 45.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.1 KVAR 0.2 KVA LOAD TO: BUS-0553 CBL-0520 FEEDER AMPS: 156.2 VOLTAGE DROP: 1. %VD: 0.35 PROJECTED POWER FLOW: 37.5 KW 28.1 KVAR 46.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.1 KVAR 0.2 KVA ==== BUS: 333 FOOD TRAY DESIGN VOLTS: 208 BUS VOLTS: 171 %VD: 17.96$ ========================= PU BUS VOLTAGE: 0.820 ANGLE: -35.3 DEGREES NET BRANCH DIVERSITY LOAD: 27.1 KW 20.3 KVAR LOAD FROM: 332 KDP CBL-0438 FEEDER AMPS: 114.5 VOLTAGE DROP: 2. %VD: 1.14 PROJECTED POWER FLOW: 27.1 KW 20.3 KVAR 33.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.2 KVAR 0.5 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 334 KPA DESIGN VOLTS: 208 BUS VOLTS: 171 %VD: 17.63$ ========================= PU BUS VOLTAGE: 0.824 ANGLE: -35.5 DEGREES NET BRANCH DIVERSITY LOAD: 27.1 KW 20.3 KVAR LOAD FROM: 332 KDP CBL-0439 FEEDER AMPS: 114.1 VOLTAGE DROP: 2. %VD: 0.81 PROJECTED POWER FLOW: 27.1 KW 20.3 KVAR 33.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.2 KVAR 0.3 KVA ==== BUS: 335 KPD DESIGN VOLTS: 208 BUS VOLTS: 170 %VD: 18.04$ ========================= PU BUS VOLTAGE: 0.820 ANGLE: -35.5 DEGREES NET BRANCH DIVERSITY LOAD: 40.6 KW 30.5 KVAR LOAD FROM: 332 KDP CBL-0440 FEEDER AMPS: 172.0 VOLTAGE DROP: 3. %VD: 1.22 PROJECTED POWER FLOW: 40.6 KW 30.5 KVAR 50.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.7 KW 0.4 KVAR 0.8 KVA ==== BUS: 336 KLP DESIGN VOLTS: 208 BUS VOLTS: 172 %VD: 17.54$ ========================= PU BUS VOLTAGE: 0.825 ANGLE: -35.4 DEGREES NET BRANCH DIVERSITY LOAD: 27.1 KW 20.3 KVAR LOAD FROM: 332 KDP CBL-0441 FEEDER AMPS: 113.9 VOLTAGE DROP: 1. %VD: 0.72 PROJECTED POWER FLOW: 27.1 KW 20.3 KVAR 33.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.1 KVAR 0.3 KVA ==== BUS: 337 UTIL DIST DESIGN VOLTS: 208 BUS VOLTS: 171 %VD: 17.75$ ========================= PU BUS VOLTAGE: 0.823 ANGLE: -35.4 DEGREES NET BRANCH DIVERSITY LOAD: 27.1 KW 20.3 KVAR LOAD FROM: 332 KDP CBL-0442 FEEDER AMPS: 114.2 VOLTAGE DROP: 2. %VD: 0.93 PROJECTED POWER FLOW: 27.1 KW 20.3 KVAR 33.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.4 KW 0.1 KVAR 0.4 KVA ==== BUS: 338 PP DESIGN VOLTS: 208 BUS VOLTS: 172 %VD: 17.21$ ========================= PU BUS VOLTAGE: 0.828 ANGLE: -35.5 DEGREES NET BRANCH DIVERSITY LOAD: 36.3 KW 27.2 KVAR LOAD FROM: 332 KDP CBL-0443 FEEDER AMPS: 152.1 VOLTAGE DROP: 1. %VD: 0.39 PROJECTED POWER FLOW: 36.3 KW 27.2 KVAR 45.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.1 KVAR 0.2 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 340 XRAY SUBSTATION DESIGN VOLTS: 480 BUS VOLTS: 411 %VD: 14.46$ ========================= PU BUS VOLTAGE: 0.855 ANGLE: -35.9 DEGREES LOAD FROM: 020 SWITCH A1 T-1-3 TRANSF AMPS: 955.8 VOLTAGE DROP: 31. %VD: 6.37$ PROJECTED POWER FLOW: 541.8 KW 410.4 KVAR 679.7 KVA PF:0.80 LAGGING LOSSES THRU TRANSF: 9.8 KW 51.5 KVAR 52.5 KVA LOAD TO: 341 PANEL A CBL-0433 FEEDER AMPS: 955.8 VOLTAGE DROP: 9. %VD: 1.84 PROJECTED POWER FLOW: 541.8 KW 410.4 KVAR 679.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 9.8 KW 11.4 KVAR 15.0 KVA ==== BUS: 341 PANEL A DESIGN VOLTS: 480 BUS VOLTS: 402 %VD: 16.31$ ========================= PU BUS VOLTAGE: 0.837 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 532.1 KW 399.1 KVAR LOAD FROM: 340 XRAY SUBSTATION CBL-0433 FEEDER AMPS: 955.8 VOLTAGE DROP: 9. %VD: 1.84 PROJECTED POWER FLOW: 532.1 KW 399.1 KVAR 665.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 9.8 KW 11.4 KVAR 15.0 KVA ==== BUS: 402 MAIN BRKR DESIGN VOLTS: 208 BUS VOLTS: 208 %VD: 0.00 ========================= PU BUS VOLTAGE: 1.000 ANGLE: 0.0 DEGREES **** NO LOAD SPECIFIED **** ==== BUS: 403 CRITICAL BRKR DESIGN VOLTS: 208 BUS VOLTS: 208 %VD: 0.00 ========================= PU BUS VOLTAGE: 1.000 ANGLE: 0.0 DEGREES **** NO LOAD SPECIFIED **** ==== BUS: 404 BLDG18 CRITICAL EMERGENCY DESIGN VOLTS: 208 BUS VOLTS: 208 %VD: 0.00 ========================= PU BUS VOLTAGE: 1.000 ANGLE: 0.0 DEGREES **** NO LOAD SPECIFIED **** ==== BUS: 410 DPE BRKR DESIGN VOLTS: 208 BUS VOLTS: 208 %VD: 0.00 ========================= PU BUS VOLTAGE: 1.000 ANGLE: 0.0 DEGREES **** NO LOAD SPECIFIED ****

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 411 DPE DESIGN VOLTS: 208 BUS VOLTS: 208 %VD: 0.00 ========================= PU BUS VOLTAGE: 1.000 ANGLE: 0.0 DEGREES **** NO LOAD SPECIFIED **** ==== BUS: 417 ATS 7_L DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.66$ ========================= PU BUS VOLTAGE: 0.863 ANGLE: -36.4 DEGREES LOAD TO: 418 EDP1 CBL-0266 FEEDER AMPS: 441.1 VOLTAGE DROP: 0. %VD: 0.07 PROJECTED POWER FLOW: 109.8 KW 82.3 KVAR 137.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.1 KVA LOAD FROM: 244 ATS 7_N ATS 7 FEEDER AMPS: 441.1 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 109.8 KW 82.3 KVAR 137.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 418 EDP1 DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.73$ ========================= PU BUS VOLTAGE: 0.863 ANGLE: -36.4 DEGREES LOAD FROM: 417 ATS 7_L CBL-0266 FEEDER AMPS: 441.1 VOLTAGE DROP: 0. %VD: 0.07 PROJECTED POWER FLOW: 109.7 KW 82.2 KVAR 137.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.1 KVA LOAD TO: 425 PL3N CBL-0270 FEEDER AMPS: 20.4 VOLTAGE DROP: 1. %VD: 0.55 PROJECTED POWER FLOW: 5.1 KW 3.8 KVAR 6.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 427 PL4N CBL-0272 FEEDER AMPS: 20.4 VOLTAGE DROP: 1. %VD: 0.58 PROJECTED POWER FLOW: 5.1 KW 3.8 KVAR 6.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 420 PL5N CBL-0273 FEEDER AMPS: 20.4 VOLTAGE DROP: 1. %VD: 0.61 PROJECTED POWER FLOW: 5.1 KW 3.8 KVAR 6.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 422 PL6N CBL-0276 FEEDER AMPS: 20.4 VOLTAGE DROP: 1. %VD: 0.64 PROJECTED POWER FLOW: 5.1 KW 3.8 KVAR 6.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.1 KVA LOAD TO: 424 PL7N CBL-0278 FEEDER AMPS: 20.4 VOLTAGE DROP: 1. %VD: 0.68 PROJECTED POWER FLOW: 5.1 KW 3.8 KVAR 6.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 426 PL8N CBL-0280 FEEDER AMPS: 20.4 VOLTAGE DROP: 1. %VD: 0.71 PROJECTED POWER FLOW: 5.1 KW 3.8 KVAR 6.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD TO: 419 PLGN CBL-0269 FEEDER AMPS: 20.3 VOLTAGE DROP: 1. %VD: 0.45 PROJECTED POWER FLOW: 5.1 KW 3.8 KVAR 6.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 429 E2-4W SEC#1 CBL-0411 FEEDER AMPS: 51.4 VOLTAGE DROP: 2. %VD: 0.75 PROJECTED POWER FLOW: 12.8 KW 9.6 KVAR 16.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.1 KVA LOAD TO: 421 PL1N CBL-0422 FEEDER AMPS: 20.3 VOLTAGE DROP: 1. %VD: 0.48 PROJECTED POWER FLOW: 5.1 KW 3.8 KVAR 6.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 428 EC3 CBL-0424 FEEDER AMPS: 117.7 VOLTAGE DROP: 3. %VD: 1.33 PROJECTED POWER FLOW: 29.2 KW 22.0 KVAR 36.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.4 KW 0.4 KVAR 0.6 KVA LOAD TO: 423 PL2N CBL-0423 FEEDER AMPS: 20.4 VOLTAGE DROP: 1. %VD: 0.52 PROJECTED POWER FLOW: 5.1 KW 3.8 KVAR 6.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 430 CB3W CBL-0426 FEEDER AMPS: 88.2 VOLTAGE DROP: 3. %VD: 1.24 PROJECTED POWER FLOW: 21.9 KW 16.5 KVAR 27.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.3 KVAR 0.4 KVA ==== BUS: 419 PLGN DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 14.18$ ========================= PU BUS VOLTAGE: 0.858 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 5.0 KW 3.8 KVAR LOAD FROM: 418 EDP1 CBL-0269 FEEDER AMPS: 20.3 VOLTAGE DROP: 1. %VD: 0.45 PROJECTED POWER FLOW: 5.0 KW 3.8 KVAR 6.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 420 PL5N DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.34$ ========================= PU BUS VOLTAGE: 0.857 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 5.0 KW 3.8 KVAR LOAD FROM: 418 EDP1 CBL-0273 FEEDER AMPS: 20.4 VOLTAGE DROP: 1. %VD: 0.61 PROJECTED POWER FLOW: 5.0 KW 3.8 KVAR 6.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 421 PL1N DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.21$ ========================= PU BUS VOLTAGE: 0.858 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 5.0 KW 3.8 KVAR LOAD FROM: 418 EDP1 CBL-0422 FEEDER AMPS: 20.3 VOLTAGE DROP: 1. %VD: 0.48 PROJECTED POWER FLOW: 5.0 KW 3.8 KVAR 6.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 422 PL6N DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.37$ ========================= PU BUS VOLTAGE: 0.856 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 5.0 KW 3.8 KVAR LOAD FROM: 418 EDP1 CBL-0276 FEEDER AMPS: 20.4 VOLTAGE DROP: 1. %VD: 0.64 PROJECTED POWER FLOW: 5.0 KW 3.8 KVAR 6.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.1 KVA ==== BUS: 423 PL2N DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.24$ ========================= PU BUS VOLTAGE: 0.858 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 5.0 KW 3.8 KVAR LOAD FROM: 418 EDP1 CBL-0423 FEEDER AMPS: 20.4 VOLTAGE DROP: 1. %VD: 0.52 PROJECTED POWER FLOW: 5.0 KW 3.8 KVAR 6.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 424 PL7N DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.41$ ========================= PU BUS VOLTAGE: 0.856 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 5.0 KW 3.8 KVAR LOAD FROM: 418 EDP1 CBL-0278 FEEDER AMPS: 20.4 VOLTAGE DROP: 1. %VD: 0.68 PROJECTED POWER FLOW: 5.0 KW 3.8 KVAR 6.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 425 PL3N DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.28$ ========================= PU BUS VOLTAGE: 0.857 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 5.0 KW 3.8 KVAR LOAD FROM: 418 EDP1 CBL-0270 FEEDER AMPS: 20.4 VOLTAGE DROP: 1. %VD: 0.55 PROJECTED POWER FLOW: 5.0 KW 3.8 KVAR 6.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 426 PL8N DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.44$ ========================= PU BUS VOLTAGE: 0.856 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 5.0 KW 3.8 KVAR LOAD FROM: 418 EDP1 CBL-0280 FEEDER AMPS: 20.4 VOLTAGE DROP: 1. %VD: 0.71 PROJECTED POWER FLOW: 5.0 KW 3.8 KVAR 6.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA ==== BUS: 427 PL4N DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.31$ ========================= PU BUS VOLTAGE: 0.857 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 5.0 KW 3.8 KVAR LOAD FROM: 418 EDP1 CBL-0272 FEEDER AMPS: 20.4 VOLTAGE DROP: 1. %VD: 0.58 PROJECTED POWER FLOW: 5.0 KW 3.8 KVAR 6.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 428 EC3 DESIGN VOLTS: 208 BUS VOLTS: 177 %VD: 15.06$ ========================= PU BUS VOLTAGE: 0.849 ANGLE: -36.5 DEGREES NET BRANCH DIVERSITY LOAD: 28.8 KW 21.6 KVAR LOAD FROM: 418 EDP1 CBL-0424 FEEDER AMPS: 117.7 VOLTAGE DROP: 3. %VD: 1.33 PROJECTED POWER FLOW: 28.8 KW 21.6 KVAR 36.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.4 KW 0.4 KVAR 0.6 KVA ==== BUS: 429 E2-4W SEC#1 DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.48$ ========================= PU BUS VOLTAGE: 0.855 ANGLE: -36.4 DEGREES NET BRANCH DIVERSITY LOAD: 12.7 KW 9.5 KVAR LOAD FROM: 418 EDP1 CBL-0411 FEEDER AMPS: 51.4 VOLTAGE DROP: 2. %VD: 0.75 PROJECTED POWER FLOW: 12.7 KW 9.5 KVAR 15.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.1 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 430 CB3W DESIGN VOLTS: 208 BUS VOLTS: 177 %VD: 14.97$ ========================= PU BUS VOLTAGE: 0.850 ANGLE: -36.4 DEGREES NET BRANCH DIVERSITY LOAD: 14.4 KW 10.8 KVAR LOAD FROM: 418 EDP1 CBL-0426 FEEDER AMPS: 88.2 VOLTAGE DROP: 3. %VD: 1.24 PROJECTED POWER FLOW: 21.6 KW 16.2 KVAR 27.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.3 KVAR 0.4 KVA LOAD TO: 431 CBME CBL-0427 FEEDER AMPS: 29.4 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 431 CBME DESIGN VOLTS: 208 BUS VOLTS: 177 %VD: 14.99$ ========================= PU BUS VOLTAGE: 0.850 ANGLE: -36.4 DEGREES NET BRANCH DIVERSITY LOAD: 7.2 KW 5.4 KVAR LOAD FROM: 430 CB3W CBL-0427 FEEDER AMPS: 29.4 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 7.2 KW 5.4 KVAR 9.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 432 ATS 9_L DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.36$ ========================= PU BUS VOLTAGE: 0.866 ANGLE: -36.3 DEGREES LOAD TO: 433 LP9C CBL-0301 FEEDER AMPS: 43.9 VOLTAGE DROP: 3. %VD: 1.26 PROJECTED POWER FLOW: 11.0 KW 8.2 KVAR 13.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.1 KVAR 0.2 KVA LOAD FROM: 245 ATS 9_N ATS 9 FEEDER AMPS: 43.9 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 11.0 KW 8.2 KVAR 13.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 433 LP9C DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.62$ ========================= PU BUS VOLTAGE: 0.854 ANGLE: -35.9 DEGREES NET BRANCH DIVERSITY LOAD: 10.8 KW 8.1 KVAR LOAD FROM: 432 ATS 9_L CBL-0301 FEEDER AMPS: 43.9 VOLTAGE DROP: 3. %VD: 1.26 PROJECTED POWER FLOW: 10.8 KW 8.1 KVAR 13.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.1 KVAR 0.2 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 434 ATS 8_L DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.50$ ========================= PU BUS VOLTAGE: 0.865 ANGLE: -36.3 DEGREES LOAD TO: 435 EDP CBL-0282 FEEDER AMPS: 104.4 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 26.1 KW 19.5 KVAR 32.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD FROM: 246 ATS 8_N ATS 8 FEEDER AMPS: 104.4 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 26.1 KW 19.5 KVAR 32.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 435 EDP DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.52$ ========================= PU BUS VOLTAGE: 0.865 ANGLE: -36.3 DEGREES LOAD FROM: 434 ATS 8_L CBL-0282 FEEDER AMPS: 104.4 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 26.1 KW 19.5 KVAR 32.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 436 LPGN-N CBL-0283 FEEDER AMPS: 11.5 VOLTAGE DROP: 1. %VD: 0.26 PROJECTED POWER FLOW: 2.9 KW 2.2 KVAR 3.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 437 LP1N-N CBL-0286 FEEDER AMPS: 11.6 VOLTAGE DROP: 1. %VD: 0.28 PROJECTED POWER FLOW: 2.9 KW 2.2 KVAR 3.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 438 LP2N-N CBL-0287 FEEDER AMPS: 11.6 VOLTAGE DROP: 1. %VD: 0.29 PROJECTED POWER FLOW: 2.9 KW 2.2 KVAR 3.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 439 LP3N-N CBL-0290 FEEDER AMPS: 11.6 VOLTAGE DROP: 1. %VD: 0.31 PROJECTED POWER FLOW: 2.9 KW 2.2 KVAR 3.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 440 LP4N-N CBL-0291 FEEDER AMPS: 11.6 VOLTAGE DROP: 1. %VD: 0.33 PROJECTED POWER FLOW: 2.9 KW 2.2 KVAR 3.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 441 LP5N-N CBL-0294 FEEDER AMPS: 11.6 VOLTAGE DROP: 1. %VD: 0.35 PROJECTED POWER FLOW: 2.9 KW 2.2 KVAR 3.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 442 LP6N-N CBL-0295 FEEDER AMPS: 11.6 VOLTAGE DROP: 1. %VD: 0.37 PROJECTED POWER FLOW: 2.9 KW 2.2 KVAR 3.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 443 LP7N-N CBL-0298 FEEDER AMPS: 11.6 VOLTAGE DROP: 1. %VD: 0.38 PROJECTED POWER FLOW: 2.9 KW 2.2 KVAR 3.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 444 LP8N-N CBL-0299 FEEDER AMPS: 11.6 VOLTAGE DROP: 1. %VD: 0.40 PROJECTED POWER FLOW: 2.9 KW 2.2 KVAR 3.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 436 LPGN-N DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.78$ ========================= PU BUS VOLTAGE: 0.862 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 2.9 KW 2.2 KVAR LOAD FROM: 435 EDP CBL-0283 FEEDER AMPS: 11.5 VOLTAGE DROP: 1. %VD: 0.26 PROJECTED POWER FLOW: 2.9 KW 2.2 KVAR 3.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 437 LP1N-N DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.80$ ========================= PU BUS VOLTAGE: 0.862 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 2.9 KW 2.2 KVAR LOAD FROM: 435 EDP CBL-0286 FEEDER AMPS: 11.6 VOLTAGE DROP: 1. %VD: 0.28 PROJECTED POWER FLOW: 2.9 KW 2.2 KVAR 3.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 438 LP2N-N DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.82$ ========================= PU BUS VOLTAGE: 0.862 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 2.9 KW 2.2 KVAR LOAD FROM: 435 EDP CBL-0287 FEEDER AMPS: 11.6 VOLTAGE DROP: 1. %VD: 0.29 PROJECTED POWER FLOW: 2.9 KW 2.2 KVAR 3.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 439 LP3N-N DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.84$ ========================= PU BUS VOLTAGE: 0.862 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 2.9 KW 2.2 KVAR LOAD FROM: 435 EDP CBL-0290 FEEDER AMPS: 11.6 VOLTAGE DROP: 1. %VD: 0.31 PROJECTED POWER FLOW: 2.9 KW 2.2 KVAR 3.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 440 LP4N-N DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.85$ ========================= PU BUS VOLTAGE: 0.861 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 2.9 KW 2.2 KVAR LOAD FROM: 435 EDP CBL-0291 FEEDER AMPS: 11.6 VOLTAGE DROP: 1. %VD: 0.33 PROJECTED POWER FLOW: 2.9 KW 2.2 KVAR 3.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 441 LP5N-N DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.87$ ========================= PU BUS VOLTAGE: 0.861 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 2.9 KW 2.2 KVAR LOAD FROM: 435 EDP CBL-0294 FEEDER AMPS: 11.6 VOLTAGE DROP: 1. %VD: 0.35 PROJECTED POWER FLOW: 2.9 KW 2.2 KVAR 3.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 442 LP6N-N DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.89$ ========================= PU BUS VOLTAGE: 0.861 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 2.9 KW 2.2 KVAR LOAD FROM: 435 EDP CBL-0295 FEEDER AMPS: 11.6 VOLTAGE DROP: 1. %VD: 0.37 PROJECTED POWER FLOW: 2.9 KW 2.2 KVAR 3.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 443 LP7N-N DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.91$ ========================= PU BUS VOLTAGE: 0.861 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 2.9 KW 2.2 KVAR LOAD FROM: 435 EDP CBL-0298 FEEDER AMPS: 11.6 VOLTAGE DROP: 1. %VD: 0.38 PROJECTED POWER FLOW: 2.9 KW 2.2 KVAR 3.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 444 LP8N-N DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.93$ ========================= PU BUS VOLTAGE: 0.861 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 2.9 KW 2.2 KVAR LOAD FROM: 435 EDP CBL-0299 FEEDER AMPS: 11.6 VOLTAGE DROP: 1. %VD: 0.40 PROJECTED POWER FLOW: 2.9 KW 2.2 KVAR 3.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 445 ATS 10_L DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.27$ ========================= PU BUS VOLTAGE: 0.867 ANGLE: -36.3 DEGREES LOAD FROM: 247 ATS 10_N ATS 10 EE3 IN ICU FEEDER AMPS: 65.3 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 16.3 KW 12.3 KVAR 20.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 446 EE3 CBL-0476 FEEDER AMPS: 65.3 VOLTAGE DROP: 1. %VD: 0.69 PROJECTED POWER FLOW: 16.3 KW 12.3 KVAR 20.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.2 KVA ==== BUS: 446 EE3 DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.96$ ========================= PU BUS VOLTAGE: 0.860 ANGLE: -36.3 DEGREES NET BRANCH DIVERSITY LOAD: 16.2 KW 12.2 KVAR LOAD FROM: 445 ATS 10_L CBL-0476 FEEDER AMPS: 65.3 VOLTAGE DROP: 1. %VD: 0.69 PROJECTED POWER FLOW: 16.2 KW 12.2 KVAR 20.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.2 KVA ==== BUS: 450 XFMR T-13A SEC DESIGN VOLTS: 208 BUS VOLTS: 184 %VD: 11.31$ ========================= PU BUS VOLTAGE: 0.887 ANGLE: -34.8 DEGREES LOAD FROM: 003 XFMR T-13A PRI T-13A TRANSF AMPS: 672.2 VOLTAGE DROP: 7. %VD: 3.40$ PROJECTED POWER FLOW: 171.8 KW 129.0 KVAR 214.8 KVA PF:0.80 LAGGING LOSSES THRU TRANSF: 2.6 KW 10.1 KVAR 10.4 KVA LOAD TO: 451 BUG CBL-0322 FEEDER AMPS: 672.2 VOLTAGE DROP: 1. %VD: 0.41 PROJECTED POWER FLOW: 171.8 KW 129.0 KVAR 214.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.6 KW 0.9 KVAR 1.1 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 451 BUG DESIGN VOLTS: 208 BUS VOLTS: 184 %VD: 11.72$ ========================= PU BUS VOLTAGE: 0.883 ANGLE: -34.9 DEGREES LOAD TO: 453 UNMARKED PANEL CBL-0460 FEEDER AMPS: 641.6 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 163.4 KW 122.3 KVAR 204.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 452 EMG PANEL CBL-0461 FEEDER AMPS: 30.5 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 7.8 KW 5.8 KVAR 9.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD FROM: 450 XFMR T-13A SEC CBL-0322 FEEDER AMPS: 672.2 VOLTAGE DROP: 1. %VD: 0.41 PROJECTED POWER FLOW: 171.2 KW 128.1 KVAR 213.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.6 KW 0.9 KVAR 1.1 KVA ==== BUS: 452 EMG PANEL DESIGN VOLTS: 208 BUS VOLTS: 184 %VD: 11.75$ ========================= PU BUS VOLTAGE: 0.882 ANGLE: -34.9 DEGREES NET BRANCH DIVERSITY LOAD: 7.8 KW 5.8 KVAR LOAD FROM: 451 BUG CBL-0461 FEEDER AMPS: 30.5 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 7.8 KW 5.8 KVAR 9.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 453 UNMARKED PANEL DESIGN VOLTS: 208 BUS VOLTS: 184 %VD: 11.72$ ========================= PU BUS VOLTAGE: 0.883 ANGLE: -34.9 DEGREES LOAD TO: 454 POWER PANEL CBL-0318 FEEDER AMPS: 122.3 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 31.1 KW 23.4 KVAR 38.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 456 LP-1 CBL-0319 FEEDER AMPS: 91.8 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 23.4 KW 17.5 KVAR 29.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 457 PNL A (LP-2) CBL-0320 FEEDER AMPS: 93.8 VOLTAGE DROP: 4. %VD: 1.96 PROJECTED POWER FLOW: 24.0 KW 17.7 KVAR 29.8 KVA PF:0.81 LAGGING LOSSES THRU FEEDER: 0.7 KW 0.2 KVAR 0.7 KVA LOAD TO: 459 PNL B (OL) CBL-0321 FEEDER AMPS: 31.7 VOLTAGE DROP: 1. %VD: 0.66 PROJECTED POWER FLOW: 8.1 KW 6.0 KVAR 10.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 458 NEW EQ CTR CBL-0324 FEEDER AMPS: 61.5 VOLTAGE DROP: 1. %VD: 0.48 PROJECTED POWER FLOW: 15.7 KW 11.7 KVAR 19.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD TO: 455 400A DISCONNECT CBL-0382 FEEDER AMPS: 240.4 VOLTAGE DROP: 4. %VD: 1.70 PROJECTED POWER FLOW: 61.1 KW 46.0 KVAR 76.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.1 KW 1.0 KVAR 1.5 KVA LOAD FROM: 451 BUG CBL-0460 FEEDER AMPS: 641.6 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 163.4 KW 122.3 KVAR 204.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 454 POWER PANEL DESIGN VOLTS: 208 BUS VOLTS: 184 %VD: 11.76$ ========================= PU BUS VOLTAGE: 0.882 ANGLE: -34.9 DEGREES NET BRANCH DIVERSITY LOAD: 31.1 KW 23.3 KVAR LOAD FROM: 453 UNMARKED PANEL CBL-0318 FEEDER AMPS: 122.3 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 31.1 KW 23.3 KVAR 38.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 455 400A DISCONNECT DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.42$ ========================= PU BUS VOLTAGE: 0.866 ANGLE: -35.0 DEGREES NET BRANCH DIVERSITY LOAD: 60.0 KW 45.0 KVAR LOAD FROM: 453 UNMARKED PANEL CBL-0382 FEEDER AMPS: 240.4 VOLTAGE DROP: 4. %VD: 1.70 PROJECTED POWER FLOW: 60.0 KW 45.0 KVAR 75.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.1 KW 1.0 KVAR 1.5 KVA ==== BUS: 456 LP-1 DESIGN VOLTS: 208 BUS VOLTS: 184 %VD: 11.77$ ========================= PU BUS VOLTAGE: 0.882 ANGLE: -34.9 DEGREES NET BRANCH DIVERSITY LOAD: 23.3 KW 17.5 KVAR LOAD FROM: 453 UNMARKED PANEL CBL-0319 FEEDER AMPS: 91.8 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 23.3 KW 17.5 KVAR 29.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 457 PNL A (LP-2) DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.68$ ========================= PU BUS VOLTAGE: 0.863 ANGLE: -34.4 DEGREES NET BRANCH DIVERSITY LOAD: 23.3 KW 17.5 KVAR LOAD FROM: 453 UNMARKED PANEL CBL-0320 FEEDER AMPS: 93.8 VOLTAGE DROP: 4. %VD: 1.96 PROJECTED POWER FLOW: 23.3 KW 17.5 KVAR 29.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.7 KW 0.2 KVAR 0.7 KVA ==== BUS: 458 NEW EQ CTR DESIGN VOLTS: 208 BUS VOLTS: 183 %VD: 12.20$ ========================= PU BUS VOLTAGE: 0.878 ANGLE: -34.8 DEGREES NET BRANCH DIVERSITY LOAD: 15.6 KW 11.7 KVAR LOAD FROM: 453 UNMARKED PANEL CBL-0324 FEEDER AMPS: 61.5 VOLTAGE DROP: 1. %VD: 0.48 PROJECTED POWER FLOW: 15.6 KW 11.7 KVAR 19.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA ==== BUS: 459 PNL B (OL) DESIGN VOLTS: 208 BUS VOLTS: 182 %VD: 12.38$ ========================= PU BUS VOLTAGE: 0.876 ANGLE: -34.7 DEGREES NET BRANCH DIVERSITY LOAD: 8.0 KW 6.0 KVAR LOAD FROM: 453 UNMARKED PANEL CBL-0321 FEEDER AMPS: 31.7 VOLTAGE DROP: 1. %VD: 0.66 PROJECTED POWER FLOW: 8.0 KW 6.0 KVAR 10.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA ==== BUS: 460 XFMR T-13B SEC DESIGN VOLTS: 208 BUS VOLTS: 187 %VD: 10.00$ ========================= PU BUS VOLTAGE: 0.900 ANGLE: -34.1 DEGREES LOAD FROM: 004 XFMR T-13B PRI T-13B TRANSF AMPS: 269.9 VOLTAGE DROP: 4. %VD: 2.10 PROJECTED POWER FLOW: 69.9 KW 52.7 KVAR 87.5 KVA PF:0.80 LAGGING LOSSES THRU TRANSF: 0.7 KW 2.4 KVAR 2.5 KVA LOAD TO: 461 NON-FUSED DISCONNECT CBL-0380 FEEDER AMPS: 269.9 VOLTAGE DROP: 1. %VD: 0.24 PROJECTED POWER FLOW: 69.9 KW 52.7 KVAR 87.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.2 KVAR 0.2 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 461 NON-FUSED DISCONNECT DESIGN VOLTS: 208 BUS VOLTS: 187 %VD: 10.25$ ========================= PU BUS VOLTAGE: 0.898 ANGLE: -34.1 DEGREES LOAD FROM: 460 XFMR T-13B SEC CBL-0380 FEEDER AMPS: 269.9 VOLTAGE DROP: 1. %VD: 0.24 PROJECTED POWER FLOW: 69.8 KW 52.5 KVAR 87.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.2 KVAR 0.2 KVA LOAD TO: 462 CP1 CBL-0381 FEEDER AMPS: 269.9 VOLTAGE DROP: 2. %VD: 0.86 PROJECTED POWER FLOW: 69.8 KW 52.5 KVAR 87.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.6 KW 0.6 KVAR 0.8 KVA ==== BUS: 462 CP1 DESIGN VOLTS: 208 BUS VOLTS: 185 %VD: 11.10$ ========================= PU BUS VOLTAGE: 0.889 ANGLE: -34.2 DEGREES NET BRANCH DIVERSITY LOAD: 69.2 KW 51.9 KVAR LOAD FROM: 461 NON-FUSED DISCONNECT CBL-0381 FEEDER AMPS: 269.9 VOLTAGE DROP: 2. %VD: 0.86 PROJECTED POWER FLOW: 69.2 KW 51.9 KVAR 86.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.6 KW 0.6 KVAR 0.8 KVA ==== BUS: 500 XFMR T-19B SEC DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.95$ ========================= PU BUS VOLTAGE: 0.860 ANGLE: -34.4 DEGREES LOAD FROM: 019 SWITCH B6 T-19B TRANSF AMPS: 704.1 VOLTAGE DROP: 12. %VD: 5.86$ PROJECTED POWER FLOW: 174.4 KW 131.2 KVAR 218.3 KVA PF:0.80 LAGGING LOSSES THRU TRANSF: 1.9 KW 7.5 KVAR 7.7 KVA LOAD TO: 502 CRITICAL SWBD BLDG #18 CBL-0038 FEEDER AMPS: 704.1 VOLTAGE DROP: 1. %VD: 0.53 PROJECTED POWER FLOW: 174.4 KW 131.2 KVAR 218.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.0 KW 1.0 KVAR 1.4 KVA ==== BUS: 501 XFMR T-19A SEC DESIGN VOLTS: 208 BUS VOLTS: 184 %VD: 11.56$ ========================= PU BUS VOLTAGE: 0.884 ANGLE: -33.1 DEGREES **** NO LOAD SPECIFIED ****

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 502 CRITICAL SWBD BLDG #18 DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.49$ ========================= PU BUS VOLTAGE: 0.855 ANGLE: -34.4 DEGREES LOAD FROM: 500 XFMR T-19B SEC CBL-0038 FEEDER AMPS: 704.1 VOLTAGE DROP: 1. %VD: 0.53 PROJECTED POWER FLOW: 173.5 KW 130.3 KVAR 216.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.0 KW 1.0 KVAR 1.4 KVA LOAD TO: 505 LP1 CBL-0255 FEEDER AMPS: 117.8 VOLTAGE DROP: 0. %VD: 0.22 PROJECTED POWER FLOW: 29.1 KW 21.8 KVAR 36.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD FROM: 504 ATS 3_N CBL-0262 FEEDER AMPS: 0.0 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 0.0 KW 0.0 KVAR 0.0 KVA PF:0.00 LEADING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 508 ATS 6_N CBL-0264 FEEDER AMPS: 80.5 VOLTAGE DROP: 0. %VD: 0.18 PROJECTED POWER FLOW: 20.0 KW 14.7 KVAR 24.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD TO: 503 ATS 1_N CBL-0383 FEEDER AMPS: 186.1 VOLTAGE DROP: 4. %VD: 1.74 PROJECTED POWER FLOW: 46.1 KW 34.1 KVAR 57.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.0 KW 0.6 KVAR 1.2 KVA LOAD TO: 507 ATS 2_N CBL-0399 FEEDER AMPS: 319.5 VOLTAGE DROP: 1. %VD: 0.28 PROJECTED POWER FLOW: 78.3 KW 59.7 KVAR 98.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.3 KVAR 0.3 KVA ==== BUS: 505 LP1 DESIGN VOLTS: 208 BUS VOLTS: 177 %VD: 14.71$ ========================= PU BUS VOLTAGE: 0.853 ANGLE: -34.4 DEGREES NET BRANCH DIVERSITY LOAD: 19.3 KW 14.5 KVAR LOAD FROM: 502 CRITICAL SWBD BLDG #18 CBL-0255 FEEDER AMPS: 117.8 VOLTAGE DROP: 0. %VD: 0.22 PROJECTED POWER FLOW: 29.0 KW 21.7 KVAR 36.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD TO: 506 ATS 4_N CBL-0402 FEEDER AMPS: 39.3 VOLTAGE DROP: 0. %VD: 0.06 PROJECTED POWER FLOW: 9.7 KW 7.2 KVAR 12.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 509 ATS 1_L DESIGN VOLTS: 208 BUS VOLTS: 174 %VD: 16.23$ ========================= PU BUS VOLTAGE: 0.838 ANGLE: -34.3 DEGREES LOAD TO: 510 EDP-E CBL-0302 FEEDER AMPS: 186.1 VOLTAGE DROP: 1. %VD: 0.36 PROJECTED POWER FLOW: 45.1 KW 33.5 KVAR 56.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.1 KVAR 0.3 KVA LOAD FROM: 503 ATS 1_N ATS 1 EDP-E FEEDER AMPS: 186.1 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 45.1 KW 33.5 KVAR 56.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 510 EDP-E DESIGN VOLTS: 208 BUS VOLTS: 173 %VD: 16.60$ ========================= PU BUS VOLTAGE: 0.834 ANGLE: -34.2 DEGREES LOAD FROM: 509 ATS 1_L CBL-0302 FEEDER AMPS: 186.1 VOLTAGE DROP: 1. %VD: 0.36 PROJECTED POWER FLOW: 44.9 KW 33.4 KVAR 55.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.1 KVAR 0.3 KVA LOAD TO: 511 EDPA CBL-0303 FEEDER AMPS: 47.9 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 11.5 KW 8.6 KVAR 14.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 512A TAP CBL-0304 FEEDER AMPS: 81.4 VOLTAGE DROP: 2. %VD: 1.06 PROJECTED POWER FLOW: 19.6 KW 14.6 KVAR 24.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.1 KVAR 0.3 KVA LOAD TO: 516A TAP CBL-0309 FEEDER AMPS: 56.7 VOLTAGE DROP: 3. %VD: 1.34 PROJECTED POWER FLOW: 13.7 KW 10.1 KVAR 17.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.1 KVAR 0.3 KVA ==== BUS: 511 EDPA DESIGN VOLTS: 208 BUS VOLTS: 173 %VD: 16.63$ ========================= PU BUS VOLTAGE: 0.834 ANGLE: -34.2 DEGREES NET BRANCH DIVERSITY LOAD: 11.5 KW 8.6 KVAR LOAD FROM: 510 EDP-E CBL-0303 FEEDER AMPS: 47.9 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 11.5 KW 8.6 KVAR 14.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 512 LP1N-0 DESIGN VOLTS: 208 BUS VOLTS: 171 %VD: 17.66$ ========================= PU BUS VOLTAGE: 0.823 ANGLE: -34.0 DEGREES NET BRANCH DIVERSITY LOAD: 4.8 KW 3.6 KVAR LOAD FROM: 512A TAP CBL-0505 FEEDER AMPS: 20.3 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 4.8 KW 3.6 KVAR 6.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 512A TAP DESIGN VOLTS: 208 BUS VOLTS: 171 %VD: 17.66$ ========================= PU BUS VOLTAGE: 0.823 ANGLE: -34.0 DEGREES LOAD FROM: 510 EDP-E CBL-0304 FEEDER AMPS: 81.4 VOLTAGE DROP: 2. %VD: 1.06 PROJECTED POWER FLOW: 19.3 KW 14.5 KVAR 24.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.1 KVAR 0.3 KVA LOAD TO: 512 LP1N-0 CBL-0505 FEEDER AMPS: 20.3 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 4.8 KW 3.6 KVAR 6.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 513 LPGN-0 CBL-0305 FEEDER AMPS: 20.3 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 4.8 KW 3.6 KVAR 6.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 514A TAP CBL-0306 FEEDER AMPS: 40.7 VOLTAGE DROP: 0. %VD: 0.04 PROJECTED POWER FLOW: 9.7 KW 7.2 KVAR 12.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 513 LPGN-0 DESIGN VOLTS: 208 BUS VOLTS: 171 %VD: 17.68$ ========================= PU BUS VOLTAGE: 0.823 ANGLE: -34.0 DEGREES NET BRANCH DIVERSITY LOAD: 4.8 KW 3.6 KVAR LOAD FROM: 512A TAP CBL-0305 FEEDER AMPS: 20.3 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 4.8 KW 3.6 KVAR 6.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 514 LP2N-0 DESIGN VOLTS: 208 BUS VOLTS: 171 %VD: 17.71$ ========================= PU BUS VOLTAGE: 0.823 ANGLE: -34.0 DEGREES NET BRANCH DIVERSITY LOAD: 4.8 KW 3.6 KVAR LOAD FROM: 514A TAP CBL-0506 FEEDER AMPS: 20.3 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 4.8 KW 3.6 KVAR 6.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 514A TAP DESIGN VOLTS: 208 BUS VOLTS: 171 %VD: 17.70$ ========================= PU BUS VOLTAGE: 0.823 ANGLE: -34.0 DEGREES LOAD TO: 514 LP2N-0 CBL-0506 FEEDER AMPS: 20.3 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 4.8 KW 3.6 KVAR 6.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 515 LP3N-0 CBL-0307 FEEDER AMPS: 20.3 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 4.8 KW 3.6 KVAR 6.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD FROM: 512A TAP CBL-0306 FEEDER AMPS: 40.7 VOLTAGE DROP: 0. %VD: 0.04 PROJECTED POWER FLOW: 9.7 KW 7.2 KVAR 12.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 515 LP3N-0 DESIGN VOLTS: 208 BUS VOLTS: 171 %VD: 17.73$ ========================= PU BUS VOLTAGE: 0.823 ANGLE: -34.0 DEGREES NET BRANCH DIVERSITY LOAD: 4.8 KW 3.6 KVAR LOAD FROM: 514A TAP CBL-0307 FEEDER AMPS: 20.3 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 4.8 KW 3.6 KVAR 6.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 516 LP4N-0 DESIGN VOLTS: 208 BUS VOLTS: 171 %VD: 17.94$ ========================= PU BUS VOLTAGE: 0.821 ANGLE: -33.8 DEGREES NET BRANCH DIVERSITY LOAD: 2.7 KW 2.0 KVAR LOAD FROM: 516A TAP CBL-0510 FEEDER AMPS: 11.3 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 2.7 KW 2.0 KVAR 3.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 516A TAP DESIGN VOLTS: 208 BUS VOLTS: 171 %VD: 17.93$ ========================= PU BUS VOLTAGE: 0.821 ANGLE: -33.8 DEGREES LOAD FROM: 510 EDP-E CBL-0309 FEEDER AMPS: 56.7 VOLTAGE DROP: 3. %VD: 1.34 PROJECTED POWER FLOW: 13.4 KW 10.1 KVAR 16.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.1 KVAR 0.3 KVA LOAD TO: 516 LP4N-0 CBL-0510 FEEDER AMPS: 11.3 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 2.7 KW 2.0 KVAR 3.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 517A TAP CBL-0310 FEEDER AMPS: 45.4 VOLTAGE DROP: 0. %VD: 0.07 PROJECTED POWER FLOW: 10.7 KW 8.0 KVAR 13.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 517 LP5N-0 DESIGN VOLTS: 208 BUS VOLTS: 171 %VD: 18.01$ ========================= PU BUS VOLTAGE: 0.820 ANGLE: -33.8 DEGREES NET BRANCH DIVERSITY LOAD: 2.7 KW 2.0 KVAR LOAD FROM: 517A TAP CBL-0509 FEEDER AMPS: 11.3 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 2.7 KW 2.0 KVAR 3.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 517A TAP DESIGN VOLTS: 208 BUS VOLTS: 171 %VD: 18.01$ ========================= PU BUS VOLTAGE: 0.820 ANGLE: -33.8 DEGREES LOAD TO: 517 LP5N-0 CBL-0509 FEEDER AMPS: 11.3 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 2.7 KW 2.0 KVAR 3.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 518A TAP CBL-0311 FEEDER AMPS: 34.0 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 8.1 KW 6.0 KVAR 10.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD FROM: 516A TAP CBL-0310 FEEDER AMPS: 45.4 VOLTAGE DROP: 0. %VD: 0.07 PROJECTED POWER FLOW: 10.7 KW 8.0 KVAR 13.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 518 LP6N-0 DESIGN VOLTS: 208 BUS VOLTS: 170 %VD: 18.06$ ========================= PU BUS VOLTAGE: 0.819 ANGLE: -33.8 DEGREES NET BRANCH DIVERSITY LOAD: 2.7 KW 2.0 KVAR LOAD FROM: 518A TAP CBL-0508 FEEDER AMPS: 11.3 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 2.7 KW 2.0 KVAR 3.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 518A TAP DESIGN VOLTS: 208 BUS VOLTS: 170 %VD: 18.06$ ========================= PU BUS VOLTAGE: 0.819 ANGLE: -33.8 DEGREES LOAD TO: 518 LP6N-0 CBL-0508 FEEDER AMPS: 11.3 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 2.7 KW 2.0 KVAR 3.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 519A TAP CBL-0312 FEEDER AMPS: 22.7 VOLTAGE DROP: 0. %VD: 0.04 PROJECTED POWER FLOW: 5.4 KW 4.0 KVAR 6.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD FROM: 517A TAP CBL-0311 FEEDER AMPS: 34.0 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 8.0 KW 6.0 KVAR 10.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 519 LP7N-0 DESIGN VOLTS: 208 BUS VOLTS: 170 %VD: 18.10$ ========================= PU BUS VOLTAGE: 0.819 ANGLE: -33.8 DEGREES NET BRANCH DIVERSITY LOAD: 2.7 KW 2.0 KVAR LOAD FROM: 519A TAP CBL-0507 FEEDER AMPS: 11.3 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 2.7 KW 2.0 KVAR 3.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 519A TAP DESIGN VOLTS: 208 BUS VOLTS: 170 %VD: 18.09$ ========================= PU BUS VOLTAGE: 0.819 ANGLE: -33.8 DEGREES LOAD TO: 519 LP7N-0 CBL-0507 FEEDER AMPS: 11.3 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 2.7 KW 2.0 KVAR 3.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 520 LP8N-0 CBL-0313 FEEDER AMPS: 11.3 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 2.7 KW 2.0 KVAR 3.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD FROM: 518A TAP CBL-0312 FEEDER AMPS: 22.7 VOLTAGE DROP: 0. %VD: 0.04 PROJECTED POWER FLOW: 5.4 KW 4.0 KVAR 6.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 520 LP8N-0 DESIGN VOLTS: 208 BUS VOLTS: 170 %VD: 18.11$ ========================= PU BUS VOLTAGE: 0.819 ANGLE: -33.8 DEGREES NET BRANCH DIVERSITY LOAD: 2.7 KW 2.0 KVAR LOAD FROM: 519A TAP CBL-0313 FEEDER AMPS: 11.3 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 2.7 KW 2.0 KVAR 3.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 521 ATS 3_L DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.49$ ========================= PU BUS VOLTAGE: 0.855 ANGLE: -34.4 DEGREES **** NO LOAD SPECIFIED **** ==== BUS: 522 ELE 4 ECB DESIGN VOLTS: 208 BUS VOLTS: 178 %VD: 14.49$ ========================= PU BUS VOLTAGE: 0.855 ANGLE: -34.4 DEGREES **** NO LOAD SPECIFIED **** ==== BUS: 523 ATS 4_L DESIGN VOLTS: 208 BUS VOLTS: 177 %VD: 14.77$ ========================= PU BUS VOLTAGE: 0.852 ANGLE: -34.4 DEGREES LOAD FROM: 506 ATS 4_N ATS 4 LP2 FEEDER AMPS: 39.3 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 9.7 KW 7.2 KVAR 12.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 524 LP2 CBL-0257 FEEDER AMPS: 39.3 VOLTAGE DROP: 0. %VD: 0.06 PROJECTED POWER FLOW: 9.7 KW 7.2 KVAR 12.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 524 LP2 DESIGN VOLTS: 208 BUS VOLTS: 177 %VD: 14.83$ ========================= PU BUS VOLTAGE: 0.852 ANGLE: -34.4 DEGREES NET BRANCH DIVERSITY LOAD: 9.7 KW 7.2 KVAR LOAD FROM: 523 ATS 4_L CBL-0257 FEEDER AMPS: 39.3 VOLTAGE DROP: 0. %VD: 0.06 PROJECTED POWER FLOW: 9.7 KW 7.2 KVAR 12.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 525 ATS 2_L DESIGN VOLTS: 208 BUS VOLTS: 177 %VD: 14.77$ ========================= PU BUS VOLTAGE: 0.852 ANGLE: -34.5 DEGREES LOAD FROM: 507 ATS 2_N ATS 2 CENTRAL VAC/DIETECTICS FEEDER AMPS: 319.5 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 78.1 KW 59.4 KVAR 98.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 526 AOV CBL-0400 FEEDER AMPS: 319.5 VOLTAGE DROP: 3. %VD: 1.58 PROJECTED POWER FLOW: 78.1 KW 59.4 KVAR 98.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.0 KW 1.6 KVAR 1.9 KVA ==== BUS: 526 AOV DESIGN VOLTS: 208 BUS VOLTS: 174 %VD: 16.35$ ========================= PU BUS VOLTAGE: 0.836 ANGLE: -34.9 DEGREES NET BRANCH DIVERSITY LOAD: 48.1 KW 36.1 KVAR LOAD FROM: 525 ATS 2_L CBL-0400 FEEDER AMPS: 319.5 VOLTAGE DROP: 3. %VD: 1.58 PROJECTED POWER FLOW: 77.1 KW 57.8 KVAR 96.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.0 KW 1.6 KVAR 1.9 KVA LOAD TO: 527 KP ECB CBL-0403 FEEDER AMPS: 119.9 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 28.9 KW 21.7 KVAR 36.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 527 KP ECB DESIGN VOLTS: 208 BUS VOLTS: 174 %VD: 16.40$ ========================= PU BUS VOLTAGE: 0.836 ANGLE: -34.9 DEGREES LOAD FROM: 526 AOV CBL-0403 FEEDER AMPS: 119.9 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 28.9 KW 21.7 KVAR 36.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 528 KP CBL-0404 FEEDER AMPS: 119.9 VOLTAGE DROP: 0. %VD: 0.22 PROJECTED POWER FLOW: 28.9 KW 21.7 KVAR 36.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA ==== BUS: 528 KP DESIGN VOLTS: 208 BUS VOLTS: 173 %VD: 16.62$ ========================= PU BUS VOLTAGE: 0.834 ANGLE: -34.8 DEGREES NET BRANCH DIVERSITY LOAD: 28.8 KW 21.6 KVAR LOAD FROM: 527 KP ECB CBL-0404 FEEDER AMPS: 119.9 VOLTAGE DROP: 0. %VD: 0.22 PROJECTED POWER FLOW: 28.8 KW 21.6 KVAR 36.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA ==== BUS: 529 ATS 6_L DESIGN VOLTS: 208 BUS VOLTS: 177 %VD: 14.67$ ========================= PU BUS VOLTAGE: 0.853 ANGLE: -34.4 DEGREES LOAD FROM: 508 ATS 6_N ATS 6 HEMO FEEDER AMPS: 80.5 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 19.9 KW 14.7 KVAR 24.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 530 LP5-N1 "HEMO" CBL-0265 FEEDER AMPS: 80.5 VOLTAGE DROP: 5. %VD: 2.18 PROJECTED POWER FLOW: 19.9 KW 14.7 KVAR 24.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.6 KW 0.2 KVAR 0.7 KVA ==== BUS: 530 LP5-N1 "HEMO" DESIGN VOLTS: 208 BUS VOLTS: 173 %VD: 16.85$ ========================= PU BUS VOLTAGE: 0.832 ANGLE: -34.0 DEGREES NET BRANCH DIVERSITY LOAD: 19.3 KW 14.5 KVAR LOAD FROM: 529 ATS 6_L CBL-0265 FEEDER AMPS: 80.5 VOLTAGE DROP: 5. %VD: 2.18 PROJECTED POWER FLOW: 19.3 KW 14.5 KVAR 24.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.6 KW 0.2 KVAR 0.7 KVA ==== BUS: 601 BLDG 17 MN DESIGN VOLTS: 208 BUS VOLTS: 182 %VD: 12.43$ ========================= PU BUS VOLTAGE: 0.876 ANGLE: -35.5 DEGREES NET BRANCH DIVERSITY LOAD: 80.0 KW 60.0 KVAR LOAD FROM: 006 SWITCH A7 T-17 TRANSF AMPS:1515.4 VOLTAGE DROP: 9. %VD: 4.41$ PROJECTED POWER FLOW: 382.9 KW 286.3 KVAR 478.1 KVA PF:0.80 LAGGING LOSSES THRU TRANSF: 6.5 KW 30.7 KVAR 31.4 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 605 PNL C CBL-0445 FEEDER AMPS: 182.0 VOLTAGE DROP: 3. %VD: 1.31 PROJECTED POWER FLOW: 45.9 KW 34.5 KVAR 57.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.7 KW 0.5 KVAR 0.9 KVA LOAD TO: 603 PNL A CBL-0446 FEEDER AMPS: 184.4 VOLTAGE DROP: 5. %VD: 2.44 PROJECTED POWER FLOW: 46.6 KW 34.9 KVAR 58.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.3 KW 1.0 KVAR 1.6 KVA LOAD TO: 604 PNL B CBL-0447 FEEDER AMPS: 184.2 VOLTAGE DROP: 5. %VD: 2.36 PROJECTED POWER FLOW: 46.5 KW 34.9 KVAR 58.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.3 KW 0.9 KVAR 1.6 KVA LOAD TO: 606 RPB CBL-0457 FEEDER AMPS: 240.0 VOLTAGE DROP: 2. %VD: 0.92 PROJECTED POWER FLOW: 60.5 KW 45.5 KVAR 75.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.6 KW 0.6 KVAR 0.8 KVA LOAD TO: 608 MDS (ICEHOUSE) CBL-0462 FEEDER AMPS: 80.4 VOLTAGE DROP: 1. %VD: 0.25 PROJECTED POWER FLOW: 20.3 KW 15.2 KVAR 25.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.1 KVAR 0.1 KVA LOAD TO: 602 ATS BLDG 17_N CBL-0467 FEEDER AMPS: 327.1 VOLTAGE DROP: 1. %VD: 0.26 PROJECTED POWER FLOW: 83.0 KW 61.3 KVAR 103.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.2 KVAR 0.3 KVA ==== BUS: 603 PNL A DESIGN VOLTS: 208 BUS VOLTS: 177 %VD: 14.88$ ========================= PU BUS VOLTAGE: 0.851 ANGLE: -35.5 DEGREES NET BRANCH DIVERSITY LOAD: 45.2 KW 33.9 KVAR LOAD FROM: 601 BLDG 17 MN CBL-0446 FEEDER AMPS: 184.4 VOLTAGE DROP: 5. %VD: 2.44 PROJECTED POWER FLOW: 45.2 KW 33.9 KVAR 56.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.3 KW 1.0 KVAR 1.6 KVA ==== BUS: 604 PNL B DESIGN VOLTS: 208 BUS VOLTS: 177 %VD: 14.79$ ========================= PU BUS VOLTAGE: 0.852 ANGLE: -35.5 DEGREES NET BRANCH DIVERSITY LOAD: 45.2 KW 33.9 KVAR LOAD FROM: 601 BLDG 17 MN CBL-0447 FEEDER AMPS: 184.2 VOLTAGE DROP: 5. %VD: 2.36 PROJECTED POWER FLOW: 45.2 KW 33.9 KVAR 56.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.3 KW 0.9 KVAR 1.6 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 605 PNL C DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 13.74$ ========================= PU BUS VOLTAGE: 0.863 ANGLE: -35.5 DEGREES NET BRANCH DIVERSITY LOAD: 45.2 KW 33.9 KVAR LOAD FROM: 601 BLDG 17 MN CBL-0445 FEEDER AMPS: 182.0 VOLTAGE DROP: 3. %VD: 1.31 PROJECTED POWER FLOW: 45.2 KW 33.9 KVAR 56.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.7 KW 0.5 KVAR 0.9 KVA ==== BUS: 606 RPB DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.36$ ========================= PU BUS VOLTAGE: 0.866 ANGLE: -35.6 DEGREES NET BRANCH DIVERSITY LOAD: 30.0 KW 22.5 KVAR LOAD FROM: 601 BLDG 17 MN CBL-0457 FEEDER AMPS: 240.0 VOLTAGE DROP: 2. %VD: 0.92 PROJECTED POWER FLOW: 60.0 KW 45.0 KVAR 74.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.6 KW 0.6 KVAR 0.8 KVA LOAD TO: 607 RPA CBL-0456 FEEDER AMPS: 120.0 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 30.0 KW 22.5 KVAR 37.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 607 RPA DESIGN VOLTS: 208 BUS VOLTS: 180 %VD: 13.38$ ========================= PU BUS VOLTAGE: 0.866 ANGLE: -35.6 DEGREES NET BRANCH DIVERSITY LOAD: 30.0 KW 22.5 KVAR LOAD FROM: 606 RPB CBL-0456 FEEDER AMPS: 120.0 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 30.0 KW 22.5 KVAR 37.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 608 MDS (ICEHOUSE) DESIGN VOLTS: 208 BUS VOLTS: 182 %VD: 12.68$ ========================= PU BUS VOLTAGE: 0.873 ANGLE: -35.5 DEGREES LOAD FROM: 601 BLDG 17 MN CBL-0462 FEEDER AMPS: 80.4 VOLTAGE DROP: 1. %VD: 0.25 PROJECTED POWER FLOW: 20.3 KW 15.2 KVAR 25.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.1 KVAR 0.1 KVA LOAD TO: 609 21-LP CBL-0463 FEEDER AMPS: 80.4 VOLTAGE DROP: 1. %VD: 0.31 PROJECTED POWER FLOW: 20.3 KW 15.2 KVAR 25.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 609 21-LP DESIGN VOLTS: 208 BUS VOLTS: 181 %VD: 13.00$ ========================= PU BUS VOLTAGE: 0.870 ANGLE: -35.5 DEGREES NET BRANCH DIVERSITY LOAD: 10.1 KW 7.6 KVAR LOAD FROM: 608 MDS (ICEHOUSE) CBL-0463 FEEDER AMPS: 80.4 VOLTAGE DROP: 1. %VD: 0.31 PROJECTED POWER FLOW: 20.2 KW 15.1 KVAR 25.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD TO: 610 UNLABELED PNL CBL-0464 FEEDER AMPS: 40.2 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 10.1 KW 7.6 KVAR 12.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 610 UNLABELED PNL DESIGN VOLTS: 208 BUS VOLTS: 181 %VD: 13.03$ ========================= PU BUS VOLTAGE: 0.870 ANGLE: -35.4 DEGREES NET BRANCH DIVERSITY LOAD: 10.1 KW 7.6 KVAR LOAD FROM: 609 21-LP CBL-0464 FEEDER AMPS: 40.2 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 10.1 KW 7.6 KVAR 12.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 612 BLDG 17 EM CB DESIGN VOLTS: 208 BUS VOLTS: 208 %VD: 0.00 ========================= PU BUS VOLTAGE: 1.000 ANGLE: 0.0 DEGREES **** NO LOAD SPECIFIED **** ==== BUS: 614 ATS BLDG 17_L DESIGN VOLTS: 208 BUS VOLTS: 182 %VD: 12.70$ ========================= PU BUS VOLTAGE: 0.873 ANGLE: -35.5 DEGREES LOAD TO: 620 EM MAIN CBL-0458 FEEDER AMPS: 80.4 VOLTAGE DROP: 0. %VD: 0.10 PROJECTED POWER FLOW: 20.3 KW 15.2 KVAR 25.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 615 EDP (BLDG 17) CBL-0459 FEEDER AMPS: 246.7 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 62.6 KW 45.9 KVAR 77.6 KVA PF:0.81 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD FROM: 602 ATS BLDG 17_N ATS BLDG 17 FEEDER AMPS: 327.1 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 82.8 KW 61.1 KVAR 102.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 615 EDP (BLDG 17) DESIGN VOLTS: 208 BUS VOLTS: 182 %VD: 12.72$ ========================= PU BUS VOLTAGE: 0.873 ANGLE: -35.5 DEGREES LOAD TO: 616 AE CBL-0470 FEEDER AMPS: 82.6 VOLTAGE DROP: 5. %VD: 2.59 PROJECTED POWER FLOW: 21.0 KW 15.3 KVAR 26.0 KVA PF:0.81 LAGGING LOSSES THRU FEEDER: 0.8 KW 0.2 KVAR 0.8 KVA LOAD TO: 619 CE CBL-0472 FEEDER AMPS: 81.4 VOLTAGE DROP: 3. %VD: 1.36 PROJECTED POWER FLOW: 20.6 KW 15.2 KVAR 25.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.4 KW 0.1 KVAR 0.4 KVA LOAD TO: 618 BE CBL-0471 FEEDER AMPS: 82.5 VOLTAGE DROP: 5. %VD: 2.50 PROJECTED POWER FLOW: 21.0 KW 15.3 KVAR 26.0 KVA PF:0.81 LAGGING LOSSES THRU FEEDER: 0.8 KW 0.2 KVAR 0.8 KVA LOAD FROM: 614 ATS BLDG 17_L CBL-0459 FEEDER AMPS: 246.7 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 62.5 KW 45.9 KVAR 77.6 KVA PF:0.81 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 616 AE DESIGN VOLTS: 208 BUS VOLTS: 176 %VD: 15.31$ ========================= PU BUS VOLTAGE: 0.847 ANGLE: -34.8 DEGREES NET BRANCH DIVERSITY LOAD: 14.4 KW 10.8 KVAR LOAD TO: 617 CONTACTOR AE CBL-0453 FEEDER AMPS: 23.6 VOLTAGE DROP: 0. %VD: 0.06 PROJECTED POWER FLOW: 5.8 KW 4.3 KVAR 7.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD FROM: 615 EDP (BLDG 17) CBL-0470 FEEDER AMPS: 82.6 VOLTAGE DROP: 5. %VD: 2.59 PROJECTED POWER FLOW: 20.2 KW 15.1 KVAR 25.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.8 KW 0.2 KVAR 0.8 KVA ==== BUS: 617 CONTACTOR AE DESIGN VOLTS: 208 BUS VOLTS: 176 %VD: 15.37$ ========================= PU BUS VOLTAGE: 0.846 ANGLE: -34.8 DEGREES LOAD FROM: 616 AE CBL-0453 FEEDER AMPS: 23.6 VOLTAGE DROP: 0. %VD: 0.06 PROJECTED POWER FLOW: 5.8 KW 4.3 KVAR 7.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 617A PNL AE1 CBL-0499 FEEDER AMPS: 23.6 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 5.8 KW 4.3 KVAR 7.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 617A PNL AE1 DESIGN VOLTS: 208 BUS VOLTS: 176 %VD: 15.40$ ========================= PU BUS VOLTAGE: 0.846 ANGLE: -34.8 DEGREES NET BRANCH DIVERSITY LOAD: 5.8 KW 4.3 KVAR LOAD FROM: 617 CONTACTOR AE CBL-0499 FEEDER AMPS: 23.6 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 5.8 KW 4.3 KVAR 7.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 618 BE DESIGN VOLTS: 208 BUS VOLTS: 176 %VD: 15.22$ ========================= PU BUS VOLTAGE: 0.848 ANGLE: -34.9 DEGREES NET BRANCH DIVERSITY LOAD: 20.2 KW 15.1 KVAR LOAD FROM: 615 EDP (BLDG 17) CBL-0471 FEEDER AMPS: 82.5 VOLTAGE DROP: 5. %VD: 2.50 PROJECTED POWER FLOW: 20.2 KW 15.1 KVAR 25.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.8 KW 0.2 KVAR 0.8 KVA ==== BUS: 619 CE DESIGN VOLTS: 208 BUS VOLTS: 179 %VD: 14.08$ ========================= PU BUS VOLTAGE: 0.859 ANGLE: -35.2 DEGREES NET BRANCH DIVERSITY LOAD: 20.2 KW 15.1 KVAR LOAD FROM: 615 EDP (BLDG 17) CBL-0472 FEEDER AMPS: 81.4 VOLTAGE DROP: 3. %VD: 1.36 PROJECTED POWER FLOW: 20.2 KW 15.1 KVAR 25.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.4 KW 0.1 KVAR 0.4 KVA ==== BUS: 620 EM MAIN DESIGN VOLTS: 208 BUS VOLTS: 181 %VD: 12.80$ ========================= PU BUS VOLTAGE: 0.872 ANGLE: -35.5 DEGREES LOAD TO: 621 EM CBL-0451 FEEDER AMPS: 80.4 VOLTAGE DROP: 0. %VD: 0.21 PROJECTED POWER FLOW: 20.2 KW 15.1 KVAR 25.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD FROM: 614 ATS BLDG 17_L CBL-0458 FEEDER AMPS: 80.4 VOLTAGE DROP: 0. %VD: 0.10 PROJECTED POWER FLOW: 20.2 KW 15.1 KVAR 25.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 621 EM DESIGN VOLTS: 208 BUS VOLTS: 181 %VD: 13.01$ ========================= PU BUS VOLTAGE: 0.870 ANGLE: -35.5 DEGREES NET BRANCH DIVERSITY LOAD: 20.2 KW 15.1 KVAR LOAD FROM: 620 EM MAIN CBL-0451 FEEDER AMPS: 80.4 VOLTAGE DROP: 0. %VD: 0.21 PROJECTED POWER FLOW: 20.2 KW 15.1 KVAR 25.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA ==== BUS: 701 XFMR T-5 SEC DESIGN VOLTS: 208 BUS VOLTS: 187 %VD: 10.25$ ========================= PU BUS VOLTAGE: 0.898 ANGLE: -34.2 DEGREES LOAD FROM: 008 SWITCH A4 T-5 TRANSF AMPS: 451.9 VOLTAGE DROP: 4. %VD: 2.16 PROJECTED POWER FLOW: 116.9 KW 87.7 KVAR 146.1 KVA PF:0.80 LAGGING LOSSES THRU TRANSF: 1.2 KW 4.2 KVAR 4.4 KVA LOAD TO: 702 BLDG 5 MTR PNL CBL-0129 FEEDER AMPS: 451.9 VOLTAGE DROP: 1. %VD: 0.51 PROJECTED POWER FLOW: 116.9 KW 87.7 KVAR 146.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.6 KW 0.6 KVAR 0.8 KVA ==== BUS: 702 BLDG 5 MTR PNL DESIGN VOLTS: 208 BUS VOLTS: 186 %VD: 10.76$ ========================= PU BUS VOLTAGE: 0.892 ANGLE: -34.2 DEGREES LOAD FROM: 701 XFMR T-5 SEC CBL-0129 FEEDER AMPS: 451.9 VOLTAGE DROP: 1. %VD: 0.51 PROJECTED POWER FLOW: 116.3 KW 87.1 KVAR 145.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.6 KW 0.6 KVAR 0.8 KVA LOAD TO: 707 BLDG 2 CBL-0134 FEEDER AMPS: 54.6 VOLTAGE DROP: 5. %VD: 2.31 PROJECTED POWER FLOW: 14.1 KW 10.4 KVAR 17.6 KVA PF:0.81 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.1 KVAR 0.5 KVA LOAD TO: 708 RP3 CBL-0135 FEEDER AMPS: 121.8 VOLTAGE DROP: 3. %VD: 1.60 PROJECTED POWER FLOW: 31.3 KW 23.5 KVAR 39.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.5 KVAR 0.7 KVA LOAD TO: 709 RP4 CBL-0136 FEEDER AMPS: 120.6 VOLTAGE DROP: 2. %VD: 0.76 PROJECTED POWER FLOW: 31.0 KW 23.3 KVAR 38.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.2 KVAR 0.3 KVA LOAD TO: 703 PNL D CBL-0133 FEEDER AMPS: 154.7 VOLTAGE DROP: 0. %VD: 0.11 PROJECTED POWER FLOW: 39.8 KW 29.8 KVAR 49.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.1 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 703 PNL D DESIGN VOLTS: 208 BUS VOLTS: 185 %VD: 10.86$ ========================= PU BUS VOLTAGE: 0.891 ANGLE: -34.2 DEGREES LOAD TO: 705 PNL B CBL-0131 FEEDER AMPS: 53.3 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 13.7 KW 10.3 KVAR 17.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 704 PNL C CBL-0130 FEEDER AMPS: 53.3 VOLTAGE DROP: 0. %VD: 0.14 PROJECTED POWER FLOW: 13.7 KW 10.3 KVAR 17.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 706 PNL IN HALL CBL-0132 FEEDER AMPS: 48.0 VOLTAGE DROP: 1. %VD: 0.25 PROJECTED POWER FLOW: 12.4 KW 9.3 KVAR 15.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD FROM: 702 BLDG 5 MTR PNL CBL-0133 FEEDER AMPS: 154.7 VOLTAGE DROP: 0. %VD: 0.11 PROJECTED POWER FLOW: 39.8 KW 29.8 KVAR 49.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.1 KVA ==== BUS: 704 PNL C DESIGN VOLTS: 208 BUS VOLTS: 185 %VD: 11.00$ ========================= PU BUS VOLTAGE: 0.890 ANGLE: -34.2 DEGREES NET BRANCH DIVERSITY LOAD: 13.7 KW 10.3 KVAR LOAD FROM: 703 PNL D CBL-0130 FEEDER AMPS: 53.3 VOLTAGE DROP: 0. %VD: 0.14 PROJECTED POWER FLOW: 13.7 KW 10.3 KVAR 17.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 705 PNL B DESIGN VOLTS: 208 BUS VOLTS: 185 %VD: 10.91$ ========================= PU BUS VOLTAGE: 0.891 ANGLE: -34.2 DEGREES NET BRANCH DIVERSITY LOAD: 13.7 KW 10.3 KVAR LOAD FROM: 703 PNL D CBL-0131 FEEDER AMPS: 53.3 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 13.7 KW 10.3 KVAR 17.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 706 PNL IN HALL DESIGN VOLTS: 208 BUS VOLTS: 185 %VD: 11.11$ ========================= PU BUS VOLTAGE: 0.889 ANGLE: -34.2 DEGREES NET BRANCH DIVERSITY LOAD: 12.3 KW 9.2 KVAR LOAD FROM: 703 PNL D CBL-0132 FEEDER AMPS: 48.0 VOLTAGE DROP: 1. %VD: 0.25 PROJECTED POWER FLOW: 12.3 KW 9.2 KVAR 15.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 707 BLDG 2 DESIGN VOLTS: 208 BUS VOLTS: 181 %VD: 13.06$ ========================= PU BUS VOLTAGE: 0.869 ANGLE: -33.7 DEGREES NET BRANCH DIVERSITY LOAD: 13.7 KW 10.3 KVAR LOAD FROM: 702 BLDG 5 MTR PNL CBL-0134 FEEDER AMPS: 54.6 VOLTAGE DROP: 5. %VD: 2.31 PROJECTED POWER FLOW: 13.7 KW 10.3 KVAR 17.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.1 KVAR 0.5 KVA ==== BUS: 708 RP3 DESIGN VOLTS: 208 BUS VOLTS: 182 %VD: 12.35$ ========================= PU BUS VOLTAGE: 0.876 ANGLE: -34.3 DEGREES NET BRANCH DIVERSITY LOAD: 30.8 KW 23.1 KVAR LOAD FROM: 702 BLDG 5 MTR PNL CBL-0135 FEEDER AMPS: 121.8 VOLTAGE DROP: 3. %VD: 1.60 PROJECTED POWER FLOW: 30.8 KW 23.1 KVAR 38.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.5 KVAR 0.7 KVA ==== BUS: 709 RP4 DESIGN VOLTS: 208 BUS VOLTS: 184 %VD: 11.52$ ========================= PU BUS VOLTAGE: 0.885 ANGLE: -34.3 DEGREES NET BRANCH DIVERSITY LOAD: 30.8 KW 23.1 KVAR LOAD FROM: 702 BLDG 5 MTR PNL CBL-0136 FEEDER AMPS: 120.6 VOLTAGE DROP: 2. %VD: 0.76 PROJECTED POWER FLOW: 30.8 KW 23.1 KVAR 38.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.2 KVAR 0.3 KVA ==== BUS: 801 XFMR T-15 SEC DESIGN VOLTS: 208 BUS VOLTS: 173 %VD: 16.79$ ========================= PU BUS VOLTAGE: 0.832 ANGLE: -35.9 DEGREES LOAD FROM: 009 XFMR T-15 PRI T-15 TRANSF AMPS:2214.5 VOLTAGE DROP: 18. %VD: 8.71$ PROJECTED POWER FLOW: 530.5 KW 399.1 KVAR 663.8 KVA PF:0.80 LAGGING LOSSES THRU TRANSF: 9.4 KW 49.2 KVAR 50.1 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 802 MN TAP CBL-0339 FEEDER AMPS:2214.5 VOLTAGE DROP: 1. %VD: 0.39 PROJECTED POWER FLOW: 530.5 KW 399.1 KVAR 663.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.8 KW 2.8 KVAR 3.3 KVA ==== BUS: 802 MN TAP DESIGN VOLTS: 208 BUS VOLTS: 172 %VD: 17.18$ ========================= PU BUS VOLTAGE: 0.828 ANGLE: -36.0 DEGREES LOAD FROM: 801 XFMR T-15 SEC CBL-0339 FEEDER AMPS:2214.5 VOLTAGE DROP: 1. %VD: 0.39 PROJECTED POWER FLOW: 528.7 KW 396.3 KVAR 660.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.8 KW 2.8 KVAR 3.3 KVA LOAD TO: 830 ATS 15 ECB CBL-0338 FEEDER AMPS: 646.8 VOLTAGE DROP: 0. %VD: 0.09 PROJECTED POWER FLOW: 153.9 KW 116.4 KVAR 193.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.2 KVAR 0.2 KVA LOAD TO: 803 BLDG 15 SWGR CBL-0340 FEEDER AMPS:1567.7 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 374.8 KW 279.9 KVAR 467.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 803 BLDG 15 SWGR DESIGN VOLTS: 208 BUS VOLTS: 172 %VD: 17.19$ ========================= PU BUS VOLTAGE: 0.828 ANGLE: -36.0 DEGREES LOAD FROM: 802 MN TAP CBL-0340 FEEDER AMPS:1567.7 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 374.8 KW 279.9 KVAR 467.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 816 J BOX CBL-0377 FEEDER AMPS: 193.5 VOLTAGE DROP: 2. %VD: 1.12 PROJECTED POWER FLOW: 46.2 KW 34.6 KVAR 57.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.7 KW 0.4 KVAR 0.8 KVA LOAD TO: 824 J BOX CBL-0378 FEEDER AMPS: 194.1 VOLTAGE DROP: 3. %VD: 1.38 PROJECTED POWER FLOW: 46.4 KW 34.7 KVAR 57.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.8 KW 0.5 KVAR 1.0 KVA LOAD TO: 827 J BOX CBL-0379 FEEDER AMPS: 194.6 VOLTAGE DROP: 3. %VD: 1.63 PROJECTED POWER FLOW: 46.5 KW 34.7 KVAR 58.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.0 KW 0.6 KVAR 1.2 KVA LOAD TO: 819 J BOX CBL-0414 FEEDER AMPS: 96.1 VOLTAGE DROP: 1. %VD: 0.56 PROJECTED POWER FLOW: 23.0 KW 17.2 KVAR 28.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.1 KVAR 0.2 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 821 J BOX CBL-0415 FEEDER AMPS: 194.1 VOLTAGE DROP: 3. %VD: 1.38 PROJECTED POWER FLOW: 46.4 KW 34.7 KVAR 57.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.8 KW 0.5 KVAR 1.0 KVA LOAD TO: 808 J BOX CBL-0368 FEEDER AMPS: 194.7 VOLTAGE DROP: 2. %VD: 0.94 PROJECTED POWER FLOW: 46.6 KW 34.7 KVAR 58.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.6 KW 0.3 KVAR 0.7 KVA LOAD FROM: 815 ELE DISC CBL-0418 FEEDER AMPS: 0.0 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 0.0 KW 0.0 KVAR 0.0 KVA PF:0.00 LEADING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 805 J BOX CBL-0428 FEEDER AMPS: 120.9 VOLTAGE DROP: 4. %VD: 1.75 PROJECTED POWER FLOW: 29.1 KW 21.4 KVAR 36.1 KVA PF:0.81 LAGGING LOSSES THRU FEEDER: 0.8 KW 0.2 KVAR 0.8 KVA LOAD TO: 812 ACP CBL-0478 FEEDER AMPS: 161.7 VOLTAGE DROP: 0. %VD: 0.10 PROJECTED POWER FLOW: 38.6 KW 29.0 KVAR 48.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.1 KVA LOAD TO: 813 BLDG 10 GARAGE CBL-0432 FEEDER AMPS: 217.7 VOLTAGE DROP: 3. %VD: 1.53 PROJECTED POWER FLOW: 52.0 KW 39.0 KVAR 65.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.0 KW 0.7 KVAR 1.2 KVA ==== BUS: 805 J BOX DESIGN VOLTS: 208 BUS VOLTS: 169 %VD: 18.94$ ========================= PU BUS VOLTAGE: 0.811 ANGLE: -35.5 DEGREES LOAD FROM: 803 BLDG 15 SWGR CBL-0428 FEEDER AMPS: 120.9 VOLTAGE DROP: 4. %VD: 1.75 PROJECTED POWER FLOW: 28.3 KW 21.2 KVAR 35.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.8 KW 0.2 KVAR 0.8 KVA LOAD TO: 807 LP1 (ILD) CBL-0430 FEEDER AMPS: 60.4 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 14.1 KW 10.6 KVAR 17.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 806 2LP CBL-0362 FEEDER AMPS: 60.5 VOLTAGE DROP: 0. %VD: 0.12 PROJECTED POWER FLOW: 14.1 KW 10.6 KVAR 17.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 806 2LP DESIGN VOLTS: 208 BUS VOLTS: 168 %VD: 19.06$ ========================= PU BUS VOLTAGE: 0.809 ANGLE: -35.5 DEGREES NET BRANCH DIVERSITY LOAD: 14.1 KW 10.6 KVAR LOAD FROM: 805 J BOX CBL-0362 FEEDER AMPS: 60.5 VOLTAGE DROP: 0. %VD: 0.12 PROJECTED POWER FLOW: 14.1 KW 10.6 KVAR 17.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 807 LP1 (ILD) DESIGN VOLTS: 208 BUS VOLTS: 169 %VD: 18.95$ ========================= PU BUS VOLTAGE: 0.811 ANGLE: -35.5 DEGREES NET BRANCH DIVERSITY LOAD: 14.1 KW 10.6 KVAR LOAD FROM: 805 J BOX CBL-0430 FEEDER AMPS: 60.4 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 14.1 KW 10.6 KVAR 17.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 808 J BOX DESIGN VOLTS: 208 BUS VOLTS: 170 %VD: 18.13$ ========================= PU BUS VOLTAGE: 0.819 ANGLE: -35.9 DEGREES LOAD FROM: 803 BLDG 15 SWGR CBL-0368 FEEDER AMPS: 194.7 VOLTAGE DROP: 2. %VD: 0.94 PROJECTED POWER FLOW: 46.0 KW 34.3 KVAR 57.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.6 KW 0.3 KVAR 0.7 KVA LOAD TO: 809 PNL A CBL-0416 FEEDER AMPS: 96.5 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 22.8 KW 17.1 KVAR 28.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 810 SPLICE BOX ON WALL CBL-0417 FEEDER AMPS: 98.1 VOLTAGE DROP: 2. %VD: 0.90 PROJECTED POWER FLOW: 23.2 KW 17.3 KVAR 29.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.1 KVAR 0.3 KVA ==== BUS: 809 PNL A DESIGN VOLTS: 208 BUS VOLTS: 170 %VD: 18.16$ ========================= PU BUS VOLTAGE: 0.818 ANGLE: -35.9 DEGREES NET BRANCH DIVERSITY LOAD: 22.8 KW 17.1 KVAR LOAD FROM: 808 J BOX CBL-0416 FEEDER AMPS: 96.5 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 22.8 KW 17.1 KVAR 28.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 810 SPLICE BOX ON WALL DESIGN VOLTS: 208 BUS VOLTS: 168 %VD: 19.02$ ========================= PU BUS VOLTAGE: 0.810 ANGLE: -35.8 DEGREES LOAD TO: 811 RM 213 CBL-0376 FEEDER AMPS: 98.1 VOLTAGE DROP: 1. %VD: 0.51 PROJECTED POWER FLOW: 23.0 KW 17.1 KVAR 28.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.0 KVAR 0.2 KVA LOAD FROM: 808 J BOX CBL-0417 FEEDER AMPS: 98.1 VOLTAGE DROP: 2. %VD: 0.90 PROJECTED POWER FLOW: 23.0 KW 17.1 KVAR 28.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.1 KVAR 0.3 KVA ==== BUS: 811 RM 213 DESIGN VOLTS: 208 BUS VOLTS: 167 %VD: 19.54$ ========================= PU BUS VOLTAGE: 0.805 ANGLE: -35.7 DEGREES NET BRANCH DIVERSITY LOAD: 22.8 KW 17.1 KVAR LOAD FROM: 810 SPLICE BOX ON WALL CBL-0376 FEEDER AMPS: 98.1 VOLTAGE DROP: 1. %VD: 0.51 PROJECTED POWER FLOW: 22.8 KW 17.1 KVAR 28.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.0 KVAR 0.2 KVA ==== BUS: 812 ACP DESIGN VOLTS: 208 BUS VOLTS: 172 %VD: 17.29$ ========================= PU BUS VOLTAGE: 0.827 ANGLE: -36.0 DEGREES LOAD FROM: 803 BLDG 15 SWGR CBL-0478 FEEDER AMPS: 161.7 VOLTAGE DROP: 0. %VD: 0.10 PROJECTED POWER FLOW: 38.6 KW 29.0 KVAR 48.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.1 KVA LOAD TO: 812A CHILLER CBL-0479 FEEDER AMPS: 161.7 VOLTAGE DROP: 1. %VD: 0.37 PROJECTED POWER FLOW: 38.6 KW 29.0 KVAR 48.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.2 KVAR 0.2 KVA ==== BUS: 812A CHILLER DESIGN VOLTS: 208 BUS VOLTS: 171 %VD: 17.65$ ========================= PU BUS VOLTAGE: 0.823 ANGLE: -36.0 DEGREES NET BRANCH DIVERSITY LOAD: 38.4 KW 28.8 KVAR LOAD FROM: 812 ACP CBL-0479 FEEDER AMPS: 161.7 VOLTAGE DROP: 1. %VD: 0.37 PROJECTED POWER FLOW: 38.4 KW 28.8 KVAR 48.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.2 KVAR 0.2 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 813 BLDG 10 GARAGE DESIGN VOLTS: 208 BUS VOLTS: 169 %VD: 18.71$ ========================= PU BUS VOLTAGE: 0.813 ANGLE: -36.0 DEGREES NET BRANCH DIVERSITY LOAD: 51.0 KW 38.3 KVAR LOAD FROM: 803 BLDG 15 SWGR CBL-0432 FEEDER AMPS: 217.7 VOLTAGE DROP: 3. %VD: 1.53 PROJECTED POWER FLOW: 51.0 KW 38.3 KVAR 63.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.0 KW 0.7 KVAR 1.2 KVA ==== BUS: 815 ELE DISC DESIGN VOLTS: 208 BUS VOLTS: 172 %VD: 17.19$ ========================= PU BUS VOLTAGE: 0.828 ANGLE: -36.0 DEGREES **** NO LOAD SPECIFIED **** ==== BUS: 816 J BOX DESIGN VOLTS: 208 BUS VOLTS: 170 %VD: 18.31$ ========================= PU BUS VOLTAGE: 0.817 ANGLE: -35.9 DEGREES LOAD FROM: 803 BLDG 15 SWGR CBL-0377 FEEDER AMPS: 193.5 VOLTAGE DROP: 2. %VD: 1.12 PROJECTED POWER FLOW: 45.6 KW 34.2 KVAR 57.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.7 KW 0.4 KVAR 0.8 KVA LOAD TO: 817 PNL K CBL-0358 FEEDER AMPS: 96.7 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 22.8 KW 17.1 KVAR 28.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 818 PNL M CBL-0369 FEEDER AMPS: 96.7 VOLTAGE DROP: 0. %VD: 0.06 PROJECTED POWER FLOW: 22.8 KW 17.1 KVAR 28.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 817 PNL K DESIGN VOLTS: 208 BUS VOLTS: 170 %VD: 18.34$ ========================= PU BUS VOLTAGE: 0.817 ANGLE: -35.9 DEGREES NET BRANCH DIVERSITY LOAD: 22.8 KW 17.1 KVAR LOAD FROM: 816 J BOX CBL-0358 FEEDER AMPS: 96.7 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 22.8 KW 17.1 KVAR 28.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 818 PNL M DESIGN VOLTS: 208 BUS VOLTS: 170 %VD: 18.37$ ========================= PU BUS VOLTAGE: 0.816 ANGLE: -35.9 DEGREES NET BRANCH DIVERSITY LOAD: 22.8 KW 17.1 KVAR LOAD FROM: 816 J BOX CBL-0369 FEEDER AMPS: 96.7 VOLTAGE DROP: 0. %VD: 0.06 PROJECTED POWER FLOW: 22.8 KW 17.1 KVAR 28.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 819 J BOX DESIGN VOLTS: 208 BUS VOLTS: 171 %VD: 17.74$ ========================= PU BUS VOLTAGE: 0.823 ANGLE: -36.0 DEGREES LOAD FROM: 803 BLDG 15 SWGR CBL-0414 FEEDER AMPS: 96.1 VOLTAGE DROP: 1. %VD: 0.56 PROJECTED POWER FLOW: 22.8 KW 17.1 KVAR 28.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.1 KVAR 0.2 KVA LOAD TO: 820 PNL D CBL-0367 FEEDER AMPS: 96.1 VOLTAGE DROP: 0. %VD: 0.06 PROJECTED POWER FLOW: 22.8 KW 17.1 KVAR 28.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 820 PNL D DESIGN VOLTS: 208 BUS VOLTS: 171 %VD: 17.81$ ========================= PU BUS VOLTAGE: 0.822 ANGLE: -35.9 DEGREES NET BRANCH DIVERSITY LOAD: 22.8 KW 17.1 KVAR LOAD FROM: 819 J BOX CBL-0367 FEEDER AMPS: 96.1 VOLTAGE DROP: 0. %VD: 0.06 PROJECTED POWER FLOW: 22.8 KW 17.1 KVAR 28.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 821 J BOX DESIGN VOLTS: 208 BUS VOLTS: 169 %VD: 18.56$ ========================= PU BUS VOLTAGE: 0.814 ANGLE: -35.9 DEGREES LOAD FROM: 803 BLDG 15 SWGR CBL-0415 FEEDER AMPS: 194.1 VOLTAGE DROP: 3. %VD: 1.38 PROJECTED POWER FLOW: 45.6 KW 34.2 KVAR 57.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.8 KW 0.5 KVAR 1.0 KVA LOAD TO: 822 PNL E CBL-0365 FEEDER AMPS: 97.0 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 22.8 KW 17.1 KVAR 28.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 823 PNL F CBL-0366 FEEDER AMPS: 97.0 VOLTAGE DROP: 0. %VD: 0.06 PROJECTED POWER FLOW: 22.8 KW 17.1 KVAR 28.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 822 PNL E DESIGN VOLTS: 208 BUS VOLTS: 169 %VD: 18.59$ ========================= PU BUS VOLTAGE: 0.814 ANGLE: -35.9 DEGREES NET BRANCH DIVERSITY LOAD: 22.8 KW 17.1 KVAR LOAD FROM: 821 J BOX CBL-0365 FEEDER AMPS: 97.0 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 22.8 KW 17.1 KVAR 28.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 823 PNL F DESIGN VOLTS: 208 BUS VOLTS: 169 %VD: 18.63$ ========================= PU BUS VOLTAGE: 0.814 ANGLE: -35.9 DEGREES NET BRANCH DIVERSITY LOAD: 22.8 KW 17.1 KVAR LOAD FROM: 821 J BOX CBL-0366 FEEDER AMPS: 97.0 VOLTAGE DROP: 0. %VD: 0.06 PROJECTED POWER FLOW: 22.8 KW 17.1 KVAR 28.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 824 J BOX DESIGN VOLTS: 208 BUS VOLTS: 169 %VD: 18.56$ ========================= PU BUS VOLTAGE: 0.814 ANGLE: -35.9 DEGREES LOAD FROM: 803 BLDG 15 SWGR CBL-0378 FEEDER AMPS: 194.1 VOLTAGE DROP: 3. %VD: 1.38 PROJECTED POWER FLOW: 45.6 KW 34.2 KVAR 57.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.8 KW 0.5 KVAR 1.0 KVA LOAD TO: 825 PNL I CBL-0356 FEEDER AMPS: 97.0 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 22.8 KW 17.1 KVAR 28.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 826 PNL J CBL-0357 FEEDER AMPS: 97.0 VOLTAGE DROP: 0. %VD: 0.06 PROJECTED POWER FLOW: 22.8 KW 17.1 KVAR 28.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 825 PNL I DESIGN VOLTS: 208 BUS VOLTS: 169 %VD: 18.59$ ========================= PU BUS VOLTAGE: 0.814 ANGLE: -35.9 DEGREES NET BRANCH DIVERSITY LOAD: 22.8 KW 17.1 KVAR LOAD FROM: 824 J BOX CBL-0356 FEEDER AMPS: 97.0 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 22.8 KW 17.1 KVAR 28.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 826 PNL J DESIGN VOLTS: 208 BUS VOLTS: 169 %VD: 18.63$ ========================= PU BUS VOLTAGE: 0.814 ANGLE: -35.9 DEGREES NET BRANCH DIVERSITY LOAD: 22.8 KW 17.1 KVAR LOAD FROM: 824 J BOX CBL-0357 FEEDER AMPS: 97.0 VOLTAGE DROP: 0. %VD: 0.06 PROJECTED POWER FLOW: 22.8 KW 17.1 KVAR 28.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 827 J BOX DESIGN VOLTS: 208 BUS VOLTS: 169 %VD: 18.82$ ========================= PU BUS VOLTAGE: 0.812 ANGLE: -35.9 DEGREES LOAD FROM: 803 BLDG 15 SWGR CBL-0379 FEEDER AMPS: 194.6 VOLTAGE DROP: 3. %VD: 1.63 PROJECTED POWER FLOW: 45.5 KW 34.2 KVAR 56.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 1.0 KW 0.6 KVAR 1.2 KVA LOAD TO: 828 PNL G CBL-0354 FEEDER AMPS: 97.3 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 22.8 KW 17.1 KVAR 28.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 829 PNL H CBL-0355 FEEDER AMPS: 97.3 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 22.8 KW 17.1 KVAR 28.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 828 PNL G DESIGN VOLTS: 208 BUS VOLTS: 169 %VD: 18.83$ ========================= PU BUS VOLTAGE: 0.812 ANGLE: -35.9 DEGREES NET BRANCH DIVERSITY LOAD: 22.8 KW 17.1 KVAR LOAD FROM: 827 J BOX CBL-0354 FEEDER AMPS: 97.3 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 22.8 KW 17.1 KVAR 28.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 829 PNL H DESIGN VOLTS: 208 BUS VOLTS: 169 %VD: 18.83$ ========================= PU BUS VOLTAGE: 0.812 ANGLE: -35.9 DEGREES NET BRANCH DIVERSITY LOAD: 22.8 KW 17.1 KVAR LOAD FROM: 827 J BOX CBL-0355 FEEDER AMPS: 97.3 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 22.8 KW 17.1 KVAR 28.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 830 ATS 15 ECB DESIGN VOLTS: 208 BUS VOLTS: 172 %VD: 17.28$ ========================= PU BUS VOLTAGE: 0.827 ANGLE: -36.0 DEGREES LOAD TO: 831 ATS 15_N CBL-0337 FEEDER AMPS: 646.8 VOLTAGE DROP: 1. %VD: 0.34 PROJECTED POWER FLOW: 153.8 KW 116.2 KVAR 192.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.7 KVAR 0.8 KVA LOAD FROM: 802 MN TAP CBL-0338 FEEDER AMPS: 646.8 VOLTAGE DROP: 0. %VD: 0.09 PROJECTED POWER FLOW: 153.8 KW 116.2 KVAR 192.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.2 KVAR 0.2 KVA ==== BUS: 832 BLDG 15 EMERG GEN DESIGN VOLTS: 208 BUS VOLTS: 208 %VD: 0.00 ========================= PU BUS VOLTAGE: 1.000 ANGLE: 0.0 DEGREES *** SWING GENERATOR: BLDG 15 GEN 0.0 KW 0.0 KVAR **** NO LOAD SPECIFIED **** ==== BUS: 834 ATS 15_L DESIGN VOLTS: 208 BUS VOLTS: 171 %VD: 17.63$ ========================= PU BUS VOLTAGE: 0.824 ANGLE: -36.1 DEGREES LOAD TO: 835 EMER DISTRIBUTION PANEL CBL-0330 FEEDER AMPS: 132.1 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 31.5 KW 23.4 KVAR 39.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 840 DATA CENTER CBL-0335 FEEDER AMPS: 514.6 VOLTAGE DROP: 1. %VD: 0.27 PROJECTED POWER FLOW: 121.9 KW 92.0 KVAR 152.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.5 KVAR 0.5 KVA LOAD FROM: 831 ATS 15_N ATS BLDG 15 FEEDER AMPS: 646.8 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 153.3 KW 115.5 KVAR 191.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.1 KVAR 0.1 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 835 EMER DISTRIBUTION PANEL DESIGN VOLTS: 208 BUS VOLTS: 171 %VD: 17.67$ ========================= PU BUS VOLTAGE: 0.823 ANGLE: -36.1 DEGREES LOAD FROM: 834 ATS 15_L CBL-0330 FEEDER AMPS: 132.1 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 31.5 KW 23.4 KVAR 39.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 837 KENNEL (K-EP BLDG 10) CBL-0332 FEEDER AMPS: 66.4 VOLTAGE DROP: 2. %VD: 1.04 PROJECTED POWER FLOW: 15.8 KW 11.7 KVAR 19.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.1 KVAR 0.3 KVA LOAD TO: 839 GEN RM PNL CBL-0334 FEEDER AMPS: 65.7 VOLTAGE DROP: 0. %VD: 0.24 PROJECTED POWER FLOW: 15.6 KW 11.7 KVAR 19.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA ==== BUS: 837 KENNEL (K-EP BLDG 10) DESIGN VOLTS: 208 BUS VOLTS: 169 %VD: 18.70$ ========================= PU BUS VOLTAGE: 0.813 ANGLE: -35.8 DEGREES NET BRANCH DIVERSITY LOAD: 15.6 KW 11.7 KVAR LOAD FROM: 835 EMER DISTRIBUTION PANEL CBL-0332 FEEDER AMPS: 66.4 VOLTAGE DROP: 2. %VD: 1.04 PROJECTED POWER FLOW: 15.6 KW 11.7 KVAR 19.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.1 KVAR 0.3 KVA ==== BUS: 839 GEN RM PNL DESIGN VOLTS: 208 BUS VOLTS: 171 %VD: 17.90$ ========================= PU BUS VOLTAGE: 0.821 ANGLE: -36.0 DEGREES NET BRANCH DIVERSITY LOAD: 15.6 KW 11.7 KVAR LOAD FROM: 835 EMER DISTRIBUTION PANEL CBL-0334 FEEDER AMPS: 65.7 VOLTAGE DROP: 0. %VD: 0.24 PROJECTED POWER FLOW: 15.6 KW 11.7 KVAR 19.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA ==== BUS: 840 DATA CENTER DESIGN VOLTS: 208 BUS VOLTS: 171 %VD: 17.90$ ========================= PU BUS VOLTAGE: 0.821 ANGLE: -36.2 DEGREES LOAD FROM: 834 ATS 15_L CBL-0335 FEEDER AMPS: 514.6 VOLTAGE DROP: 1. %VD: 0.27 PROJECTED POWER FLOW: 121.6 KW 91.6 KVAR 152.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.5 KVAR 0.5 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 841 MAIN PANEL CBL-0370 FEEDER AMPS: 514.6 VOLTAGE DROP: 2. %VD: 0.72 PROJECTED POWER FLOW: 121.6 KW 91.6 KVAR 152.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.8 KW 1.2 KVAR 1.4 KVA ==== BUS: 841 MAIN PANEL DESIGN VOLTS: 208 BUS VOLTS: 169 %VD: 18.63$ ========================= PU BUS VOLTAGE: 0.814 ANGLE: -36.4 DEGREES LOAD FROM: 840 DATA CENTER CBL-0370 FEEDER AMPS: 514.6 VOLTAGE DROP: 2. %VD: 0.72 PROJECTED POWER FLOW: 120.8 KW 90.4 KVAR 150.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.8 KW 1.2 KVAR 1.4 KVA LOAD TO: 842 RP1 CBL-0371 FEEDER AMPS: 99.7 VOLTAGE DROP: 0. %VD: 0.18 PROJECTED POWER FLOW: 23.4 KW 17.5 KVAR 29.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD TO: 844 CRAC 2-1 CBL-0373 FEEDER AMPS: 59.9 VOLTAGE DROP: 1. %VD: 0.28 PROJECTED POWER FLOW: 14.1 KW 10.5 KVAR 17.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD TO: 845 CRAC 2-2 CBL-0374 FEEDER AMPS: 60.1 VOLTAGE DROP: 1. %VD: 0.57 PROJECTED POWER FLOW: 14.1 KW 10.5 KVAR 17.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD TO: 846 CRAC 2-3 CBL-0375 FEEDER AMPS: 60.2 VOLTAGE DROP: 2. %VD: 0.76 PROJECTED POWER FLOW: 14.2 KW 10.5 KVAR 17.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.0 KVAR 0.2 KVA LOAD TO: 843 RDU CBL-0372 FEEDER AMPS: 234.5 VOLTAGE DROP: 2. %VD: 0.78 PROJECTED POWER FLOW: 55.0 KW 41.2 KVAR 68.7 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.4 KVAR 0.7 KVA ==== BUS: 842 RP1 DESIGN VOLTS: 208 BUS VOLTS: 169 %VD: 18.81$ ========================= PU BUS VOLTAGE: 0.812 ANGLE: -36.3 DEGREES NET BRANCH DIVERSITY LOAD: 23.3 KW 17.5 KVAR LOAD FROM: 841 MAIN PANEL CBL-0371 FEEDER AMPS: 99.7 VOLTAGE DROP: 0. %VD: 0.18 PROJECTED POWER FLOW: 23.3 KW 17.5 KVAR 29.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 843 RDU DESIGN VOLTS: 208 BUS VOLTS: 168 %VD: 19.40$ ========================= PU BUS VOLTAGE: 0.806 ANGLE: -36.4 DEGREES NET BRANCH DIVERSITY LOAD: 54.5 KW 40.9 KVAR LOAD FROM: 841 MAIN PANEL CBL-0372 FEEDER AMPS: 234.5 VOLTAGE DROP: 2. %VD: 0.78 PROJECTED POWER FLOW: 54.5 KW 40.9 KVAR 68.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.4 KVAR 0.7 KVA ==== BUS: 844 CRAC 2-1 DESIGN VOLTS: 208 BUS VOLTS: 169 %VD: 18.91$ ========================= PU BUS VOLTAGE: 0.811 ANGLE: -36.3 DEGREES NET BRANCH DIVERSITY LOAD: 14.0 KW 10.5 KVAR LOAD FROM: 841 MAIN PANEL CBL-0373 FEEDER AMPS: 59.9 VOLTAGE DROP: 1. %VD: 0.28 PROJECTED POWER FLOW: 14.0 KW 10.5 KVAR 17.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA ==== BUS: 845 CRAC 2-2 DESIGN VOLTS: 208 BUS VOLTS: 168 %VD: 19.20$ ========================= PU BUS VOLTAGE: 0.808 ANGLE: -36.2 DEGREES NET BRANCH DIVERSITY LOAD: 14.0 KW 10.5 KVAR LOAD FROM: 841 MAIN PANEL CBL-0374 FEEDER AMPS: 60.1 VOLTAGE DROP: 1. %VD: 0.57 PROJECTED POWER FLOW: 14.0 KW 10.5 KVAR 17.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA ==== BUS: 846 CRAC 2-3 DESIGN VOLTS: 208 BUS VOLTS: 168 %VD: 19.39$ ========================= PU BUS VOLTAGE: 0.806 ANGLE: -36.1 DEGREES NET BRANCH DIVERSITY LOAD: 14.0 KW 10.5 KVAR LOAD FROM: 841 MAIN PANEL CBL-0375 FEEDER AMPS: 60.2 VOLTAGE DROP: 2. %VD: 0.76 PROJECTED POWER FLOW: 14.0 KW 10.5 KVAR 17.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.0 KVAR 0.2 KVA ==== BUS: 900 XFMR T-7 SEC DESIGN VOLTS: 480 BUS VOLTS: 432 %VD: 10.04$ ========================= PU BUS VOLTAGE: 0.900 ANGLE: -34.3 DEGREES LOAD FROM: 016 XFMR T-7 PRI T-7 TRANSF AMPS: 851.0 VOLTAGE DROP: 9. %VD: 1.98 PROJECTED POWER FLOW: 505.2 KW 387.2 KVAR 636.5 KVA PF:0.79 LAGGING LOSSES THRU TRANSF: 2.9 KW 19.0 KVAR 19.2 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 901 BLDG 7 MN SWGR CBL-0244 FEEDER AMPS: 851.0 VOLTAGE DROP: 0. %VD: 0.08 PROJECTED POWER FLOW: 505.2 KW 387.2 KVAR 636.5 KVA PF:0.79 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.5 KVAR 0.6 KVA ==== BUS: 901 BLDG 7 MN SWGR DESIGN VOLTS: 480 BUS VOLTS: 431 %VD: 10.12$ ========================= PU BUS VOLTAGE: 0.899 ANGLE: -34.3 DEGREES LOAD TO: 902 BLDG 7 ATS_N CBL-0235 FEEDER AMPS: 349.4 VOLTAGE DROP: 0. %VD: 0.03 PROJECTED POWER FLOW: 208.5 KW 157.3 KVAR 261.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.1 KVAR 0.1 KVA LOAD TO: 905 LOADING DOCK ECB CBL-0239 FEEDER AMPS: 26.8 VOLTAGE DROP: 2. %VD: 0.38 PROJECTED POWER FLOW: 16.1 KW 12.0 KVAR 20.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD TO: 906 WAREHOUSE ECB CBL-0240 FEEDER AMPS: 133.8 VOLTAGE DROP: 1. %VD: 0.26 PROJECTED POWER FLOW: 80.0 KW 60.1 KVAR 100.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.2 KVAR 0.3 KVA LOAD FROM: 900 XFMR T-7 SEC CBL-0244 FEEDER AMPS: 851.0 VOLTAGE DROP: 0. %VD: 0.08 PROJECTED POWER FLOW: 504.9 KW 386.8 KVAR 636.0 KVA PF:0.79 LAGGING LOSSES THRU FEEDER: 0.3 KW 0.5 KVAR 0.6 KVA LOAD TO: 904 BLDG 6 ECB CBL-0246 FEEDER AMPS: 134.3 VOLTAGE DROP: 3. %VD: 0.58 PROJECTED POWER FLOW: 80.3 KW 60.2 KVAR 100.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.4 KVAR 0.6 KVA LOAD TO: 903 BLDG 10 CBL-0245 FEEDER AMPS: 206.6 VOLTAGE DROP: 4. %VD: 0.84 PROJECTED POWER FLOW: 120.0 KW 97.2 KVAR 154.4 KVA PF:0.78 LAGGING LOSSES THRU FEEDER: 1.2 KW 0.9 KVAR 1.4 KVA ==== BUS: 903 BLDG 10 DESIGN VOLTS: 480 BUS VOLTS: 427 %VD: 10.96$ ========================= PU BUS VOLTAGE: 0.890 ANGLE: -34.3 DEGREES LOAD FROM: 901 BLDG 7 MN SWGR CBL-0245 FEEDER AMPS: 206.6 VOLTAGE DROP: 4. %VD: 0.84 PROJECTED POWER FLOW: 118.8 KW 96.3 KVAR 153.0 KVA PF:0.78 LAGGING LOSSES THRU FEEDER: 1.2 KW 0.9 KVAR 1.4 KVA LOAD TO: 903A CBL-0247 FEEDER AMPS: 206.6 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 118.8 KW 96.3 KVAR 153.0 KVA PF:0.78 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 904 BLDG 6 ECB DESIGN VOLTS: 480 BUS VOLTS: 429 %VD: 10.69$ ========================= PU BUS VOLTAGE: 0.893 ANGLE: -34.3 DEGREES NET BRANCH DIVERSITY LOAD: 79.8 KW 59.9 KVAR LOAD FROM: 901 BLDG 7 MN SWGR CBL-0246 FEEDER AMPS: 134.3 VOLTAGE DROP: 3. %VD: 0.58 PROJECTED POWER FLOW: 79.8 KW 59.9 KVAR 99.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.5 KW 0.4 KVAR 0.6 KVA ==== BUS: 905 LOADING DOCK ECB DESIGN VOLTS: 480 BUS VOLTS: 430 %VD: 10.49$ ========================= PU BUS VOLTAGE: 0.895 ANGLE: -34.2 DEGREES NET BRANCH DIVERSITY LOAD: 16.0 KW 12.0 KVAR LOAD FROM: 901 BLDG 7 MN SWGR CBL-0239 FEEDER AMPS: 26.8 VOLTAGE DROP: 2. %VD: 0.38 PROJECTED POWER FLOW: 16.0 KW 12.0 KVAR 20.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA ==== BUS: 906 WAREHOUSE ECB DESIGN VOLTS: 480 BUS VOLTS: 430 %VD: 10.38$ ========================= PU BUS VOLTAGE: 0.896 ANGLE: -34.4 DEGREES NET BRANCH DIVERSITY LOAD: 79.8 KW 59.9 KVAR LOAD FROM: 901 BLDG 7 MN SWGR CBL-0240 FEEDER AMPS: 133.8 VOLTAGE DROP: 1. %VD: 0.26 PROJECTED POWER FLOW: 79.8 KW 59.9 KVAR 99.8 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.2 KVAR 0.3 KVA ==== BUS: 907 BLDG 7 EMERG GEN DESIGN VOLTS: 480 BUS VOLTS: 480 %VD: 0.00 ========================= PU BUS VOLTAGE: 1.000 ANGLE: 0.0 DEGREES *** SWING GENERATOR: BLDG 7 0.0 KW 0.0 KVAR **** NO LOAD SPECIFIED **** ==== BUS: 910 BLDG 7 ATS_L DESIGN VOLTS: 480 BUS VOLTS: 431 %VD: 10.16$ ========================= PU BUS VOLTAGE: 0.898 ANGLE: -34.4 DEGREES LOAD FROM: 902 BLDG 7 ATS_N BLDG 7 ATS FEEDER AMPS: 349.4 VOLTAGE DROP: 0. %VD: 0.02 PROJECTED POWER FLOW: 208.4 KW 157.1 KVAR 261.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.1 KVAR 0.1 KVA LOAD TO: 911 ATS 7 ECB CBL-0236 FEEDER AMPS: 349.4 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 208.4 KW 157.1 KVAR 261.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.2 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 911 ATS 7 ECB DESIGN VOLTS: 480 BUS VOLTS: 431 %VD: 10.22$ ========================= PU BUS VOLTAGE: 0.898 ANGLE: -34.4 DEGREES LOAD TO: 912 MCC CBL-0241 FEEDER AMPS: 349.4 VOLTAGE DROP: 3. %VD: 0.53 PROJECTED POWER FLOW: 208.3 KW 157.0 KVAR 260.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.9 KW 1.4 KVAR 1.7 KVA LOAD FROM: 910 BLDG 7 ATS_L CBL-0236 FEEDER AMPS: 349.4 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 208.3 KW 157.0 KVAR 260.9 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.1 KVAR 0.2 KVA ==== BUS: 912 MCC DESIGN VOLTS: 480 BUS VOLTS: 428 %VD: 10.75$ ========================= PU BUS VOLTAGE: 0.892 ANGLE: -34.5 DEGREES NET BRANCH DIVERSITY LOAD: 176.8 KW 132.6 KVAR LOAD TO: 913 ELEVATOR ECB CBL-0237 FEEDER AMPS: 11.2 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 6.7 KW 5.0 KVAR 8.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD FROM: 911 ATS 7 ECB CBL-0241 FEEDER AMPS: 349.4 VOLTAGE DROP: 3. %VD: 0.53 PROJECTED POWER FLOW: 207.5 KW 155.6 KVAR 259.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.9 KW 1.4 KVAR 1.7 KVA LOAD FROM: 912A PNL LP CBL-0490 FEEDER AMPS: 0.0 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 0.0 KW 0.0 KVAR 0.0 KVA PF:0.00 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: BUS-0531 CBL-0496 FEEDER AMPS: 40.4 VOLTAGE DROP: 0. %VD: 0.01 PROJECTED POWER FLOW: 24.0 KW 18.0 KVAR 30.0 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 912A PNL LP DESIGN VOLTS: 480 BUS VOLTS: 428 %VD: 10.75$ ========================= PU BUS VOLTAGE: 0.892 ANGLE: -34.5 DEGREES **** NO LOAD SPECIFIED ****

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 913 ELEVATOR ECB DESIGN VOLTS: 480 BUS VOLTS: 428 %VD: 10.76$ ========================= PU BUS VOLTAGE: 0.892 ANGLE: -34.5 DEGREES LOAD FROM: 912 MCC CBL-0237 FEEDER AMPS: 11.2 VOLTAGE DROP: 0. %VD: 0.00 PROJECTED POWER FLOW: 6.7 KW 5.0 KVAR 8.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 914 ELE CBL-0238 FEEDER AMPS: 11.2 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 6.7 KW 5.0 KVAR 8.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 914 ELE DESIGN VOLTS: 480 BUS VOLTS: 428 %VD: 10.80$ ========================= PU BUS VOLTAGE: 0.892 ANGLE: -34.5 DEGREES NET BRANCH DIVERSITY LOAD: 6.7 KW 5.0 KVAR LOAD FROM: 913 ELEVATOR ECB CBL-0238 FEEDER AMPS: 11.2 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 6.7 KW 5.0 KVAR 8.3 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA ==== BUS: 916 PNL 1 DESIGN VOLTS: 208 BUS VOLTS: 175 %VD: 15.89$ ========================= PU BUS VOLTAGE: 0.841 ANGLE: -66.6 DEGREES LOAD FROM: 915 CBL-0249 FEEDER AMPS: 476.7 VOLTAGE DROP: 0. %VD: 0.21 PROJECTED POWER FLOW: 115.8 KW 86.5 KVAR 144.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.4 KW 0.1 KVAR 0.4 KVA LOAD TO: 918 PNL M CBL-0251 FEEDER AMPS: 81.2 VOLTAGE DROP: 1. %VD: 0.44 PROJECTED POWER FLOW: 19.7 KW 14.7 KVAR 24.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD TO: 919 PNL K CBL-0252 FEEDER AMPS: 56.7 VOLTAGE DROP: 0. %VD: 0.22 PROJECTED POWER FLOW: 13.8 KW 10.3 KVAR 17.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD TO: 922 NEW OFFICE ECB CBL-0254 FEEDER AMPS: 183.6 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 44.5 KW 33.4 KVAR 55.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 921 GARAGE PANEL CBL-0469 FEEDER AMPS: 57.3 VOLTAGE DROP: 2. %VD: 1.12 PROJECTED POWER FLOW: 14.0 KW 10.4 KVAR 17.4 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.1 KVAR 0.3 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 LOAD TO: 917 PANEL PP02 CBL-0466 FEEDER AMPS: 56.7 VOLTAGE DROP: 0. %VD: 0.22 PROJECTED POWER FLOW: 13.8 KW 10.3 KVAR 17.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA LOAD TO: 920 PNL J CBL-0253 FEEDER AMPS: 41.0 VOLTAGE DROP: 3. %VD: 1.34 PROJECTED POWER FLOW: 10.0 KW 7.4 KVAR 12.4 KVA PF:0.81 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.0 KVAR 0.2 KVA ==== BUS: 917 PANEL PP02 DESIGN VOLTS: 208 BUS VOLTS: 174 %VD: 16.11$ ========================= PU BUS VOLTAGE: 0.839 ANGLE: -66.5 DEGREES NET BRANCH DIVERSITY LOAD: 13.7 KW 10.3 KVAR LOAD FROM: 916 PNL 1 CBL-0466 FEEDER AMPS: 56.7 VOLTAGE DROP: 0. %VD: 0.22 PROJECTED POWER FLOW: 13.7 KW 10.3 KVAR 17.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA ==== BUS: 918 PNL M DESIGN VOLTS: 208 BUS VOLTS: 174 %VD: 16.33$ ========================= PU BUS VOLTAGE: 0.837 ANGLE: -66.4 DEGREES NET BRANCH DIVERSITY LOAD: 19.6 KW 14.7 KVAR LOAD FROM: 916 PNL 1 CBL-0251 FEEDER AMPS: 81.2 VOLTAGE DROP: 1. %VD: 0.44 PROJECTED POWER FLOW: 19.6 KW 14.7 KVAR 24.5 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA ==== BUS: 919 PNL K DESIGN VOLTS: 208 BUS VOLTS: 174 %VD: 16.11$ ========================= PU BUS VOLTAGE: 0.839 ANGLE: -66.5 DEGREES NET BRANCH DIVERSITY LOAD: 13.7 KW 10.3 KVAR LOAD FROM: 916 PNL 1 CBL-0252 FEEDER AMPS: 56.7 VOLTAGE DROP: 0. %VD: 0.22 PROJECTED POWER FLOW: 13.7 KW 10.3 KVAR 17.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.1 KW 0.0 KVAR 0.1 KVA ==== BUS: 920 PNL J DESIGN VOLTS: 208 BUS VOLTS: 172 %VD: 17.22$ ========================= PU BUS VOLTAGE: 0.828 ANGLE: -66.0 DEGREES NET BRANCH DIVERSITY LOAD: 9.8 KW 7.3 KVAR LOAD FROM: 916 PNL 1 CBL-0253 FEEDER AMPS: 41.0 VOLTAGE DROP: 3. %VD: 1.34 PROJECTED POWER FLOW: 9.8 KW 7.3 KVAR 12.2 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.0 KVAR 0.2 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: 921 GARAGE PANEL DESIGN VOLTS: 208 BUS VOLTS: 173 %VD: 17.01$ ========================= PU BUS VOLTAGE: 0.830 ANGLE: -66.3 DEGREES NET BRANCH DIVERSITY LOAD: 13.7 KW 10.3 KVAR LOAD FROM: 916 PNL 1 CBL-0469 FEEDER AMPS: 57.3 VOLTAGE DROP: 2. %VD: 1.12 PROJECTED POWER FLOW: 13.7 KW 10.3 KVAR 17.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.2 KW 0.1 KVAR 0.3 KVA ==== BUS: 922 NEW OFFICE ECB DESIGN VOLTS: 208 BUS VOLTS: 175 %VD: 15.93$ ========================= PU BUS VOLTAGE: 0.841 ANGLE: -66.6 DEGREES LOAD FROM: 916 PNL 1 CBL-0254 FEEDER AMPS: 183.6 VOLTAGE DROP: 0. %VD: 0.05 PROJECTED POWER FLOW: 44.5 KW 33.4 KVAR 55.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.0 KW 0.0 KVAR 0.0 KVA LOAD TO: 923 NEW OFFICE PANEL (Panel A) CBL-0412 FEEDER AMPS: 183.6 VOLTAGE DROP: 2. %VD: 0.74 PROJECTED POWER FLOW: 44.5 KW 33.4 KVAR 55.6 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.4 KW 0.3 KVAR 0.5 KVA ==== BUS: 923 NEW OFFICE PANEL (Panel A) DESIGN VOLTS: 208 BUS VOLTS: 173 %VD: 16.67$ ========================= PU BUS VOLTAGE: 0.833 ANGLE: -66.6 DEGREES NET BRANCH DIVERSITY LOAD: 44.1 KW 33.1 KVAR LOAD FROM: 922 NEW OFFICE ECB CBL-0412 FEEDER AMPS: 183.6 VOLTAGE DROP: 2. %VD: 0.74 PROJECTED POWER FLOW: 44.1 KW 33.1 KVAR 55.1 KVA PF:0.80 LAGGING LOSSES THRU FEEDER: 0.4 KW 0.3 KVAR 0.5 KVA ==== BUS: BLDG 15 GEN DESIGN VOLTS: 208 BUS VOLTS: 208 %VD: 0.00 ========================= PU BUS VOLTAGE: 1.000 ANGLE: 0.0 DEGREES *** SWING GENERATOR: BLDG 15 GEN 0.0 KW 0.0 KVAR **** NO LOAD SPECIFIED **** ==== BUS: BLDG 18 DESIGN VOLTS: 208 BUS VOLTS: 208 %VD: 0.00 ========================= PU BUS VOLTAGE: 1.000 ANGLE: 0.0 DEGREES *** SWING GENERATOR: BLDG 18 0.0 KW 0.0 KVAR **** NO LOAD SPECIFIED ****

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW ANALYSIS ***************************************************************************************************************************** VOLTAGE EFFECT ON LOADS MODELED VOLTAGE DROP CRITERIA: BRANCH = 3.00 % BUS = 5.00 ==== BUS: BLDG 7 DESIGN VOLTS: 480 BUS VOLTS: 480 %VD: 0.00 ========================= PU BUS VOLTAGE: 1.000 ANGLE: 0.0 DEGREES *** SWING GENERATOR: BLDG 7 0.0 KW 0.0 KVAR **** NO LOAD SPECIFIED **** ==== BUS: CLINICAL ADDITION DESIGN VOLTS: 480 BUS VOLTS: 480 %VD: 0.00 ========================= PU BUS VOLTAGE: 1.000 ANGLE: 0.0 DEGREES *** SWING GENERATOR: CLINICAL ADDITION 0.0 KW 0.0 KVAR **** NO LOAD SPECIFIED **** ==== BUS: GEN BLDG 17 DESIGN VOLTS: 208 BUS VOLTS: 208 %VD: 0.00 ========================= PU BUS VOLTAGE: 1.000 ANGLE: 0.0 DEGREES *** SWING GENERATOR: GEN BLDG 17 0.0 KW 0.0 KVAR **** NO LOAD SPECIFIED **** ==== BUS: UTIL-#141 FDR DESIGN VOLTS: 12000 BUS VOLTS: 12000 %VD: 0.00 ========================= PU BUS VOLTAGE: 1.000 ANGLE: 0.0 DEGREES *** SWING GENERATOR: UTIL-#141 FDR 6452.0 KW 5715.9 KVAR LOAD TO: 001 NEW SUBSTATION SWGR FEEDER AMPS: 414.7 VOLTAGE DROP: 946. %VD: 7.88$ PROJECTED POWER FLOW: 6452.0 KW 5715.9 KVAR 8619.7 KVA PF:0.75 LAGGING LOSSES THRU FEEDER: 228.6 KW 784.2 KVAR 816.9 KVA

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW BUS DATA SUMMARY ************************************************************************************************************ BUS NAME BASE VOLT PU VOLT BUS NAME BASE VOLT PU VOLT 001 NEW SUBSTATION SWGR 12000.00 0.9212 002 MV SWITCH #1 12000.00 0.9210 003 XFMR T-13A PRI 12000.00 0.9209 004 XFMR T-13B PRI 12000.00 0.9209 005 MV SWITCH #2 12000.00 0.9198 006 SWITCH A7 12000.00 0.9198 007 MV SWITCH #3 12000.00 0.9192 008 SWITCH A4 12000.00 0.9191 009 XFMR T-15 PRI 12000.00 0.9191 010 MV SWITCH #7 12000.00 0.9205 011 TAP 12000.00 0.9205 012 XFMR T-1A-1 PRI 12000.00 0.9205 013 XFMR T-1A-2 PRI 12000.00 0.9205 014 XFMR T-1A-3 PRI 12000.00 0.9205 015 MV SWITCH #6 12000.00 0.9194 016 XFMR T-7 PRI 12000.00 0.9194 017 MV SWITCH #5 12000.00 0.9191 018 SWITCH 137P19 12000.00 0.9191 019 SWITCH B6 12000.00 0.9191 020 SWITCH A1 12000.00 0.9191 021 MV SWITCH #4 12000.00 0.9191 022 SWITCH B2 12000.00 0.9187 023 XFMR T-1-4 PRI 12000.00 0.9191 024 SWITCH 141P26 12000.00 0.9190 025 SWITCH A6 12000.00 0.9191 101 MDSB-A 480.00 0.8751 102 LP-GA 480.00 0.8734 103 LP-GB 480.00 0.8713 104 LP-1A 480.00 0.8731 105 LP-1B 480.00 0.8716 106 LP-2B 480.00 0.8743 107 ECB 2160 480.00 0.8740 108 ECB 2148 480.00 0.8738 109 ECB 2149 480.00 0.8739 110 ECB 2163 480.00 0.8741 111 MCC-GB 480.00 0.8735 111A 480.00 0.8720 111B 480.00 0.8727 112 MCC-2B 480.00 0.8747 113 ATS-E1_N 480.00 0.8730 114 ATS-E2_N 480.00 0.8735 115 ATS-E3_N 480.00 0.8738 116 CLINICAL ADD EM GEN 480.00 1.0000 117 EDP-GA 480.00 1.0000 118 ATS-E2_E 480.00 1.0000 119 ATS-E3_E 480.00 1.0000 120 ATS-E1_E 480.00 1.0000 121 ATS-E1_L 480.00 0.8729 122 E1DP-GA 480.00 0.8724 123 E1LP-GB 480.00 0.8691 124 E1LP-1B 480.00 0.8677 125 E1LP-2B 480.00 0.8673 126 ATS-E2_L 480.00 0.8734 127 E2DP-GA 480.00 0.8730 128 ECB 480.00 0.8667 129 E2LP-GA 480.00 0.8667 130 E2LP-1A 480.00 0.8657 131 E2LP-2B 480.00 0.8648 132 E2LP-2C 480.00 0.8652 133 2143 ECB 480.00 0.8647 134 ATS-E3_L 480.00 0.8737 135 E3DP-GA 480.00 0.8734 136 OR CHILLER 480.00 0.8722 137 E3LP-GA CONTACTOR 480.00 0.8712 138 E3LP-GA 480.00 0.8710 139 EMCC-GB 480.00 0.8729 140 E3LP-2B 480.00 0.8699 141 CONTACTOR 480.00 0.8698 150 MDSB-B 208.00 0.8897 151 RP-GA 208.00 0.8832 152 RP-1B 208.00 0.8754 153 RP-1A 208.00 0.8817 154 RP-GB 208.00 0.8773 155 RP-2B 208.00 0.8817 160 MDSB-C 480.00 0.9144 161 CHILLER #1 480.00 0.9136 162 CHILLER #2 480.00 0.9137 170 XFMR T-1-1 SEC 208.00 0.8714 171 MAIN SG A 208.00 0.8714 172 PPGM-A AC SHOP 208.00 0.8583

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW BUS DATA SUMMARY ***************************************************************************** BUS NAME BASE VOLT PU VOLT BUS NAME BASE VOLT PU VOLT 173 TAP 208.00 0.8564 174 LP7A-1 208.00 0.8563 175 TAP 208.00 0.8562 176 LP8B 208.00 0.8561 177 TAP 208.00 0.8510 178 LP7A 208.00 0.8509 179 LP7A1 208.00 0.8508 180 TAP 208.00 0.8509 181 LP8A 208.00 0.8508 182 PNL A 208.00 0.8606 183 LP6B 208.00 0.8620 184 LP6B2 208.00 0.8620 185 TAP 208.00 0.8585 186 LP5A-LH 208.00 0.8585 187 LP5A-RH 208.00 0.8585 188 LP5A2 208.00 0.8578 189 TAP 208.00 0.8528 190 LP6A-LH 208.00 0.8527 191 LP6A-RH 208.00 0.8527 192 TAP 208.00 0.8567 193 PP RM1134 208.00 0.8565 194 PPGL 208.00 0.8678 195 PP2K-B 208.00 0.8605 195A CONTACTOR 208.00 0.8605 195B PANEL 208.00 0.8605 196 ELEVATOR TAP 208.00 0.8540 197 ELE 1 ATS_N 208.00 0.8536 198 ELE 2 ATS_N 208.00 0.8536 205 XRAY B 208.00 0.8633 205A RP2G 208.00 0.8620 205B 2H 208.00 0.8617 205C 2J 208.00 0.8617 205D RP2K 208.00 0.8617 206 208.00 0.8628 207 ELE 3 ATS_N 208.00 0.8623 210 TAP 208.00 0.8389 211 PPGB 208.00 0.8389 212 LPGA 208.00 0.8388 213 TAP 208.00 0.8380 214 RP-1C-1 208.00 0.8376 215 RP-1C-2 208.00 0.8375 216 TAP 208.00 0.8578 217 LP2A-LH 208.00 0.8577 218 LP2A-RH 208.00 0.8577 219 TAP 208.00 0.8575 220 LP3A-LH 208.00 0.8575 221 LP3A-RH 208.00 0.8575 223 LP4A-1 208.00 0.8503 224 LP4A-2 208.00 0.8501 225 TAP 208.00 0.8668 226 LP2B 208.00 0.8665 227 E2-4B 208.00 0.8611 228 CAPACITOR A 208.00 0.8745 229 ELE 1 ATS_L 208.00 0.8535 230 ELE#1 ECB 208.00 0.8484 231 ELE#1 208.00 0.8456 233 ELE 2 ATS_L 208.00 0.8535 234 ELE#2 ECB 208.00 0.8484 235 ELE#2 208.00 0.8456 236 ELE 3 ATS_L 208.00 0.8623 237 ELE#3 ECB 208.00 0.8572 238 ELE#3 208.00 0.8545 240 XFMR T-1-2 SEC 208.00 0.8713 241 MAIN SG B 208.00 0.8712 242 DP ECB 208.00 0.8681 243 PANEL DP 208.00 0.8675 244 ATS 7_N 208.00 0.8635 245 ATS 9_N 208.00 0.8664 246 ATS 8_N 208.00 0.8650 247 ATS 10_N 208.00 0.8673 248 LP3 208.00 0.8620 249 TAP 208.00 0.8453 250 LPGB 208.00 0.8452 251 LPGP 208.00 0.8419 252 LP-GP 208.00 0.8391 253 LP1D JB 208.00 0.8444 254 RP-1D-1 208.00 0.8418 255 RP-1D-2 208.00 0.8417 256 TAP 208.00 0.8607 257 LP1B 208.00 0.8606

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW BUS DATA SUMMARY ***************************************************************************** BUS NAME BASE VOLT PU VOLT BUS NAME BASE VOLT PU VOLT 258 TAP 208.00 0.8603 259 LP2A 208.00 0.8602 260 LP2D 208.00 0.8602 261 TAP 208.00 0.8574 262 LP6C 208.00 0.8574 263 TAP 208.00 0.8567 264 LP7C 208.00 0.8567 265 TAP 208.00 0.8562 266 LP8C 208.00 0.8561 267 TAP 208.00 0.8559 268 LP9C1 208.00 0.8558 269 LP9C 208.00 0.8559 270 TAP 208.00 0.8601 271 LPGC-B 208.00 0.8601 272 LPGC-C 208.00 0.8598 273 LPGC-A 208.00 0.8601 277 TAP 208.00 0.8597 278 LP1C 208.00 0.8597 279 TAP 208.00 0.8595 280 LP2C-A 208.00 0.8594 281 LP2C 208.00 0.8594 282 TAP 208.00 0.8639 283 LP3C 208.00 0.8638 284 TAP 208.00 0.8637 285 LP4C 208.00 0.8636 286 TAP 208.00 0.8635 287 LP5C 208.00 0.8635 288 PPGM-B AC SHOP 208.00 0.8606 289 TAP 208.00 0.8694 290 PPGN-C 208.00 0.8688 291 PPGN-B 208.00 0.8693 293 PPGN-A 208.00 0.8693 294 XRAY 2FL 208.00 0.8623 295 TAP 208.00 0.8586 296 PNL C 208.00 0.8586 297 LP2L 208.00 0.8585 298 PP2K 208.00 0.8586 299 TAP 208.00 0.8580 300 PP4K 208.00 0.8579 301 PP5K 208.00 0.8578 302 TAP 208.00 0.8642 303 PP10N 208.00 0.8640 304 PP9M 208.00 0.8641 305 CAPACITOR B 208.00 0.8743 306 TAP 208.00 0.8573 307 LP5B-LH 208.00 0.8573 308 LP5B-RH 208.00 0.8573 309 PPGK 208.00 0.8675 310 TAP 208.00 0.8599 311 PP6K 208.00 0.8599 312 TAP 208.00 0.8596 313 PP8K 208.00 0.8594 314 PP7K 208.00 0.8595 320 AC SWBD 480.00 0.8791 321 LPGE 480.00 0.8751 322 LP-8E 480.00 0.8594 323 HP-9M 480.00 0.8685 324 MCC IN AC ROOM 480.00 0.8781 330 XFMR T-1-4 SEC 208.00 0.8447 331 DIETETICS ECB 208.00 0.8331 332 KDP 208.00 0.8318 333 FOOD TRAY 208.00 0.8204 334 KPA 208.00 0.8237 335 KPD 208.00 0.8196 336 KLP 208.00 0.8246 337 UTIL DIST 208.00 0.8225 338 PP 208.00 0.8279 340 XRAY SUBSTATION 480.00 0.8554 341 PANEL A 480.00 0.8369 401 BLDG 18 EMERG GEN 208.00 1.0000 402 MAIN BRKR 208.00 1.0000 403 CRITICAL BRKR 208.00 1.0000 404 BLDG18 CRITICAL EMERGENCY 208.00 1.0000 405 ATS 1_E 208.00 1.0000 406 ATS 3_E 208.00 1.0000 407 ATS 4_E 208.00 1.0000 408 ATS 2_E 208.00 1.0000 409 ATS 6_E 208.00 1.0000 410 DPE BRKR 208.00 1.0000 411 DPE 208.00 1.0000

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW BUS DATA SUMMARY ***************************************************************************** BUS NAME BASE VOLT PU VOLT BUS NAME BASE VOLT PU VOLT 412 ATS 7_E 208.00 1.0000 413 ATS 9_E 208.00 1.0000 415 ATS 8_E 208.00 1.0000 416 ATS 10_E 208.00 1.0000 417 ATS 7_L 208.00 0.8634 418 EDP1 208.00 0.8627 419 PLGN 208.00 0.8582 420 PL5N 208.00 0.8566 421 PL1N 208.00 0.8579 422 PL6N 208.00 0.8563 423 PL2N 208.00 0.8576 424 PL7N 208.00 0.8559 425 PL3N 208.00 0.8572 426 PL8N 208.00 0.8556 427 PL4N 208.00 0.8569 428 EC3 208.00 0.8494 429 E2-4W SEC#1 208.00 0.8552 430 CB3W 208.00 0.8503 431 CBME 208.00 0.8501 432 ATS 9_L 208.00 0.8664 433 LP9C 208.00 0.8538 434 ATS 8_L 208.00 0.8650 435 EDP 208.00 0.8648 436 LPGN-N 208.00 0.8622 437 LP1N-N 208.00 0.8620 438 LP2N-N 208.00 0.8618 439 LP3N-N 208.00 0.8616 440 LP4N-N 208.00 0.8615 441 LP5N-N 208.00 0.8613 442 LP6N-N 208.00 0.8611 443 LP7N-N 208.00 0.8609 444 LP8N-N 208.00 0.8607 445 ATS 10_L 208.00 0.8673 446 EE3 208.00 0.8604 450 XFMR T-13A SEC 208.00 0.8869 451 BUG 208.00 0.8828 452 EMG PANEL 208.00 0.8825 453 UNMARKED PANEL 208.00 0.8828 454 POWER PANEL 208.00 0.8824 455 400A DISCONNECT 208.00 0.8658 456 LP-1 208.00 0.8823 457 PNL A (LP-2) 208.00 0.8632 458 NEW EQ CTR 208.00 0.8780 459 PNL B (OL) 208.00 0.8762 460 XFMR T-13B SEC 208.00 0.9000 461 NON-FUSED DISCONNECT 208.00 0.8975 462 CP1 208.00 0.8890 500 XFMR T-19B SEC 208.00 0.8605 501 XFMR T-19A SEC 208.00 0.8844 502 CRITICAL SWBD BLDG #18 208.00 0.8551 503 ATS 1_N 208.00 0.8377 504 ATS 3_N 208.00 0.8551 505 LP1 208.00 0.8529 506 ATS 4_N 208.00 0.8523 507 ATS 2_N 208.00 0.8523 508 ATS 6_N 208.00 0.8533 509 ATS 1_L 208.00 0.8377 510 EDP-E 208.00 0.8340 511 EDPA 208.00 0.8337 512 LP1N-0 208.00 0.8234 512A TAP 208.00 0.8234 513 LPGN-0 208.00 0.8232 514 LP2N-0 208.00 0.8229 514A TAP 208.00 0.8230 515 LP3N-0 208.00 0.8227 516 LP4N-0 208.00 0.8206 516A TAP 208.00 0.8207 517 LP5N-0 208.00 0.8199 517A TAP 208.00 0.8199 518 LP6N-0 208.00 0.8194 518A TAP 208.00 0.8194 519 LP7N-0 208.00 0.8190 519A TAP 208.00 0.8191 520 LP8N-0 208.00 0.8189 521 ATS 3_L 208.00 0.8551 522 ELE 4 ECB 208.00 0.8551 523 ATS 4_L 208.00 0.8523 524 LP2 208.00 0.8517 525 ATS 2_L 208.00 0.8523 526 AOV 208.00 0.8365

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW BUS DATA SUMMARY ***************************************************************************** BUS NAME BASE VOLT PU VOLT BUS NAME BASE VOLT PU VOLT 527 KP ECB 208.00 0.8360 528 KP 208.00 0.8338 529 ATS 6_L 208.00 0.8533 530 LP5-N1 "HEMO" 208.00 0.8315 601 BLDG 17 MN 208.00 0.8757 602 ATS BLDG 17_N 208.00 0.8731 603 PNL A 208.00 0.8512 604 PNL B 208.00 0.8521 605 PNL C 208.00 0.8626 606 RPB 208.00 0.8664 607 RPA 208.00 0.8662 608 MDS (ICEHOUSE) 208.00 0.8732 609 21-LP 208.00 0.8700 610 UNLABELED PNL 208.00 0.8697 611 208.00 1.0000 612 BLDG 17 EM CB 208.00 1.0000 613 208.00 1.0000 614 ATS BLDG 17_L 208.00 0.8730 615 EDP (BLDG 17) 208.00 0.8728 616 AE 208.00 0.8469 617 CONTACTOR AE 208.00 0.8463 617A PNL AE1 208.00 0.8460 618 BE 208.00 0.8478 619 CE 208.00 0.8592 620 EM MAIN 208.00 0.8720 621 EM 208.00 0.8699 701 XFMR T-5 SEC 208.00 0.8975 702 BLDG 5 MTR PNL 208.00 0.8924 703 PNL D 208.00 0.8914 704 PNL C 208.00 0.8900 705 PNL B 208.00 0.8909 706 PNL IN HALL 208.00 0.8889 707 BLDG 2 208.00 0.8694 708 RP3 208.00 0.8765 709 RP4 208.00 0.8848 801 XFMR T-15 SEC 208.00 0.8321 802 MN TAP 208.00 0.8282 803 BLDG 15 SWGR 208.00 0.8281 805 J BOX 208.00 0.8106 806 2LP 208.00 0.8094 807 LP1 (ILD) 208.00 0.8105 808 J BOX 208.00 0.8187 809 PNL A 208.00 0.8184 810 SPLICE BOX ON WALL 208.00 0.8098 811 RM 213 208.00 0.8046 812 ACP 208.00 0.8271 812A CHILLER 208.00 0.8235 813 BLDG 10 GARAGE 208.00 0.8129 815 ELE DISC 208.00 0.8281 816 J BOX 208.00 0.8169 817 PNL K 208.00 0.8166 818 PNL M 208.00 0.8163 819 J BOX 208.00 0.8226 820 PNL D 208.00 0.8219 821 J BOX 208.00 0.8144 822 PNL E 208.00 0.8141 823 PNL F 208.00 0.8137 824 J BOX 208.00 0.8144 825 PNL I 208.00 0.8141 826 PNL J 208.00 0.8137 827 J BOX 208.00 0.8118 828 PNL G 208.00 0.8117 829 PNL H 208.00 0.8117 830 ATS 15 ECB 208.00 0.8272 831 ATS 15_N 208.00 0.8238 832 BLDG 15 EMERG GEN 208.00 1.0000 833 208.00 1.0000 834 ATS 15_L 208.00 0.8237 835 EMER DISTRIBUTION PANEL 208.00 0.8233 837 KENNEL (K-EP BLDG 10) 208.00 0.8130 839 GEN RM PNL 208.00 0.8210 840 DATA CENTER 208.00 0.8210 841 MAIN PANEL 208.00 0.8137 842 RP1 208.00 0.8119 843 RDU 208.00 0.8060 844 CRAC 2-1 208.00 0.8109 845 CRAC 2-2 208.00 0.8080 846 CRAC 2-3 208.00 0.8061 900 XFMR T-7 SEC 480.00 0.8996 901 BLDG 7 MN SWGR 480.00 0.8988

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY BALANCED VOLTAGE DROP AND LOAD FLOW BUS DATA SUMMARY ***************************************************************************** BUS NAME BASE VOLT PU VOLT BUS NAME BASE VOLT PU VOLT 902 BLDG 7 ATS_N 480.00 0.8985 903 BLDG 10 480.00 0.8904 903A 480.00 0.8902 904 BLDG 6 ECB 480.00 0.8931 905 LOADING DOCK ECB 480.00 0.8951 906 WAREHOUSE ECB 480.00 0.8962 907 BLDG 7 EMERG GEN 480.00 1.0000 908 ATS BLDG 7_E 480.00 1.0000 910 BLDG 7 ATS_L 480.00 0.8984 911 ATS 7 ECB 480.00 0.8978 912 MCC 480.00 0.8925 912A PNL LP 480.00 0.8925 913 ELEVATOR ECB 480.00 0.8924 914 ELE 480.00 0.8920 915 208.00 0.8433 916 PNL 1 208.00 0.8411 917 PANEL PP02 208.00 0.8389 918 PNL M 208.00 0.8367 919 PNL K 208.00 0.8389 920 PNL J 208.00 0.8278 921 GARAGE PANEL 208.00 0.8299 922 NEW OFFICE ECB 208.00 0.8407 BLDG 18 208.00 1.0000 BLDG 7 480.00 1.0000 BUS-0531 480.00 0.8924 BUS-0553 208.00 0.8283 CLINICAL ADDITION 480.00 1.0000 GEN BLDG 17 208.00 1.0000 UTIL-#141 FDR 12000.00 1.0000 BALANCED VOLTAGE DROP AND LOAD FLOW BRANCH DATA SUMMARY ************************************************************************************************************ FROM NAME TO NAME TYPE VD% AMPS KVA RATING% 001 NEW SUBSTATION SWGR 002 MV SWITCH #1 FDR 0.02 184.80 3538.34 62.64 001 NEW SUBSTATION SWGR 010 MV SWITCH #7 FDR 0.07 230.27 4409.00 78.06 002 MV SWITCH #1 003 XFMR T-13A PRI FDR 0.00 11.65 223.06 4.50 002 MV SWITCH #1 004 XFMR T-13B PRI FDR 0.00 4.68 89.57 1.81 002 MV SWITCH #1 005 MV SWITCH #2 FDR 0.11 168.49 3225.14 50.00 003 XFMR T-13A PRI 450 XFMR T-13A SEC TX2 3.40 11.65 223.05 99.13 004 XFMR T-13B PRI 460 XFMR T-13B SEC TX2 2.10 4.68 89.57 79.62 005 MV SWITCH #2 006 SWITCH A7 FDR 0.01 26.27 502.18 11.42 005 MV SWITCH #2 007 MV SWITCH #3 FDR 0.06 142.28 2720.17 48.23 006 SWITCH A7 601 BLDG 17 MN TX2 4.41 26.27 502.15 100.43 007 MV SWITCH #3 008 SWITCH A4 FDR 0.00 7.83 149.67 3.41 007 MV SWITCH #3 009 XFMR T-15 PRI FDR 0.01 36.73 701.77 15.97 007 MV SWITCH #3 021 MV SWITCH #4 FDR 0.01 97.93 1870.89 33.20 008 SWITCH A4 701 XFMR T-5 SEC TX2 2.16 7.83 149.66 99.77 009 XFMR T-15 PRI 801 XFMR T-15 SEC TX2 8.71 36.73 701.73 93.56 010 MV SWITCH #7 015 MV SWITCH #6 FDR 0.11 150.67 2882.83 51.07 010 MV SWITCH #7 011 TAP FDR 0.00 79.64 1523.75 34.63 011 TAP 014 XFMR T-1A-3 PRI FDR 0.00 5.69 108.81 2.47 011 TAP 013 XFMR T-1A-2 PRI FDR 0.00 21.28 407.09 9.25

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011 TAP 012 XFMR T-1A-1 PRI FDR 0.00 52.68 1007.87 22.90 012 XFMR T-1A-1 PRI 101 MDSB-A TX2 4.54 52.68 1007.87 100.79 013 XFMR T-1A-2 PRI 150 MDSB-B TX2 3.08 21.28 407.09 81.42 014 XFMR T-1A-3 PRI 160 MDSB-C TX2 0.61 5.69 108.81 14.51 015 MV SWITCH #6 016 XFMR T-7 PRI FDR 0.01 34.04 650.57 14.80

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 015 MV SWITCH #6 017 MV SWITCH #5 FDR 0.03 116.67 2229.66 39.55 016 XFMR T-7 PRI 900 XFMR T-7 SEC TX2 1.98 34.04 650.51 43.37 017 MV SWITCH #5 019 SWITCH B6 FDR 0.00 11.75 224.37 5.11 017 MV SWITCH #5 020 SWITCH A1 FDR 0.00 37.67 719.59 16.38 017 MV SWITCH #5 018 SWITCH 137P19 FDR 0.00 39.64 757.23 17.23 017 MV SWITCH #5 021 MV SWITCH #4 FDR 0.00 28.76 549.41 9.75 018 SWITCH 137P19 240 XFMR T-1-2 SEC TX2 4.78 39.64 757.20 100.96 019 SWITCH B6 500 XFMR T-19B SEC TX2 5.86 11.75 224.36 99.72 020 SWITCH A1 340 XRAY SUBSTATION TX2 6.37 37.67 719.56 71.96 021 MV SWITCH #4 022 SWITCH B2 FDR 0.03 69.66 1330.77 30.29 021 MV SWITCH #4 024 SWITCH 141P26 FDR 0.01 39.66 757.68 17.25 021 MV SWITCH #4 023 XFMR T-1-4 PRI FDR 0.00 15.64 298.70 6.80 021 MV SWITCH #4 025 SWITCH A6 FDR 0.00 0.00 0.00 0.00 022 SWITCH B2 320 AC SWBD TX2 3.96 69.66 1330.28 88.69 023 XFMR T-1-4 PRI 330 XFMR T-1-4 SEC TX2 7.44 15.64 298.69 99.56 024 SWITCH 141P26 170 XFMR T-1-1 SEC TX2 4.76 39.66 757.63 101.02 025 SWITCH A6 501 XFMR T-19A SEC TX2 3.46 0.00 0.00 0.00 101 MDSB-A 114 ATS-E2_N FDR 0.16 249.61 181.59 UNKNOWN 101 MDSB-A 115 ATS-E3_N FDR 0.12 347.03 252.47 UNKNOWN 101 MDSB-A 102 LP-GA FDR 0.16 41.22 29.99 UNKNOWN 101 MDSB-A 111 MCC-GB FDR 0.16 228.74 166.41 UNKNOWN 101 MDSB-A 104 LP-1A FDR 0.20 41.23 30.00 UNKNOWN 101 MDSB-A 103 LP-GB FDR 0.37 41.32 30.06 UNKNOWN 101 MDSB-A 105 LP-1B FDR 0.35 41.30 30.05 UNKNOWN 101 MDSB-A 106 LP-2B FDR 0.07 72.09 52.44 UNKNOWN 101 MDSB-A 112 MCC-2B FDR 0.03 16.50 12.00 UNKNOWN 101 MDSB-A 113 ATS-E1_N FDR 0.21 237.95 173.11 UNKNOWN 106 LP-2B 107 ECB 2160 FDR 0.04 18.02 13.10 UNKNOWN 106 LP-2B 108 ECB 2148 FDR 0.05 18.02 13.10 UNKNOWN 106 LP-2B 109 ECB 2149 FDR 0.05 18.02 13.10 UNKNOWN 106 LP-2B 110 ECB 2163 FDR 0.03 18.02 13.10 UNKNOWN 111 MCC-GB 111A FDR 0.15 68.97 50.08 UNKNOWN 111 MCC-GB 111B FDR 0.07 34.46 25.02 UNKNOWN 113 ATS-E1_N 121 ATS-E1_L 0.01 237.95 172.70 UNKNOWN 114 ATS-E2_N 126 ATS-E2_L 0.01 249.61 181.26 UNKNOWN 115 ATS-E3_N 134 ATS-E3_L 0.02 347.03 252.12 UNKNOWN 116 CLINICAL ADD EM GEN 117 EDP-GA FDR 0.00 0.00 0.00 UNKNOWN 117 EDP-GA 120 ATS-E1_E FDR 0.00 0.00 0.00 UNKNOWN 117 EDP-GA 118 ATS-E2_E FDR 0.00 0.00 0.00 UNKNOWN 117 EDP-GA 119 ATS-E3_E FDR 0.00 0.00 0.00 UNKNOWN

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 121 ATS-E1_L 113 ATS-E1_N 0.01 237.95 172.68 UNKNOWN 121 ATS-E1_L 122 E1DP-GA FDR 0.04 237.95 172.68 UNKNOWN 122 E1DP-GA 123 E1LP-GB FDR 0.33 140.52 101.93 UNKNOWN 123 E1LP-GB 124 E1LP-1B FDR 0.14 80.69 58.30 UNKNOWN 124 E1LP-1B 125 E1LP-2B FDR 0.05 40.36 29.11 UNKNOWN 126 ATS-E2_L 114 ATS-E2_N 0.01 249.61 181.24 UNKNOWN 126 ATS-E2_L 127 E2DP-GA FDR 0.04 249.61 181.24 UNKNOWN 127 E2DP-GA 129 E2LP-GA FDR 0.64 208.07 151.02 UNKNOWN 127 E2DP-GA 128 ECB FDR 0.63 41.54 30.15 UNKNOWN 129 E2LP-GA 130 E2LP-1A FDR 0.09 83.21 59.96 UNKNOWN 129 E2LP-GA 132 E2LP-2C FDR 0.15 124.86 89.96 UNKNOWN 130 E2LP-1A 131 E2LP-2B FDR 0.09 41.63 29.96 UNKNOWN 132 E2LP-2C 133 2143 ECB FDR 0.05 41.63 29.95 UNKNOWN 134 ATS-E3_L 115 ATS-E3_N 0.02 347.03 252.07 UNKNOWN 134 ATS-E3_L 135 E3DP-GA FDR 0.02 347.03 252.07 UNKNOWN 135 E3DP-GA 139 EMCC-GB FDR 0.05 41.34 30.02 UNKNOWN 135 E3DP-GA 136 OR CHILLER FDR 0.12 41.37 30.04 UNKNOWN 135 E3DP-GA 140 E3LP-2B FDR 0.35 206.92 150.25 UNKNOWN 135 E3DP-GA 137 E3LP-GA CONTACTOR FDR 0.23 57.40 41.68 UNKNOWN 137 E3LP-GA CONTACTOR 138 E3LP-GA FDR 0.01 57.40 41.58 UNKNOWN 140 E3LP-2B 141 CONTACTOR FDR 0.02 41.39 29.94 UNKNOWN 150 MDSB-B 151 RP-GA FDR 0.65 181.17 58.07 UNKNOWN 150 MDSB-B 152 RP-1B FDR 1.43 228.46 73.23 UNKNOWN 150 MDSB-B 153 RP-1A FDR 0.79 272.19 87.24 UNKNOWN 150 MDSB-B 154 RP-GB FDR 1.23 273.56 87.68 UNKNOWN 150 MDSB-B 155 RP-2B FDR 0.79 272.19 87.24 UNKNOWN 160 MDSB-C 161 CHILLER #1 FDR 0.08 71.09 54.05 UNKNOWN 160 MDSB-C 162 CHILLER #2 FDR 0.07 71.09 54.04 UNKNOWN 170 XFMR T-1-1 SEC 171 MAIN SG A FDR 0.00 2288.28 718.38 UNKNOWN 171 MAIN SG A 172 PPGM-A AC SHOP FDR 1.31 121.17 38.04 UNKNOWN 171 MAIN SG A 173 TAP FDR 1.49 151.82 47.66 UNKNOWN 171 MAIN SG A 177 TAP FDR 2.04 152.79 47.96 UNKNOWN 171 MAIN SG A 182 PNL A FDR 1.07 67.97 21.34 UNKNOWN 171 MAIN SG A 183 LP6B FDR 0.93 69.60 21.85 UNKNOWN 171 MAIN SG A 185 TAP FDR 1.28 87.10 27.34 UNKNOWN 171 MAIN SG A 189 TAP FDR 1.86 121.96 38.29 UNKNOWN 171 MAIN SG A 192 TAP FDR 1.47 106.24 33.35 UNKNOWN 171 MAIN SG A 194 PPGL FDR 0.36 20.74 6.51 UNKNOWN 171 MAIN SG A 195 PP2K-B FDR 1.09 67.98 21.34 UNKNOWN 171 MAIN SG A 196 ELEVATOR TAP FDR 1.73 328.23 103.04 UNKNOWN

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 171 MAIN SG A 205 XRAY B FDR 0.81 120.68 37.89 UNKNOWN 171 MAIN SG A 206 FDR 0.86 162.42 50.99 UNKNOWN 171 MAIN SG A 210 TAP FDR 3.25 300.73 94.41 UNKNOWN 171 MAIN SG A 216 TAP FDR 1.36 121.26 38.07 UNKNOWN 171 MAIN SG A 223 LP4A-1 FDR 2.11 244.64 76.80 UNKNOWN 171 MAIN SG A 225 TAP FDR 0.46 60.01 18.84 UNKNOWN 171 MAIN SG A 227 E2-4B FDR 1.03 120.78 37.92 UNKNOWN 171 MAIN SG A 228 CAPACITOR A FDR -0.31 242.74 76.20 UNKNOWN 173 TAP 174 LP7A-1 FDR 0.01 91.08 28.10 UNKNOWN 173 TAP 175 TAP FDR 0.03 60.74 18.74 UNKNOWN 175 TAP 176 LP8B FDR 0.01 60.74 18.74 UNKNOWN 177 TAP 178 LP7A FDR 0.01 122.23 37.47 UNKNOWN 177 TAP 180 TAP FDR 0.01 30.56 9.37 UNKNOWN 178 LP7A 179 LP7A1 FDR 0.01 61.12 18.74 UNKNOWN 180 TAP 181 LP8A FDR 0.00 30.56 9.37 UNKNOWN 183 LP6B 184 LP6B2 FDR 0.01 9.28 2.88 UNKNOWN 185 TAP 186 LP5A-LH FDR 0.00 26.79 8.29 UNKNOWN 185 TAP 187 LP5A-RH FDR 0.00 26.79 8.29 UNKNOWN 185 TAP 188 LP5A2 FDR 0.08 33.52 10.37 UNKNOWN 189 TAP 190 LP6A-LH FDR 0.01 60.98 18.74 UNKNOWN 189 TAP 191 LP6A-RH FDR 0.01 60.98 18.74 UNKNOWN 192 TAP 193 PP RM1134 FDR 0.02 106.24 32.79 UNKNOWN 195 PP2K-B 195A CONTACTOR FDR 0.00 0.00 0.00 UNKNOWN 195A CONTACTOR 195B PANEL FDR 0.00 0.00 0.00 UNKNOWN 196 ELEVATOR TAP 198 ELE 2 ATS_N FDR 0.05 164.12 50.49 UNKNOWN 196 ELEVATOR TAP 197 ELE 1 ATS_N FDR 0.05 164.12 50.49 UNKNOWN 197 ELE 1 ATS_N 229 ELE 1 ATS_L 0.00 164.12 50.47 UNKNOWN 198 ELE 2 ATS_N 233 ELE 2 ATS_L 0.00 164.12 50.47 UNKNOWN 205 XRAY B 205D RP2K FDR 0.16 30.17 9.38 UNKNOWN 205 XRAY B 205B 2H FDR 0.16 30.17 9.38 UNKNOWN 205 XRAY B 205C 2J FDR 0.16 30.17 9.38 UNKNOWN 205 XRAY B 205A RP2G FDR 0.14 30.16 9.38 UNKNOWN 206 207 ELE 3 ATS_N FDR 0.04 162.42 50.48 UNKNOWN 207 ELE 3 ATS_N 236 ELE 3 ATS_L 0.00 162.42 50.46 UNKNOWN 210 TAP 211 PPGB FDR 0.00 30.99 9.37 UNKNOWN 210 TAP 212 LPGA FDR 0.01 61.99 18.74 UNKNOWN 210 TAP 213 TAP FDR 0.09 207.74 62.79 UNKNOWN 213 TAP 214 RP-1C-1 FDR 0.04 207.74 62.72 UNKNOWN 214 RP-1C-1 215 RP-1C-2 FDR 0.02 103.88 31.35 UNKNOWN 216 TAP 217 LP2A-LH FDR 0.00 30.31 9.37 UNKNOWN

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 216 TAP 218 LP2A-RH FDR 0.00 30.31 9.37 UNKNOWN 216 TAP 219 TAP FDR 0.03 60.64 18.74 UNKNOWN 219 TAP 220 LP3A-LH FDR 0.00 30.32 9.37 UNKNOWN 219 TAP 221 LP3A-RH FDR 0.00 30.32 9.37 UNKNOWN 223 LP4A-1 224 LP4A-2 FDR 0.02 122.33 37.47 UNKNOWN 225 TAP 226 LP2B FDR 0.03 60.01 18.74 UNKNOWN 229 ELE 1 ATS_L 197 ELE 1 ATS_N 0.00 164.12 50.47 UNKNOWN 229 ELE 1 ATS_L 230 ELE#1 ECB FDR 0.52 164.12 50.47 UNKNOWN 230 ELE#1 ECB 231 ELE#1 FDR 0.27 164.12 50.16 UNKNOWN 233 ELE 2 ATS_L 198 ELE 2 ATS_N 0.00 164.12 50.47 UNKNOWN 233 ELE 2 ATS_L 234 ELE#2 ECB FDR 0.52 164.12 50.47 UNKNOWN 234 ELE#2 ECB 235 ELE#2 FDR 0.27 164.12 50.16 UNKNOWN 236 ELE 3 ATS_L 207 ELE 3 ATS_N 0.00 162.42 50.46 UNKNOWN 236 ELE 3 ATS_L 237 ELE#3 ECB FDR 0.51 162.42 50.46 UNKNOWN 237 ELE#3 ECB 238 ELE#3 FDR 0.27 162.42 50.16 UNKNOWN 240 XFMR T-1-2 SEC 241 MAIN SG B FDR 0.00 2286.88 717.81 UNKNOWN 241 MAIN SG B 249 TAP FDR 2.59 282.56 88.69 UNKNOWN 241 MAIN SG B 242 DP ECB FDR 0.31 683.96 214.67 UNKNOWN 241 MAIN SG B 256 TAP FDR 1.05 145.28 45.60 UNKNOWN 241 MAIN SG B 261 TAP FDR 1.38 182.46 57.27 UNKNOWN 241 MAIN SG B 270 TAP FDR 1.11 174.47 54.76 UNKNOWN 241 MAIN SG B 282 TAP FDR 0.73 115.78 36.34 UNKNOWN 241 MAIN SG B 288 PPGM-B AC SHOP FDR 1.06 116.20 36.47 UNKNOWN 241 MAIN SG B 289 TAP FDR 0.18 172.58 54.17 UNKNOWN 241 MAIN SG B 294 XRAY 2FL FDR 0.89 115.97 36.40 UNKNOWN 241 MAIN SG B 295 TAP FDR 1.26 131.08 41.14 UNKNOWN 241 MAIN SG B 302 TAP FDR 0.70 57.87 18.16 UNKNOWN 241 MAIN SG B 305 CAPACITOR B FDR -0.31 242.69 76.17 UNKNOWN 241 MAIN SG B 306 TAP FDR 1.39 131.23 41.19 UNKNOWN 241 MAIN SG B 309 PPGK FDR 0.37 28.82 9.05 UNKNOWN 241 MAIN SG B 310 TAP FDR 1.13 86.09 27.02 UNKNOWN 242 DP ECB 243 PANEL DP FDR 0.06 683.96 213.91 UNKNOWN 243 PANEL DP 246 ATS 8_N FDR 0.25 104.47 32.65 UNKNOWN 243 PANEL DP 244 ATS 7_N FDR 0.39 441.19 137.88 UNKNOWN 243 PANEL DP 245 ATS 9_N FDR 0.10 43.92 13.73 UNKNOWN 243 PANEL DP 247 ATS 10_N FDR 0.02 65.38 20.43 UNKNOWN 243 PANEL DP 248 LP3 FDR 0.55 29.00 9.06 UNKNOWN 244 ATS 7_N 417 ATS 7_L 0.01 441.19 137.26 UNKNOWN 245 ATS 9_N 432 ATS 9_L 0.00 43.92 13.71 UNKNOWN 246 ATS 8_N 434 ATS 8_L 0.00 104.47 32.56 UNKNOWN

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 247 ATS 10_N 445 ATS 10_L 0.00 65.38 20.43 UNKNOWN 249 TAP 250 LPGB FDR 0.01 100.80 30.70 UNKNOWN 249 TAP 253 LP1D JB FDR 0.09 181.76 55.35 UNKNOWN 250 LPGB 251 LPGP FDR 0.32 41.64 12.68 UNKNOWN 251 LPGP 252 LP-GP FDR 0.28 20.86 6.33 UNKNOWN 253 LP1D JB 254 RP-1D-1 FDR 0.26 181.76 55.29 UNKNOWN 254 RP-1D-1 255 RP-1D-2 FDR 0.02 90.89 27.57 UNKNOWN 256 TAP 257 LP1B FDR 0.01 58.10 18.01 UNKNOWN 256 TAP 258 TAP FDR 0.04 87.18 27.03 UNKNOWN 258 TAP 259 LP2A FDR 0.01 29.06 9.01 UNKNOWN 258 TAP 260 LP2D FDR 0.01 58.12 18.01 UNKNOWN 261 TAP 262 LP6C FDR 0.00 29.16 9.01 UNKNOWN 261 TAP 263 TAP FDR 0.06 153.30 47.35 UNKNOWN 263 TAP 264 LP7C FDR 0.00 29.18 9.01 UNKNOWN 263 TAP 265 TAP FDR 0.05 124.12 38.31 UNKNOWN 265 TAP 266 LP8C FDR 0.01 58.40 18.01 UNKNOWN 265 TAP 267 TAP FDR 0.03 65.72 20.27 UNKNOWN 267 TAP 268 LP9C1 FDR 0.01 36.51 11.26 UNKNOWN 267 TAP 269 LP9C FDR 0.00 29.21 9.01 UNKNOWN 270 TAP 271 LPGC-B FDR 0.01 58.14 18.02 UNKNOWN 270 TAP 273 LPGC-A FDR 0.00 29.07 9.01 UNKNOWN 270 TAP 277 TAP FDR 0.04 87.26 27.04 UNKNOWN 271 LPGC-B 272 LPGC-C FDR 0.03 29.08 9.01 UNKNOWN 277 TAP 278 LP1C FDR 0.00 29.08 9.01 UNKNOWN 277 TAP 279 TAP FDR 0.02 58.18 18.02 UNKNOWN 279 TAP 280 LP2C-A FDR 0.01 29.09 9.01 UNKNOWN 279 TAP 281 LP2C FDR 0.00 29.09 9.01 UNKNOWN 282 TAP 283 LP3C FDR 0.01 57.88 18.01 UNKNOWN 282 TAP 284 TAP FDR 0.02 57.90 18.02 UNKNOWN 284 TAP 285 LP4C FDR 0.00 28.95 9.01 UNKNOWN 284 TAP 286 TAP FDR 0.01 28.95 9.01 UNKNOWN 286 TAP 287 LP5C FDR 0.00 28.95 9.01 UNKNOWN 289 TAP 290 PPGN-C FDR 0.06 57.55 18.03 UNKNOWN 289 TAP 291 PPGN-B FDR 0.01 57.52 18.01 UNKNOWN 289 TAP 293 PPGN-A FDR 0.01 57.52 18.01 UNKNOWN 295 TAP 296 PNL C FDR 0.00 29.12 9.01 UNKNOWN 295 TAP 297 LP2L FDR 0.01 14.56 4.50 UNKNOWN 295 TAP 298 PP2K FDR 0.00 29.12 9.01 UNKNOWN 295 TAP 299 TAP FDR 0.06 58.28 18.03 UNKNOWN 299 TAP 300 PP4K FDR 0.00 29.14 9.01 UNKNOWN

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 299 TAP 301 PP5K FDR 0.02 29.14 9.01 UNKNOWN 302 TAP 304 PP9M FDR 0.01 28.93 9.01 UNKNOWN 302 TAP 303 PP10N FDR 0.02 28.93 9.01 UNKNOWN 306 TAP 307 LP5B-LH FDR 0.01 65.61 20.27 UNKNOWN 306 TAP 308 LP5B-RH FDR 0.01 65.61 20.27 UNKNOWN 310 TAP 312 TAP FDR 0.04 60.50 18.74 UNKNOWN 310 TAP 311 PP6K FDR 0.00 25.58 7.93 UNKNOWN 312 TAP 314 PP7K FDR 0.00 34.90 10.81 UNKNOWN 312 TAP 313 PP8K FDR 0.02 25.60 7.93 UNKNOWN 320 AC SWBD 321 LPGE FDR 0.40 184.50 134.85 UNKNOWN 320 AC SWBD 324 MCC IN AC ROOM FDR 0.10 1418.93 1037.07 88.68 320 AC SWBD 323 HP-9M FDR 1.06 138.16 100.98 UNKNOWN 321 LPGE 322 LP-8E FDR 1.58 93.09 67.73 UNKNOWN 330 XFMR T-1-4 SEC 331 DIETETICS ECB FDR 1.16 937.43 285.27 UNKNOWN 331 DIETETICS ECB 332 KDP FDR 0.13 937.43 281.37 UNKNOWN 332 KDP 336 KLP FDR 0.72 113.99 34.16 UNKNOWN 332 KDP 337 UTIL DIST FDR 0.93 114.28 34.25 UNKNOWN 332 KDP 333 FOOD TRAY FDR 1.14 114.57 34.33 UNKNOWN 332 KDP 334 KPA FDR 0.81 114.12 34.20 UNKNOWN 332 KDP 335 KPD FDR 1.22 172.03 51.55 UNKNOWN 332 KDP 338 PP FDR 0.39 152.19 45.61 UNKNOWN 332 KDP BUS-0553 FDR 0.35 156.25 46.82 UNKNOWN 340 XRAY SUBSTATION 341 PANEL A FDR 1.84 955.84 679.75 UNKNOWN 401 BLDG 18 EMERG GEN 402 MAIN BRKR FDR 0.00 0.00 0.00 UNKNOWN 402 MAIN BRKR 403 CRITICAL BRKR FDR 0.00 0.00 0.00 UNKNOWN 402 MAIN BRKR 410 DPE BRKR FDR 0.00 0.00 0.00 UNKNOWN 403 CRITICAL BRKR 404 BLDG18 CRITICAL EMERGENCY FDR 0.00 0.00 0.00 UNKNOWN 404 BLDG18 CRITICAL EMERGENCY 405 ATS 1_E FDR 0.00 0.00 0.00 UNKNOWN 404 BLDG18 CRITICAL EMERGENCY 406 ATS 3_E FDR 0.00 0.00 0.00 UNKNOWN 404 BLDG18 CRITICAL EMERGENCY 407 ATS 4_E FDR 0.00 0.00 0.00 UNKNOWN 404 BLDG18 CRITICAL EMERGENCY 409 ATS 6_E FDR 0.00 0.00 0.00 UNKNOWN 404 BLDG18 CRITICAL EMERGENCY 408 ATS 2_E FDR 0.00 0.00 0.00 UNKNOWN 410 DPE BRKR 411 DPE FDR 0.00 0.00 0.00 UNKNOWN 411 DPE 412 ATS 7_E FDR 0.00 0.00 0.00 UNKNOWN 411 DPE 413 ATS 9_E FDR 0.00 0.00 0.00 UNKNOWN 411 DPE 415 ATS 8_E FDR 0.00 0.00 0.00 UNKNOWN 411 DPE 416 ATS 10_E FDR 0.00 0.00 0.00 UNKNOWN 417 ATS 7_L 418 EDP1 FDR 0.07 441.19 137.24 UNKNOWN 417 ATS 7_L 244 ATS 7_N 0.01 441.19 137.24 UNKNOWN 418 EDP1 425 PL3N FDR 0.55 20.41 6.34 UNKNOWN

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 418 EDP1 427 PL4N FDR 0.58 20.42 6.35 UNKNOWN 418 EDP1 420 PL5N FDR 0.61 20.43 6.35 UNKNOWN 418 EDP1 422 PL6N FDR 0.64 20.44 6.35 UNKNOWN 418 EDP1 424 PL7N FDR 0.68 20.44 6.35 UNKNOWN 418 EDP1 426 PL8N FDR 0.71 20.45 6.36 UNKNOWN 418 EDP1 419 PLGN FDR 0.45 20.39 6.34 UNKNOWN 418 EDP1 429 E2-4W SEC#1 FDR 0.75 51.45 15.99 UNKNOWN 418 EDP1 421 PL1N FDR 0.48 20.40 6.34 UNKNOWN 418 EDP1 428 EC3 FDR 1.33 117.73 36.59 UNKNOWN 418 EDP1 423 PL2N FDR 0.52 20.41 6.34 UNKNOWN 418 EDP1 430 CB3W FDR 1.24 88.21 27.42 UNKNOWN 430 CB3W 431 CBME FDR 0.02 29.41 9.01 UNKNOWN 432 ATS 9_L 433 LP9C FDR 1.26 43.92 13.71 UNKNOWN 432 ATS 9_L 245 ATS 9_N 0.00 43.92 13.71 UNKNOWN 434 ATS 8_L 435 EDP FDR 0.02 104.47 32.56 UNKNOWN 434 ATS 8_L 246 ATS 8_N 0.00 104.47 32.56 UNKNOWN 435 EDP 436 LPGN-N FDR 0.26 11.60 3.61 UNKNOWN 435 EDP 437 LP1N-N FDR 0.28 11.60 3.61 UNKNOWN 435 EDP 438 LP2N-N FDR 0.29 11.60 3.61 UNKNOWN 435 EDP 439 LP3N-N FDR 0.31 11.61 3.62 UNKNOWN 435 EDP 440 LP4N-N FDR 0.33 11.61 3.62 UNKNOWN 435 EDP 441 LP5N-N FDR 0.35 11.61 3.62 UNKNOWN 435 EDP 442 LP6N-N FDR 0.37 11.61 3.62 UNKNOWN 435 EDP 443 LP7N-N FDR 0.38 11.62 3.62 UNKNOWN 435 EDP 444 LP8N-N FDR 0.40 11.62 3.62 UNKNOWN 445 ATS 10_L 247 ATS 10_N 0.00 65.38 20.43 UNKNOWN 445 ATS 10_L 446 EE3 FDR 0.69 65.38 20.43 UNKNOWN 450 XFMR T-13A SEC 451 BUG FDR 0.41 672.29 214.82 UNKNOWN 451 BUG 453 UNMARKED PANEL FDR 0.00 641.70 204.09 UNKNOWN 452 EMG PANEL 451 BUG FDR 0.03 30.59 9.73 UNKNOWN 453 UNMARKED PANEL 454 POWER PANEL FDR 0.03 122.39 38.92 UNKNOWN 453 UNMARKED PANEL 456 LP-1 FDR 0.05 91.80 29.20 UNKNOWN 453 UNMARKED PANEL 457 PNL A (LP-2) FDR 1.96 93.84 29.84 UNKNOWN 453 UNMARKED PANEL 459 PNL B (OL) FDR 0.66 31.73 10.09 UNKNOWN 453 UNMARKED PANEL 458 NEW EQ CTR FDR 0.48 61.50 19.56 UNKNOWN 453 UNMARKED PANEL 455 400A DISCONNECT FDR 1.70 240.44 76.47 UNKNOWN 460 XFMR T-13B SEC 461 NON-FUSED DISCONNECT FDR 0.24 269.97 87.53 UNKNOWN 461 NON-FUSED DISCONNECT 462 CP1 FDR 0.86 269.97 87.30 UNKNOWN 500 XFMR T-19B SEC 502 CRITICAL SWBD BLDG #18 FDR 0.53 704.14 218.28 UNKNOWN 502 CRITICAL SWBD BLDG #18 505 LP1 FDR 0.22 117.89 36.32 UNKNOWN

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 502 CRITICAL SWBD BLDG #18 504 ATS 3_N FDR 0.00 0.00 0.00 UNKNOWN 502 CRITICAL SWBD BLDG #18 508 ATS 6_N FDR 0.18 80.58 24.82 UNKNOWN 502 CRITICAL SWBD BLDG #18 503 ATS 1_N FDR 1.74 186.12 57.34 UNKNOWN 502 CRITICAL SWBD BLDG #18 507 ATS 2_N FDR 0.28 319.57 98.45 UNKNOWN 503 ATS 1_N 509 ATS 1_L 0.00 186.12 56.17 UNKNOWN 504 ATS 3_N 521 ATS 3_L 0.00 0.00 0.00 UNKNOWN 505 LP1 506 ATS 4_N FDR 0.06 39.33 12.09 UNKNOWN 506 ATS 4_N 523 ATS 4_L 0.00 39.33 12.08 UNKNOWN 507 ATS 2_N 525 ATS 2_L 0.01 319.57 98.13 UNKNOWN 508 ATS 6_N 529 ATS 6_L 0.00 80.58 24.77 UNKNOWN 509 ATS 1_L 510 EDP-E FDR 0.36 186.12 56.17 UNKNOWN 509 ATS 1_L 503 ATS 1_N 0.00 186.12 56.17 UNKNOWN 510 EDP-E 511 EDPA FDR 0.03 47.98 14.42 UNKNOWN 510 EDP-E 512A TAP FDR 1.06 81.40 24.46 UNKNOWN 510 EDP-E 516A TAP FDR 1.34 56.74 17.05 UNKNOWN 512A TAP 512 LP1N-0 FDR 0.00 20.34 6.03 UNKNOWN 512A TAP 513 LPGN-0 FDR 0.02 20.35 6.04 UNKNOWN 512A TAP 514A TAP FDR 0.04 40.71 12.08 UNKNOWN 514A TAP 514 LP2N-0 FDR 0.00 20.35 6.03 UNKNOWN 514A TAP 515 LP3N-0 FDR 0.02 20.36 6.04 UNKNOWN 516A TAP 516 LP4N-0 FDR 0.00 11.33 3.35 UNKNOWN 516A TAP 517A TAP FDR 0.07 45.41 13.42 UNKNOWN 517A TAP 517 LP5N-0 FDR 0.00 11.34 3.35 UNKNOWN 517A TAP 518A TAP FDR 0.05 34.06 10.06 UNKNOWN 518A TAP 518 LP6N-0 FDR 0.00 11.35 3.35 UNKNOWN 518A TAP 519A TAP FDR 0.04 22.71 6.70 UNKNOWN 519A TAP 519 LP7N-0 FDR 0.01 11.36 3.35 UNKNOWN 519A TAP 520 LP8N-0 FDR 0.02 11.36 3.35 UNKNOWN 521 ATS 3_L 504 ATS 3_N 0.00 0.00 0.00 UNKNOWN 521 ATS 3_L 522 ELE 4 ECB FDR 0.00 0.00 0.00 UNKNOWN 523 ATS 4_L 506 ATS 4_N 0.00 39.33 12.08 UNKNOWN 523 ATS 4_L 524 LP2 FDR 0.06 39.33 12.08 UNKNOWN 525 ATS 2_L 507 ATS 2_N 0.01 319.57 98.12 UNKNOWN 525 ATS 2_L 526 AOV FDR 1.58 319.57 98.12 UNKNOWN 526 AOV 527 KP ECB FDR 0.05 119.93 36.14 UNKNOWN 527 KP ECB 528 KP FDR 0.22 119.93 36.12 UNKNOWN 529 ATS 6_L 508 ATS 6_N 0.00 80.58 24.77 UNKNOWN 529 ATS 6_L 530 LP5-N1 "HEMO" FDR 2.18 80.58 24.77 UNKNOWN 601 BLDG 17 MN 605 PNL C FDR 1.31 182.01 57.42 UNKNOWN 601 BLDG 17 MN 603 PNL A FDR 2.44 184.44 58.19 UNKNOWN

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 601 BLDG 17 MN 604 PNL B FDR 2.36 184.26 58.13 UNKNOWN 601 BLDG 17 MN 606 RPB FDR 0.92 240.09 75.74 UNKNOWN 601 BLDG 17 MN 608 MDS (ICEHOUSE) FDR 0.25 80.47 25.39 UNKNOWN 601 BLDG 17 MN 602 ATS BLDG 17_N FDR 0.26 327.19 103.22 UNKNOWN 602 ATS BLDG 17_N 614 ATS BLDG 17_L 0.01 327.19 102.92 UNKNOWN 606 RPB 607 RPA FDR 0.02 120.06 37.48 UNKNOWN 608 MDS (ICEHOUSE) 609 21-LP FDR 0.31 80.47 25.31 UNKNOWN 609 21-LP 610 UNLABELED PNL FDR 0.03 40.24 12.61 UNKNOWN 611 612 BLDG 17 EM CB FDR 0.00 0.00 0.00 UNKNOWN 612 BLDG 17 EM CB 613 FDR 0.00 0.00 0.00 UNKNOWN 614 ATS BLDG 17_L 620 EM MAIN FDR 0.10 80.47 25.31 UNKNOWN 614 ATS BLDG 17_L 615 EDP (BLDG 17) FDR 0.03 246.72 77.60 UNKNOWN 614 ATS BLDG 17_L 602 ATS BLDG 17_N 0.01 327.19 102.91 UNKNOWN 615 EDP (BLDG 17) 616 AE FDR 2.59 82.68 26.00 UNKNOWN 615 EDP (BLDG 17) 619 CE FDR 1.36 81.47 25.62 UNKNOWN 615 EDP (BLDG 17) 618 BE FDR 2.50 82.57 25.96 UNKNOWN 616 AE 617 CONTACTOR AE FDR 0.06 23.64 7.21 UNKNOWN 617 CONTACTOR AE 617A PNL AE1 FDR 0.03 23.64 7.21 UNKNOWN 620 EM MAIN 621 EM FDR 0.21 80.47 25.28 UNKNOWN 701 XFMR T-5 SEC 702 BLDG 5 MTR PNL FDR 0.51 451.97 146.15 UNKNOWN 702 BLDG 5 MTR PNL 707 BLDG 2 FDR 2.31 54.64 17.57 UNKNOWN 702 BLDG 5 MTR PNL 708 RP3 FDR 1.60 121.85 39.18 UNKNOWN 702 BLDG 5 MTR PNL 709 RP4 FDR 0.76 120.70 38.81 UNKNOWN 702 BLDG 5 MTR PNL 703 PNL D FDR 0.11 154.78 49.77 UNKNOWN 703 PNL D 705 PNL B FDR 0.05 53.32 17.12 UNKNOWN 703 PNL D 704 PNL C FDR 0.14 53.37 17.14 UNKNOWN 703 PNL D 706 PNL IN HALL FDR 0.25 48.09 15.44 UNKNOWN 801 XFMR T-15 SEC 802 MN TAP FDR 0.39 2214.57 663.85 UNKNOWN 802 MN TAP 830 ATS 15 ECB FDR 0.09 646.83 192.99 UNKNOWN 802 MN TAP 803 BLDG 15 SWGR FDR 0.00 1567.75 467.75 UNKNOWN 803 BLDG 15 SWGR 816 J BOX FDR 1.12 193.52 57.74 UNKNOWN 803 BLDG 15 SWGR 824 J BOX FDR 1.38 194.12 57.92 UNKNOWN 803 BLDG 15 SWGR 827 J BOX FDR 1.63 194.65 58.07 UNKNOWN 803 BLDG 15 SWGR 819 J BOX FDR 0.56 96.11 28.68 UNKNOWN 803 BLDG 15 SWGR 821 J BOX FDR 1.38 194.12 57.92 UNKNOWN 803 BLDG 15 SWGR 808 J BOX FDR 0.94 194.71 58.09 UNKNOWN 803 BLDG 15 SWGR 815 ELE DISC FDR 0.00 0.00 0.00 UNKNOWN 803 BLDG 15 SWGR 805 J BOX FDR 1.75 120.99 36.10 UNKNOWN 803 BLDG 15 SWGR 812 ACP FDR 0.10 161.80 48.27 UNKNOWN 803 BLDG 15 SWGR 813 BLDG 10 GARAGE FDR 1.53 217.74 64.96 UNKNOWN

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 805 J BOX 807 LP1 (ILD) FDR 0.01 60.45 17.65 UNKNOWN 805 J BOX 806 2LP FDR 0.12 60.53 17.68 UNKNOWN 808 J BOX 809 PNL A FDR 0.03 96.53 28.47 UNKNOWN 808 J BOX 810 SPLICE BOX ON WALL FDR 0.90 98.18 28.96 UNKNOWN 810 SPLICE BOX ON WALL 811 RM 213 FDR 0.51 98.18 28.64 UNKNOWN 812 ACP 812A CHILLER FDR 0.37 161.80 48.21 UNKNOWN 816 J BOX 817 PNL K FDR 0.03 96.74 28.47 UNKNOWN 816 J BOX 818 PNL M FDR 0.06 96.78 28.48 UNKNOWN 819 J BOX 820 PNL D FDR 0.06 96.11 28.48 UNKNOWN 821 J BOX 822 PNL E FDR 0.03 97.04 28.47 UNKNOWN 821 J BOX 823 PNL F FDR 0.06 97.08 28.48 UNKNOWN 824 J BOX 825 PNL I FDR 0.03 97.04 28.47 UNKNOWN 824 J BOX 826 PNL J FDR 0.06 97.08 28.48 UNKNOWN 827 J BOX 828 PNL G FDR 0.01 97.32 28.46 UNKNOWN 827 J BOX 829 PNL H FDR 0.02 97.33 28.47 UNKNOWN 830 ATS 15 ECB 831 ATS 15_N FDR 0.34 646.83 192.77 UNKNOWN 831 ATS 15_N 834 ATS 15_L 0.01 646.83 191.98 UNKNOWN 832 BLDG 15 EMERG GEN 833 FDR 0.00 0.00 0.00 UNKNOWN 834 ATS 15_L 835 EMER DISTRIBUTION PANEL FDR 0.03 132.20 39.23 UNKNOWN 834 ATS 15_L 840 DATA CENTER FDR 0.27 514.63 152.72 UNKNOWN 834 ATS 15_L 831 ATS 15_N 0.01 646.83 191.94 UNKNOWN 835 EMER DISTRIBUTION PANEL 837 KENNEL (K-EP BLDG 10) FDR 1.04 66.42 19.70 UNKNOWN 835 EMER DISTRIBUTION PANEL 839 GEN RM PNL FDR 0.24 65.77 19.51 UNKNOWN 840 DATA CENTER 841 MAIN PANEL FDR 0.72 514.63 152.21 UNKNOWN 841 MAIN PANEL 842 RP1 FDR 0.18 99.76 29.25 UNKNOWN 841 MAIN PANEL 844 CRAC 2-1 FDR 0.28 59.93 17.57 UNKNOWN 841 MAIN PANEL 845 CRAC 2-2 FDR 0.57 60.15 17.63 UNKNOWN 841 MAIN PANEL 846 CRAC 2-3 FDR 0.76 60.29 17.67 UNKNOWN 841 MAIN PANEL 843 RDU FDR 0.78 234.50 68.75 UNKNOWN 900 XFMR T-7 SEC 901 BLDG 7 MN SWGR FDR 0.08 851.08 636.53 UNKNOWN 901 BLDG 7 MN SWGR 902 BLDG 7 ATS_N FDR 0.03 349.48 261.16 UNKNOWN 901 BLDG 7 MN SWGR 905 LOADING DOCK ECB FDR 0.38 26.81 20.04 UNKNOWN 901 BLDG 7 MN SWGR 906 WAREHOUSE ECB FDR 0.26 133.90 100.06 UNKNOWN 901 BLDG 7 MN SWGR 904 BLDG 6 ECB FDR 0.58 134.37 100.41 UNKNOWN 901 BLDG 7 MN SWGR 903 BLDG 10 FDR 0.84 206.61 154.40 UNKNOWN 902 BLDG 7 ATS_N 910 BLDG 7 ATS_L 0.02 349.48 261.07 UNKNOWN 903 BLDG 10 903A FDR 0.02 206.61 152.95 UNKNOWN 903A 915 TX2 4.69 206.61 152.91 101.94 907 BLDG 7 EMERG GEN 908 ATS BLDG 7_E FDR 0.00 0.00 0.00 UNKNOWN 910 BLDG 7 ATS_L 902 BLDG 7 ATS_N 0.02 349.48 261.02 UNKNOWN

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Nov 04, 2008 10:50:35 VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 910 BLDG 7 ATS_L 911 ATS 7 ECB FDR 0.05 349.48 261.02 UNKNOWN 911 ATS 7 ECB 912 MCC FDR 0.53 349.48 260.87 UNKNOWN 912 MCC 913 ELEVATOR ECB FDR 0.00 11.21 8.32 UNKNOWN 912 MCC 912A PNL LP FDR 0.00 0.00 0.00 UNKNOWN 912 MCC BUS-0531 FDR 0.01 40.43 30.00 UNKNOWN 913 ELEVATOR ECB 914 ELE FDR 0.05 11.21 8.32 UNKNOWN 915 916 PNL 1 FDR 0.21 476.80 144.85 UNKNOWN 916 PNL 1 918 PNL M FDR 0.44 81.27 24.63 UNKNOWN 916 PNL 1 919 PNL K FDR 0.22 56.74 17.19 UNKNOWN 916 PNL 1 922 NEW OFFICE ECB FDR 0.05 183.61 55.64 UNKNOWN 916 PNL 1 921 GARAGE PANEL FDR 1.12 57.36 17.38 UNKNOWN 916 PNL 1 917 PANEL PP02 FDR 0.22 56.74 17.19 UNKNOWN 916 PNL 1 920 PNL J FDR 1.34 41.07 12.45 UNKNOWN 922 NEW OFFICE ECB 923 NEW OFFICE PANEL (Panel A) FDR 0.74 183.61 55.61 UNKNOWN NOTE: FDR RATING% = % AMPS RATING BASED ON LIBRARY FLA OR BRANCH INPUT FLA TX2 RATING% = % KVA RATING BASED ON TRANSFORMER FL KVA 428 BUSES *** T O T A L S Y S T E M L O S S E S *** 179. KW 559. KVAR ***WARNING*** STUDY CONTAINS 395 VOLTAGE CRITERIA VIOLATIONS VIOLATIONS DENOTED BY ($) AT BUS AND BRANCH %VD LOCATIONS

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November 2008

4 OVERCURRENT DEVICE COORDINATION ANALYSIS

4.1 General Procedure An overcurrent device time-current coordination analysis is an organized effort to determine the settings and, where appropriate, the ampere ratings and types for the over-current protective devices in an electrical system. The objective of the coordination analysis is to effect a time-current coordination among the devices, thereby achieving the desired system protection and electrical service continuity goals. Maximum protection requires that the overcurrent protective devices be rated, selected, and adjusted to allow the normal load currents to flow while instantaneously opening the circuit when abnormal currents flow. However, maximum service continuity requires that the overcurrent protective devices be rated, selected, and adjusted so that only the overcurrent protective device nearest the fault opens and isolates the faulted circuit from the system, permitting the rest of the system to remain in operation. Protective devices farther from the fault location should therefore essentially act as backup protection for the devices nearer to the fault, allowing the fault to be cleared with a minimum of disruption to the system. This is referred to as “selective coordination” between the protective devices. This may allow longer duration faults when the fault point is nearer the service entrance; however, such faults are not as common, and setting the protective devices to operate in this manner is generally more desirable than de-energizing most or all of the system for a fault near one of the loads. Selecting and setting the overcurrent devices is a procedure where the time-current characteristic curves of the various devices in series are compared with one another on a log-log graph. This procedure should take into account boundaries defined by load currents, short-circuit currents, and ANSI and NEC requirements. Selective coordination usually will be obtained when the log-log plots of time-current characteristics show sufficient clear space or no overlap between the curves for the protective devices operating in series. Coordination will often stop short of complete selectivity when an acceptable compromise is reached between the various boundaries imposed on the selecting and setting procedure. The CAPTOR module of the SKM Power*Tools software was used to complete the device coordination analysis. As shown on the one-line diagrams, each overcurrent protective device or motor under consideration by the program has been assigned an identification number so that the computer output could be readily interpreted.

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4.2 Specific Procedure

4.2.1 Short-Circuit Current Considerations All protective device characteristic curves shown on the time-current graphs end at the calculated maximum short-circuit current at that device.

4.2.2 Molded Case Breaker Coordination A molded case circuit breaker will trip with no intentional time delay for short-circuit currents above its instantaneous trip setting. Because of this, molded case breakers in series can only be selectively coordinated with each other if there is sufficient impedance between them so that the maximum available short-circuit current at the downstream breaker is less than the instantaneous trip setting of the upstream breaker. In Figure 2, breaker “C” illustrates this principle.

Figure 2: Example molded case breaker coordination.

There is enough cable impedance to limit the maximum available short-circuit current at “C” to less than the instantaneous trip setting of either “A” or “B”. When molded case breakers are in series without sufficient impedance between them to permit complete coordination, e.g., a panel main breaker and one of the branch devices in the panel, the time-current curves will overlap in the high-current instantaneous trip region. This is illustrated by the overlap between the curves for

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devices “A” and “B” in Figure 2. Most molded case breakers exhibit some degree of current limitation that will often result in selective operation in the overlap region. Time-current coordination curves included in this report do not match the test results from Square D’s data bulletin (0100DB0501R3). The software used to generate the curves is incapable of accounting for the dynamic impedance the system has when two or more devices in series “see” a fault. The data bulletin takes the dynamic impedance introduced by the downstream device into account. Greater separation between the instantaneous settings may increase the likelihood that the two devices will operate selectively. The potential lack of coordination is generally not considered critical and can be avoided only by adopting a different and, in general, less economically practical design especially when the following are considered:

• Most faults occur in equipment such as motors, lighting panels, and process control panels which typically are located at the end of branch circuits, significantly reducing fault level and thereby reducing or eliminating the possibility of non-selective operation.

• Lower magnitude arcing faults in rotating machinery and lighting panels are statistically more common than bolted three-phase faults.

• Ground faults are more common than three-phase faults. • Maximum fault current is a random event depending on point-on-wave of the fault

occurrence and other factors. • The device cutoff points on time-current coordination graphs are based on bolted fault

current levels which correspond to zero impedance. Typical fault current impedance is usually greater than zero so the actual fault current seen by overcurrent devices can be less than what is shown on the time-current coordination graphs.

Recommended breaker trip settings are given in the "OVERCURRENT DEVICE SETTING TABLE – LV CIRCUIT BREAKERS".

4.2.3 Time-Overcurrent Relay Coordination The overcurrent relays were examined and settings selected to provide the best possible coordination with the appropriate line and load side protective devices. These relay time-current curves are plotted as single lines as opposed to the manufacturing tolerance band plotted for fuse and low-voltage circuit breakers. However, certain time margins have been considered when coordinating these relays. These time margins account for manufacturing tolerances, induction disk over-travel, circuit breaker opening time and a safety margin. The coordinating time margins consist of the downstream breaker clearing time plus the upstream relay disk overtravel time, plus a safety margin to account for relay and CT inaccuracies. For electromechanical relays, time margins of 0.3-0.4 seconds are desirable. For digital relays upstream, there is no significant allowance necessary for overtravel and a smaller interval such as 0.25-0.3 seconds can be used. For fuses upstream, a 10% margin in current for any time or a 25% margin in time for any current may be used to account for ambient temperature and preloading effects. The recommended relay settings are given in the "OVERCURRENT DEVICE SETTING TABLE - RELAYS”.

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4.2.4 Low-Voltage Ground-Fault Relay Settings The feeder ground fault time settings were chosen to selectively coordinate with the appropriate load side devices. Where possible, the ground fault current pickup settings on these feeders were chosen to selectively coordinate with small load side branch breakers rated 20A and smaller with the consideration that most of the exposure to ground faults would likely occur in the electrical system downstream of these numerous small breakers. Selective coordination with larger downstream breakers does not exist for any ground fault current exceeding the pickup setting but less than the magnetic setting of the load side breaker. This is unavoidable because the larger load side protective devices are not equipped with ground fault protection. Figure 3 illustrates this.

Figure 3: Example ground fault coordination (current scale X 10).

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As shown in Figure 3, the feeder ground fault device B does not selectively coordinate with branch breaker C for ground fault currents in the range of 320A-790A as indicated. Main breaker A and feeder breaker B phase device time-current curves are omitted for clarity. The main ground fault time and pickup settings have been set just high enough to selectively coordinate with the settings chosen for the feeder ground fault relays. All ground fault settings are tabulated in the appropriate overcurrent device setting tables.

4.2.5 Transformer Protective Devices If in the project scope, medium- and/or low-voltage transformer primary overcurrent protective devices were checked for compliance with NEC Article 450. Also, medium voltage protective devices, primary, secondary and secondary feeder, were evaluated with respect to the applicable ANSI/IEEE Through Fault Guides (C57.12.59 for dry and cast resin type and C57.109 for liquid immersed type) and the Appendix for ANSI/IEEE C37.91. Transformer standards define low-voltage transformers as having a primary voltage less than or equal to 600V. Transformer full load currents and magnetizing inrush currents were also considered. If a transformer is subject to a through fault, thermal damage occurs to conductors and insulation due to resistive heating. Mechanical damage occurs to windings and structural components due to large magnetic forces associated with the fault current. In general, smaller transformers are assigned a single damage characteristic that accounts for both thermal and mechanical damage. Larger transformers are assigned a two-part characteristic with a thermal characteristic and a more restrictive mechanical characteristic. For the most conservative protection, the thermal-mechanical limits should be used. In many cases, it may be acceptable to use only the thermal characteristic, especially if the transformer is not subject to frequent through faults. Transformers connected to overhead secondary feeders should be considered to be subject to frequent through faults. To evaluate through fault protection according to the ANSI Guides, the applicable curve was plotted representing a transformer's projected damage threshold for the cumulative effects of through faults. However, this ANSI through fault curve must be reduced for certain unbalanced secondary faults, because even though full short-circuit current is flowing in one or more secondary windings, the primary overcurrent device experiences less current. Secondary line-to-neutral faults on delta-wye connected transformers produce only 0.577 of the maximum 3-phase fault current in the primary overcurrent device while one secondary winding experiences the full short-circuit current as illustrated in Figure 4 below. Therefore, to account for this fault condition, the ANSI through fault curve has been adjusted by a factor of 0.577. Both curves (three phase line-to-line and single phase line-to-neutral) are plotted on the time-current graphs.

Figure 4: Delta–Wye 3-PH and L-N fault current per unit values.

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Since the through fault curves represent a transformer's projected damage threshold for the cumulative mechanical and thermal effects of through faults, all applicable primary and secondary overcurrent devices were checked to ensure interruption before these through fault curves were reached. Further, to avoid nuisance interruptions, the primary overcurrent devices were also checked to ensure they will carry the transformers rated full load and equivalent magnetic inrush currents which are plotted on the time-current graphs. Because of the restrictions mentioned above, complete selective coordination between the transformer primary and secondary main devices may not exist for any transformers examined as shown by the overlapping of their characteristics on the time-current graphs. However, this is judged acceptable, because the opening of either device results in the same extent of service interruption.

4.2.6 Cable Protection Feeder overcurrent protective devices were reviewed to verify the protection of their load side cables as shown on the one-line diagrams in accordance with NEC Article 240. If the adjustable protective devices are set as suggested in this report, then the cables reviewed will be properly protected. If applicable, a cable short-circuit withstand line is drawn on some time-current graphs for medium voltage cables. The line is drawn from ICEA Publication P-32-382. All overcurrent devices were set to interrupt before this cable withstand is reached. However, the above analysis does not include any aspects of cable ampacity adjustment factors such as derating for conduit fill, elevated ambient temperature, etc. allowed by the NEC.

4.2.7 Generator Protection Both momentary overload and short circuit protection are considered for the emergency generators in this study. The one minute maximum momentary overload protection for generators at 1800 rpm or less is established to be 150% full load amps whereas generators at 1801 rpm or higher use 130% full load amps in accordance with NEMA standard MG 1-32.7. The protective device/s must also provide protection against maximum fault currents at the generator terminals up to but not exceeding 30 seconds in accordance with NEMA MG 1-32.13. In addition, an industry practice of providing 300% full load amp protection for 10 seconds was also considered.

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4.2.8 Assumptions The following assumptions were made:

1. For low-voltage circuit breakers where the adjustable setting(s) was undeterminable, the recommended setting(s) was used.

2. Most high voltage fuse data was assumed based on the following:

o Square D DIN styles fuses in Medium Voltage Switches 1, 2, 3, 4, 5, and 7 were based on Square D record drawings dated April 2, 2004

o GE EJ0-1 fuses in switches located at the primary of transformers T-1-1 and T-1-2 respectively were based on the Cutler Hammer Coordination Study dated July 2007.

o Cutler Hammer CLE fuses in the switches located at the primary of transformers T-1A-1, T-1A-2, and T-1A-3 were assumed based on spare fuses found in the transformer vault.

o Fuse 015-1 in MV switch #6 was assumed to be a Gould CS-3 100E for coordination purposes only.

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4.3 Analysis of Results and Recommendations The basic results of an overcurrent device coordination analysis are the time-current coordination graphs which are plotted to illustrate the degree of selective coordination achieved in the system. 73 as-found graphs and 46 proposed graphs are included in this report. Settings for all devices which have adjustable characteristics are summarized in the appropriate overcurrent device setting tables. Smaller devices with fixed time-current characteristics are not shown on the graphs unless they directly affect the setting of an adjustable upstream device. To generate the time-current graphs, a computer program was used which allows the power system engineer to determine optimum coordination, after first insuring that loading and protection requirements are satisfied. The engineer’s objective is to determine the best coordination for the entire system. This approach necessitates tradeoffs in selectivity for some parts of the system to achieve maximum coordination in more critical areas. Regions in which coordination has been sacrificed are as previously discussed involving transformer primary and secondary main devices, high current regions of molded case breakers, etc.

4.3.1 NEC Compliance Issues It is not the purpose of this report to verify that the electrical system design conforms to the NEC. Nevertheless, some apparent violations of the NEC were noticed in the process of performing the power system analysis and recommendations are made for compliance. However, this does not imply that all possible NEC violations were found. In all cases, determination of NEC interpretation and compliance rests with the local Authority Having Jurisdiction. If these issues are addressed by equipment, conductor, or device settings changes, the analysis results may need to be re-evaluated in a revision to this study. Possible NEC violations have been listed below: • NEC violations with respect to cable protection were noticed at the following locations; and

either the breaker must be reduced in pickup rating or cable size must be increased.

Building 1 KDP Panel, feeder to panel KPD is 1#3/0 with 200 capacity protected by a 225A trip

breaker KDP Panel, feeder to panel PP is 1#1/0 with 150 capacity protected by a 200A trip

breaker ATS 9, load side feeder to panel LP9C is 1#2 with 115A capacity protected by a 200A

trip breaker Panel EDP1, feeder to panel EC3 is 1#300kcmil with 285A capacity protected by a 400A

trip breaker Building 5

Panel D, feeder to panel B is 1#4 with 85 capacity protected by a 100A trip breaker

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Building 13 Unmarked Panel, feeder to Power Panel is 1#3/0 with 230 capacity protected by a 300A

trip breaker Unmarked Panel, feeder to panel LP-1 is 1#2 with 115A capacity protected by a 150A

trip breaker Unmarked Panel, feeder to panel A is 1#2 with 115A capacity protected by a 150A trip

breaker Building 15

Emergency Distribution Panel, feeder to Gen Room panel is 1#8 with 50A capacity protected by a 100A trip breaker

Building 18

ATS 1, load-side feeder to panel EDP-E is 1#2 with 115A capacity protected by a 200A trip breaker

RECOMMENDATION: Reduce breaker LTPU to protect cable within rated ampacity, OR, replace cable with adequate size to allow for proper protection.

• It should also be noted several cables appear to be in violation of NEC 240.21, which is

commonly referred to as the tap rule. Essentially ten-foot taps are allowed for minimal requirements for overcurrent protection. Twenty-five foot taps are allowed when terminating into an appropriate overcurrent device. An appropriate line side protective device should protect taps over twenty-five feet. The following taps should be reviewed, and proper protection installed where necessary.

Building 15, feeder taps from junction box to panel 213. There are two sections of feeder,

one section of 1#2/0 120’ in length and one section of 1#2 40’ in length

RECOMMENDATION: Review affected tap locations against Art. 240.21 and install proper conductor protection.

• An apparent NEC Article 450 violation (secondary protection) exists at the 750 KVA low

voltage dry-type transformer. The circuit breaker is currently set at a long-time pickup of 1600A.

RECOMMENDATION: Reduce the long-time pickup as recommend in the settings table to 1120A protecting the transformer per NEC Article 450.

4.3.2 TCC Plot Remarks Comments below refer to the graphs shown in the Time Current Coordination Graphs section of this report. In general most of the main breaker ground fault settings did not coordinate with the feeder breaker ground fault settings. Recommendations, where possible, were made to improve ground fault settings between the main breaker, feeder breaker, and small downstream breakers throughout the system. Time-current coordination graph 00-01.tcc shows the phase settings for the utility relay, the typical main switchgear relay 001-2, and the typical feeder relay 001-4 as well as the largest

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downstream fuse 010-1. As shown in this graph the existing relay settings do not coordinate with the utility relay or the downstream fuse. The utility relay overcurrent setting is set at 240A, which will not coordinate with the 360A overcurrent setting of the main and feeder relay overcurrent settings. The existing CT ratios for the main and feeder relays are 1200:5. Due to this, the relay overcurrent setting cannot be set lower than 360A to coordinate with the utility relay. Settings have been recommended to improve overall relay coordination; however, the time difference for the recommended settings at higher fault current are less than the 0.25-0.3 time margin for recommended relay coordination. It is recommended the CT’s be changed to a ratio of 600:5. If the CT’s are multi-tap this may be a matter of changing the tap setting, otherwise the CT should be replaced. Maintaining coordination between the utility relay and the downstream 12kV fuses is not possible with the current system configuration. Time-current coordination graph 00-01G.tcc shows the utility relay ground fault setting, the typical main ground fault setting 001-2G, and the typical feeder ground fault setting 001-4G. The existing main ground fault setting does not coordinate with the utility relay setting. Recommendations have been made to improve coordination; however the time differences for the recommended settings at higher fault currents are less than the recommended time margin of 0.25-.03 seconds. The main breaker ground fault settings in the Clinical Addition switchboard MSDB-A are typically set to trip before the feeder ground fault settings as shown in time-current coordination graph 01-03.tcc and 01-10G.tcc. Recommendations have been made to improve ground fault coordination between the main and all feeder breakers at switchboard MSDB-A. Time-current coordination graph 01-10E.tcc shows the emergency generator for the Clinical Addition. Recommendations were made to improve coordination in the emergency system. The generator protection points at 150% and 300% fall to the left of the main breaker curve. Breaker 135-5 may trip to protect the generator during a fault condition, however the generator is not protected for faults between breaker 135-5 and the generator terminals. Breaker trip settings and coordination requirements prevent the generator from being adequately protected. Time-current coordination graph 03-01 shows the main breaker 160-1 in the Clinical Addition switchboard MSDB-C. The existing settings do not protect the transformer per NEC Article 450. Settings were recommended to protect the transformer per NEC Article 450. Time-current coordination graph 04-01, the existing feeder breaker 601-2 does not coordinate with the Building 17 main breaker 601-1 settings. Settings were recommended to improve coordination between the main and feeder breakers. Time-current coordination graph 06-06 shows the emergency distribution system for Building 15 fed from the normal source. The main breaker 835-1 in the Emergency Distribution Panel does not coordinate with the upstream feeder 830-1 which would de-energize the entire Building 15 emergency distribution system. Recommendations were made to improve coordination. Time-current coordination graph 07-01 shows the Bldg 7 main 901-1 and the largest downstream feeder 901-2. As shown in this graph these devices overlap in the upper long-time region. Recommendations were made to improve coordination. Time-current coordination graph 11-01.tcc shows the AC MCB 320-1 and MCC FCB 320-4. The MCC FCB overlaps the main switchboard breaker 320-1. While on-site it was determined that the AC MCC was too dangerous to gather data. Since data is not known, recommendations for improved coordination are not provided.

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Time-current coordination graphs in the series 12 and 13 show the devices in switchboards SG-A and SG-B in building 1. Many of the downstream panels are Trumbull and the device trip curves are not known. Without knowing the downstream breakers, few recommendations were made to improve coordination. Where downstream breakers are known, the breakers generally have a similar trip rating to the feeder breaker and coordination cannot be improved. This can be seen in time-current coordination graph 12-02, devices 241-3 and 254-1. Time-current coordination graphs 12-03 through 12-05E show coordination between the main generator breaker in Building #18 and the downstream devices. In general, coordination based on existing settings is poor. Recommendations were made that increase coordination in the emergency system. The breaker types in the main panel fed from transformer T-13A could not be determined. Without this data, coordination could not be evaluated for this substation. Time-current coordination graph 04-01E.tcc shows the emergency generator for Building 17, graph 06-08E.tcc shows the emergency generator for Building 17, and graph 09-02E.tcc shows the emergency generator for Building 17. The generator protection points at 150% and 300% fall to the left of the main breaker curve.According to the Generator Protection section, MG 1 is used to ensure protection of generators; however, in many cases low-voltage generator protection is evaluated against the low-voltage breaker protecting the generator. Often, generator protection is compromised due to selectivity concerns, which was the case for this project. This is due to any one of the three protection points (3xFLA @ 10sec., maximum short-circuit @ 30sec., & 1.5xFLA @ 60sec.) not being protected. Because of selective coordination and recognizing that overcurrent devices downstream of the generator’s protective device can assist protection for faults further down in the system, sacrificing typical generator phase overcurrent protection is often deemed a rational approach. Other factors such as the ones listed below support this report’s settings recommendations: 1. Other protections are likely built into the generator control system, such as underfrequency,

underspeed, undervoltage, winding overtemperature, and will likely shut down the generator before damage occurs due to a short circuit or overload. The inclusion of the generator control system was outside the scope of this study.

2. The generator is an emergency source of power. Reliability and continuity of power are paramount. Attempting to protect the generator per Nema damage points causes potential power loss at the most critical time when relying on generator power.

3. Protecting the generator per the Nema damage points is too restrictive to allow coordination for the rest of the system. A fault in the zone from the generator to downstream breaker could result in loss of the generator and therefore all loads; however, faults downstream of rotating machinery, lighting, and process loads are much more likely.

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4.4 Overcurrent Device Setting Table(s)

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VA Medical Center Device Setting Table Wilmington, DE

Square D Engineering Services Fuses Diamond Bar, Ca

Device Number and Name Manufacture Bus VoltsBus Number and Name Device Type Description Dev. Volts Cartridge / Trip002 MV SWITCH #1 002-1 T-13A FDR SQUARE D 12000V 20A

High Voltage 15.5KV DIN 15500V 20A10-65E

002 MV SWITCH #1 002-2 T-13B FDR SQUARE D 12000V 15AHigh Voltage 15.5KV DIN 15500V 15A

10-65E

005 MV SWITCH #2 005-1 T-17 FDR SQUARE D 12000V 50AHigh Voltage 15.5KV DIN 15500V 50A

10-65E


10-65E


10-65E

010 MV SWITCH #7 010-1 TAP FDR SQUARE D 12000V 150AHigh Voltage 15.5KV DIN 15500V 150A

80-200E

012 XFMR T-1A-1 PRI 012-1 T-1A-1 MN CUTLER-HAMMER 12000V 80AHigh Voltage CLE, 15.5kV E-Rated 15500V 80A

20E-300E


20E-300E


20E-300EFUSE - Page 1 of 3

[Form Ver. 2.7]181 of 648



Device Number and Name Manufacture Bus VoltsBus Number and Name Device Type Description Dev. Volts Cartridge / Trip017 MV SWITCH #5 017-1 T-1-2 FDR SQUARE D 12000V 50A

High Voltage 15.5KV DIN 15500V 50A10-65E

017 MV SWITCH #5 017-2 T-19B FDR SQUARE D 12000V 20AHigh Voltage 15.5KV DIN 15500V 20A

10-65E

017 MV SWITCH #5 017-3 T-1-3 FDR SQUARE D 12000V 65AHigh Voltage 15.5KV DIN 15500V 65A

10-65E

018 SWITCH 137P19 018-1 T-1-2 MN GE 12000V 100AHigh Voltage 9F60 EJ0-1, 15.5kV E-Rated 15500V 100A

1E-100E

019 SWITCH B6 019-1 T-19B MN WESTINGHOUSE 12000V 20AHigh Voltage CLE 15.5KV 15500V 20A

20-80A


80-200E


10-65E


10-65E

021 MV SWITCH #4 021-4 T-19A FDR SQUARE D 12000V 20AHigh Voltage 15.5KV DIN 15500V 20A

10-65EFUSE - Page 2 of 3

[Form Ver. 2.7]182 of 648



Device Number and Name Manufacture Bus VoltsBus Number and Name Device Type Description Dev. Volts Cartridge / Trip024 SWITCH 141P26 024-1 T-1-1 MN GE 12000V 100A

High Voltage 9F60 EJ0-1, 15.5kV E-Rated 15500V 100A1E-100E

025 SWITCH A6 025-1 T-19A MN WESTINGHOUSE 12000V 20AHigh Voltage CLE 15.5KV 15500V 20A

20-80A

FUSE - Page 3 of 3[Form Ver. 2.7]183 of 648


Square D Engineering Services Relays Diamond Bar, Ca

Device Number and Name Manufacture Bus Volts Recommended SettingsBus Number and Name Device Type Description Dev. Volts CT Ratio Existing Settings (Changes Only)

001 NEW SUBSTATION SWGR 001-1 M2 SQUARE D 12000V 1200 / 5 PH CS 0.3 (360A)Electronic SEPAM 1000+ 230000V PH TD, IEEE VIT 0.3 PH TD, VIT 0.2

Inv. Curves, Phase Settings PH IP 24.0 (28800A) PH ITD 0.05

001 NEW SUBSTATION SWGR 001-1G M2 GF SQUARE D 12000V 1200 / 5 GF CS 0.1 (120A)Electronic SEPAM 1000+ 230000V GF TD, SIT 0.6 GF TD, VIT 0.4

Inv. Curves, GF Settings

001 NEW SUBSTATION SWGR 001-2 M1 SQUARE D 12000V 1200 / 5 PH CS 0.3 (360A)Electronic SEPAM 1000+ 230000V PH TD, IEEE VIT 0.3 PH TD, VIT 0.2

Inv. Curves, Phase Settings PH IP 24.0 (28800A) PH ITD 0.05

001 NEW SUBSTATION SWGR 001-2G M1 GF SQUARE D 12000V 1200 / 5 GF CS 0.1 (120A)Electronic SEPAM 1000+ 230000V GF TD, SIT 0.6 GF TD, VIT 0.4

Inv. Curves, GF Settings

001 NEW SUBSTATION SWGR 001-3 M3 East Loop Feeder SQUARE D 12000V 1200 / 5 PH CS 0.3 (360A)Electronic SEPAM 1000+ 230000V PH TD, IEEE VIT 0.1 PH TD, VIT 0.1

Inv. Curves, Phase Settings PH IP 4.0 (4800A) PH IP 2.0 (2400A) PH ITD 0.05

001 NEW SUBSTATION SWGR 001-3G 50N/51N SQUARE D 12000V 50 / 5 GF CS 1 (50A)Electronic SEPAM 1000+ 230000V GF TD, SIT 0.5 GF TD, VIT 0.5

Inv. Curves, GF Settings GF IP 15 (750A) GF ITD 0.05

001 NEW SUBSTATION SWGR 001-4 M4 West Loop Feeder SQUARE D 12000V 1200 / 5 PH CS 0.3 (360A)Electronic SEPAM 1000+ 230000V PH TD, IEEE VIT 0.1 PH TD, VIT 0.1

Inv. Curves, Phase Settings PH IP 4.0 (4800A) PH IP 2.0 (2400A) PH ITD 0.05

REL - Page 1 of 2[Form Ver. 2.7]184 of 648


Square D Engineering Services Relays Diamond Bar, Ca

Device Number and Name Manufacture Bus Volts Recommended SettingsBus Number and Name Device Type Description Dev. Volts CT Ratio Existing Settings (Changes Only)

001 NEW SUBSTATION SWGR 001-4G 50N/51N SQUARE D 12000V 50 / 5 GF CS 1 (50A)Electronic SEPAM 1000+ 230000V GF TD, SIT 0.5 GF TD, VIT 0.5

Inv. Curves, GF Settings GF IP 15 (750A) GF ITD 0.05

REL - Page 2 of 2[Form Ver. 2.7]185 of 648


Diamond Bar, Ca

FrameDevice Number and Name Manufacture Bus Volts Sensor Recommended Settings

Bus Number and Name Device Type Description Dev. Volts Plug Existing Settings (Changes Only)101 MDSB-A 101-1 MDSB-A MCB CUTLER-HAMMER 480V 1600A LTPU (0.5-1.0 x P) 1 (1600A)

Static Trip DS, RMS 510/610/810/910 600V 1600A LTD (2-24 Sec.) 24 LTD (2-24 Sec.) 7LSI, 200-5000A 1600A STPU (2-10 x LTPU) S1(8) (12800A) STPU (2-10 x LTPU) 5 (8000A)

STD (0.1-0.5 Sec.) 0.3 Sec.(I^2 T Out) STD (0.1-0.5 Sec.) 0.2 Sec.(I^2 T Out) INST (2-12 x P) 6 (9600A) INST (2-12 x P) M2(12) (19200A)

101 MDSB-A 101-1G MDSB-A MCB GF CUTLER-HAMMER 480V 1600A GFPU (1600A Plug) D (640A) GFPU (1600A Plug) E (800A)Ground Fault DS, RMS 510/610/810/910 600V 1600A GFD (0.1-0.5 Sec.) 0.3 Sec.(I^2 T Out) GFD (0.1-0.5 Sec.) 0.5 Sec.(I^2 T Out)

GF, 200-5000A 1600A

101 MDSB-A 101-10 ATS E2_N FCB CUTLER-HAMMER 480V 600A LTPU (1.0 x P) Fixed (400A)Static Trip HLD, RMS 310 600V 600A LTD (Fixed) Fixed

LSI, 300-600A Fixed Plug 400A STPU (2-8 x P) 8 (3200A) STD (Inst-300 ms) 300 ms(I^2 T In)

INST (5500A) Fixed (5500A)

101 MDSB-A 101-10G ATS E2 FCB GF CUTLER-HAMMER 480V 600A GFPU (2-5 x Ig) 5 x Ig (600A)Ground Fault HLD, RMS 310 600V 600A GFD (Inst-500 ms) 500 ms(I^2 T Out) GFD (Inst-500 ms) 300 ms(I^2 T Out)

GF, 300-600A 400A

101 MDSB-A 101-11 ATS E3_N FCB CUTLER-HAMMER 480V 800A LTPU (1.0 x P) Fixed (800A)Static Trip HND, RMS 310 600V 800A LTD (Fixed) Fixed

LSI, 400-1200A Fixed Plug 800A STPU (2-8 x P) 8 (6400A) STD (Inst-300 ms) 300 ms(I^2 T In) STD (Inst-300 ms) 100 ms(I^2 T In)

INST (14000A) Fixed (14000A)

101 MDSB-A 101-11G ATS E2 FCB GF CUTLER-HAMMER 480V 800A GFPU (2-6 x Ig) 6 x Ig (1111A) GFPU (2-6 x Ig) 3 x Ig (600A)Ground Fault HND, RMS 310 600V 800A GFD (Inst-500 ms) 500 ms(I^2 T Out) GFD (Inst-500 ms) 300 ms(I^2 T Out)

GF, 400-1200A 800A

101 MDSB-A 101-2 LP-GA FCB CUTLER-HAMMER 480V 125A LTPU (1.0 x P) Fixed (100A)Static Trip HKD, RMS 310 600V 125A LTD (Fixed) Fixed



101 MDSB-A 101-2G LP-GA FCB GF CUTLER-HAMMER 480V 125A GFPU (3-5 x Ig) 5 x Ig (125A)Ground Fault HKD, RMS 310 600V 125A GFD (Inst-500 ms) 500 ms(I^2 T Out) GFD (Inst-500 ms) 300 ms(I^2 T Out)

GF, 70-125A 100A

Square D Engineering Services LV Circuit Breakers

NOTE: Breaker Frame, Sensor and Plug types must be verified to agree with this list prior to installing settings. I2t dial settings, In, Out, On, or Off, follow the convention of In = On and Out = Off.

LVCB - Page 1 of 26[Form Ver. 2.7]186 of 648


Diamond Bar, Ca


Bus Number and Name Device Type Description Dev. Volts Plug Existing Settings (Changes Only)


101 MDSB-A 101-3 LP-GB FCB CUTLER-HAMMER 480V 125A LTPU (1.0 x P) Fixed (100A)Static Trip HKD, RMS 310 600V 125A LTD (Fixed) Fixed



101 MDSB-A 101-3G LP-GB FCB GF CUTLER-HAMMER 480V 125A GFPU (3-5 x Ig) 5 x Ig (125A)Ground Fault HKD, RMS 310 600V 125A GFD (Inst-500 ms) 500 ms(I^2 T Out) GFD (Inst-500 ms) 300 ms(I^2 T Out)

GF, 70-125A 100A

101 MDSB-A 101-4 LP-1A FCB CUTLER-HAMMER 480V 125A LTPU (1.0 x P) Fixed (100A)Static Trip HKD, RMS 310 600V 125A LTD (Fixed) Fixed



101 MDSB-A 101-4G LP-1A FCB GF CUTLER-HAMMER 480V 125A GFPU (3-5 x Ig) 5 x Ig (125A)Ground Fault HKD, RMS 310 600V 125A GFD (Inst-500 ms) 500 ms(I^2 T Out) GFD (Inst-500 ms) 300 ms(I^2 T Out)

GF, 70-125A 100A

101 MDSB-A 101-5 LP-1B FCB CUTLER-HAMMER 480V 125A LTPU (1.0 x P) Fixed (100A)Static Trip HKD, RMS 310 600V 125A LTD (Fixed) Fixed



101 MDSB-A 101-5G LP-1B FCB GF CUTLER-HAMMER 480V 125A GFPU (3-5 x Ig) 5 x Ig (125A)Ground Fault HKD, RMS 310 600V 125A GFD (Inst-500 ms) 500 ms(I^2 T Out) GFD (Inst-500 ms) 300 ms(I^2 T Out)

GF, 70-125A 100A

101 MDSB-A 101-6 LP-2B FCB CUTLER-HAMMER 480V 250A LTPU (1.0 x P) Fixed (175A)Static Trip HKD, RMS 310 600V 250A LTD (Fixed) Fixed



101 MDSB-A 101-6G LP-2B FCB GF CUTLER-HAMMER 480V 250A GFPU (2-5 x Ig) 5 x Ig (250A)Ground Fault HKD, RMS 310 600V 250A GFD (Inst-500 ms) 500 ms(I^2 T Out) GFD (Inst-500 ms) 300 ms(I^2 T Out)

GF, 70-400A 175A




Diamond Bar, Ca




101 MDSB-A 101-7 MCC-GB FCB CUTLER-HAMMER 480V 600A LTPU (1.0 x P) Fixed (400A)Static Trip HLD, RMS 310 600V 600A LTD (Fixed) Fixed



101 MDSB-A 101-7G MCC-GB FCB GF CUTLER-HAMMER 480V 600A GFPU (2-5 x Ig) 5 x Ig (600A)Ground Fault HLD, RMS 310 600V 600A GFD (Inst-500 ms) 500 ms(I^2 T Out) GFD (Inst-500 ms) 300 ms(I^2 T Out)

GF, 300-600A 400A

101 MDSB-A 101-8 MCC-2B FCB CUTLER-HAMMER 480V 250A LTPU (1.0 x P) Fixed (200A)Static Trip HKD, RMS 310 600V 250A LTD (Fixed) Fixed



101 MDSB-A 101-8G MCC-2B FCB GF CUTLER-HAMMER 480V 250A GFPU (2-5 x Ig) 5 x Ig (250A)Ground Fault HKD, RMS 310 600V 250A GFD (Inst-500 ms) 500 ms(I^2 T Out) GFD (Inst-500 ms) 300 ms(I^2 T Out)

GF, 70-400A 200A

101 MDSB-A 101-9 ATS E1_N FCB CUTLER-HAMMER 480V 250A LTPU (1.0 x P) Fixed (250A)Static Trip HKD, RMS 310 600V 250A LTD (Fixed) Fixed



101 MDSB-A 101-9G ATS E1 FCB GF CUTLER-HAMMER 480V 250A GFPU (2-5 x Ig) 5 x Ig (250A)Ground Fault HKD, RMS 310 600V 250A GFD (Inst-500 ms) 500 ms(I^2 T Out) GFD (Inst-500 ms) 300 ms(I^2 T Out)

GF, 70-400A 250A

106 LP-2B 106-1 LP-2B MCB CUTLER-HAMMER 480V 400A Thermal Curve (Fixed) Thermal Magnetic KD 600V 175A INST (5-10 x Trip) 10 (1750A)

100-400A

107 ECB 2160 107-1 ECB 2160 CUTLER-HAMMER 480V 250A Thermal Curve (Fixed) Thermal Magnetic JD 600V 100A INST (5-10 x Trip) 10 (1000A)

70-250A




Diamond Bar, Ca





70-250A


70-250A


70-250A

111 MCC-GB 111-1 MCC-GB MCB CUTLER-HAMMER 480V 400A Thermal Curve (Fixed) Thermal Magnetic HKD 600V 400A INST (5-10 x Trip) 10 (4000A)

100-400A

112 MCC-2B 112-1 MCC-2B MCB CUTLER-HAMMER 480V 250A Thermal Curve (Fixed) Thermal Magnetic JD 600V 200A INST (5-10 x Trip) 10 (2000A)

70-250A

117 EDP-GA 117-1 EDP-GA MCB WESTINGHOUSE 480V 900A LTPU 1.0 (900A)Static Trip NC SELTRNC 600V 900A LTD LTD

800-1200A STPU 8.0 (7200A) STD-I2T STD(I^2 T In)

117 EDP-GA 117-2 ATS-E2_E FCB WESTINGHOUSE 480V 400A LTD Thermal Magnetic KDB, KD 600V 400A INST 10.0 (4000A)

100-400A

117 EDP-GA 117-3 ATS-E3_E FCB CUTLER-HAMMER 480V 800A LTPU (1.0 x P) Fixed (800A)Static Trip MCA 600V 800A LTD (Fixed) Fixed

400-800A Fixed Plug 800A STPU (3-10 x P) 10 (8000A) STPU (3-10 x P) 7 (5600A) STD (Min-Max) Min(I^2 T In)


117 EDP-GA 117-4 ATS-E1_E FCB WESTINGHOUSE 480V 250A LTD Thermal Magnetic JDB, JD 600V 250A INST 10.0 (2500A)

70-250A




Diamond Bar, Ca




122 E1DP-GA 122-1 E1DP-GA MCB CUTLER-HAMMER 480V 400A Thermal Curve (Fixed) Thermal Magnetic KD 600V 250A INST (5-10 x Trip) 10 (2500A)

100-400A

127 E2DP-GA 127-1 E2DP-GA MCB CUTLER-HAMMER 480V 400A Thermal Curve (Fixed) Thermal Magnetic KD 600V 400A INST (5-10 x Trip) 10 (4000A)

100-400A127 E2DP-GA 127-3 E2LP-GA FCB CUTLER-HAMMER 480V 250A Thermal Curve (Fixed)

Thermal Magnetic HJD 600V 250A INST (5-10 x Trip) 10 (2500A)70-250A

128 ECB 128-1 ECB SQUARE D 480V 150A Thermal Curve Thermal Magnetic KA 600V 125A INST LO (625A)

70-250A

129 E2LP-GA 129-1 E2LP-GA MCB CUTLER-HAMMER 480V 400A Thermal Curve (Fixed) Thermal Magnetic KD 600V 250A INST (5-10 x Trip) 10 (2500A)

100-400A

129 E2LP-GA 129-3 E2LP-2C FCB CUTLER-HAMMER 480V 250A Thermal Curve (Fixed) Thermal Magnetic JD 600V 200A INST (5-10 x Trip) 10 (2000A)

70-250A

132 E2LP-2C 132-1 E2LP-2C MCB WESTINGHOUSE 480V 250A LTD Thermal Magnetic HJD 600V 200A INST 10.0 (2000A)

70-250A

133 2143 ECB 133-1 2143 ECB CUTLER-HAMMER 480V 250A Thermal Curve (Fixed) Thermal Magnetic JD 600V 100A INST (5-10 x Trip) 10 (1000A)

70-250A

135 E3DP-GA 135-1 E3DP-GA MCB CUTLER-HAMMER 480V 800A LTPU (1.0 x P) Fixed (800A)Static Trip MC 600V 800A LTD (Fixed) Fixed

400-800A Fixed Plug 800A STPU (3-10 x P) 10 (8000A) STPU (3-10 x P) 7 (5600A) STD (Fixed) Fixed(I^2 T In) INST (9000A) Fixed (9000A)




Diamond Bar, Ca




135 E3DP-GA 135-2 OR CHILLER FCB CUTLER-HAMMER 480V 400A Thermal Curve (Fixed) Thermal Magnetic KD 600V 400A INST (5-10 x Trip) 7.5 (3000A)

100-400A

135 E3DP-GA 135-4 EMCC-GB FCB CUTLER-HAMMER 480V 250A Thermal Curve (Fixed) Thermal Magnetic HJD 600V 200A INST (5-10 x Trip) 10 (2000A)

70-250A

135 E3DP-GA 135-5 E3LP-2B FCB CUTLER-HAMMER 480V 400A Thermal Curve (Fixed) Thermal Magnetic KD 600V 400A INST (5-10 x Trip) 10 (4000A)

100-400A

135 E3DP-GA 135-6 SPARE CUTLER-HAMMER 480V 400A Thermal Curve (Fixed) Thermal Magnetic KD 600V 400A INST (5-10 x Trip) 10 (4000A)

100-400A

139 EMCC-GB 139-1 EMCC-GB MCB CUTLER-HAMMER 480V 250A Thermal Curve (Fixed) Thermal Magnetic HJD 600V 200A INST (5-10 x Trip) 10 (2000A)

70-250A

140 E3LP-2B 140-1 E3LP-2B MCB CUTLER-HAMMER 480V 400A Thermal Curve (Fixed) Thermal Magnetic KD 600V 400A INST (5-10 x Trip) 10 (4000A)

100-400A

150 MDSB-B 150-1 MDSB-B MCB CUTLER-HAMMER 208V 1600A LTPU (0.5-1.0 x P) 1 (1600A)Static Trip DS, RMS 510/610/810/910 600V 1600A LTD (2-24 Sec.) 24 LTD (2-24 Sec.) 4

LSI, 200-5000A 1600A STPU (2-10 x LTPU) S1(8) (12800A) STPU (2-10 x LTPU) 3 (4800A) STD (0.1-0.5 Sec.) 0.3 Sec.(I^2 T Out) STD (0.1-0.5 Sec.) 0.5 Sec.(I^2 T Out)

INST (2-12 x P) 6 (9600A)

150 MDSB-B 150-2 RP-GA FCB CUTLER-HAMMER 208V 250A LTPU (1.0 x P) Fixed (200A)Static Trip HKD, RMS 310 600V 250A LTD (Fixed) Fixed



150 MDSB-B 150-2G RP-GA FCB GF CUTLER-HAMMER 208V 250A GFPU (2-5 x Ig) 5 x Ig (250A)Ground Fault HKD, RMS 310 600V 250A GFD (Inst-500 ms) 500 ms(I^2 T Out)

GF, 70-400A 200A




Diamond Bar, Ca




150 MDSB-B 150-3 RP-1B FCB CUTLER-HAMMER 208V 250A LTPU (1.0 x P) Fixed (250A)Static Trip HKD, RMS 310 600V 250A LTD (Fixed) Fixed



150 MDSB-B 150-3G RP-1B FCB GF CUTLER-HAMMER 208V 250A GFPU (2-5 x Ig) 5 x Ig (250A)Ground Fault HKD, RMS 310 600V 250A GFD (Inst-500 ms) 500 ms(I^2 T Out)

GF, 70-400A 250A

150 MDSB-B 150-4 RP-1A FCB CUTLER-HAMMER 208V 600A LTPU (1.0 x P) Fixed (300A)Static Trip HLD, RMS 310 600V 600A LTD (Fixed) Fixed



150 MDSB-B 150-4G RP-1A FCB GF CUTLER-HAMMER 208V 600A GFPU (2-5 x Ig) 5 x Ig (600A)Ground Fault HLD, RMS 310 600V 600A GFD (Inst-500 ms) 500 ms(I^2 T Out)

GF, 300-600A 300A

150 MDSB-B 150-5 RP-GB FCB CUTLER-HAMMER 208V 600A LTPU (1.0 x P) Fixed (300A)Static Trip HLD, RMS 310 600V 600A LTD (Fixed) Fixed



150 MDSB-B 150-5G RP-GB FCB GF CUTLER-HAMMER 208V 600A GFPU (2-5 x Ig) 5 x Ig (600A)Ground Fault HLD, RMS 310 600V 600A GFD (Inst-500 ms) 500 ms(I^2 T Out)

GF, 300-600A 300A

150 MDSB-B 150-6 RP-2B FCB CUTLER-HAMMER 208V 600A LTPU (1.0 x P) Fixed (300A)Static Trip HLD, RMS 310 600V 600A LTD (Fixed) Fixed



150 MDSB-B 150-6G RP-2B FCB GF CUTLER-HAMMER 208V 600A GFPU (2-5 x Ig) 5 x Ig (600A)Ground Fault HLD, RMS 310 600V 600A GFD (Inst-500 ms) 500 ms(I^2 T Out)

GF, 300-600A 300A




Diamond Bar, Ca




152 RP-1B 152-1 RP-1B MCB CUTLER-HAMMER 208V 400A Thermal Curve (Fixed) Thermal Magnetic DK 240V 250A INST (5-10 x Trip) 10 (2500A)

250-400A

153 RP-1A 153-1 RP-1A MCB CUTLER-HAMMER 208V 400A Thermal Curve (Fixed) Thermal Magnetic DK 240V 300A INST (5-10 x Trip) 10 (3000A)

250-400A

154 RP-GB 154-1 RP-GB MCB CUTLER-HAMMER 208V 400A Thermal Curve (Fixed) Thermal Magnetic DK 240V 300A INST (5-10 x Trip) 10 (3000A)

250-400A

155 RP-2B 155-1 RP-2B MCB CUTLER-HAMMER 208V 400A Thermal Curve (Fixed) Thermal Magnetic DK 240V 300A INST (5-10 x Trip) 10 (3000A)

250-400A

160 MDSB-C 160-1 MDSB-C MCB CUTLER-HAMMER 480V 1600A LTPU (0.5-1.0 x P) 1 (1600A) LTPU (0.5-1.0 x P) 0.7 (1120A)Static Trip DS, RMS 510/610/810/910 600V 1600A LTD (2-24 Sec.) 24 LTD (2-24 Sec.) 7

LSI, 200-5000A 1600A STPU (2-10 x LTPU) 6 (9600A) STPU (2-10 x LTPU) 5 (5600A) STD (0.1-0.5 Sec.) 0.3 Sec.(I^2 T Out) STD (0.1-0.5 Sec.) 0.5 Sec.(I^2 T Out)

INST (2-12 x P) 6 (9600A)

160 MDSB-C 160-2 CHILLER1 FCB CUTLER-HAMMER 480V 600A LTPU (1.0 x P) Fixed (500A)Static Trip HLD, RMS 310 600V 600A LTD (Fixed) Fixed



160 MDSB-C 160-2G CHILLER1 FCB GF CUTLER-HAMMER 480V 600A GFPU (2-5 x Ig) 5 x Ig (600A)Ground Fault HLD, RMS 310 600V 600A GFD (Inst-500 ms) 500 ms(I^2 T Out)

GF, 300-600A 500A

160 MDSB-C 160-3 CHILLER2 FCB CUTLER-HAMMER 480V 600A LTPU (1.0 x P) Fixed (500A)Static Trip HLD, RMS 310 600V 600A LTD (Fixed) Fixed






Diamond Bar, Ca




160 MDSB-C 160-3G CHILLER2 FCB GF CUTLER-HAMMER 480V 600A GFPU (2-5 x Ig) 5 x Ig (600A)Ground Fault HLD, RMS 310 600V 600A GFD (Inst-500 ms) 500 ms(I^2 T Out)

GF, 300-600A 500A

171 MAIN SG A 171-1 MAIN A CUTLER-HAMMER 208V 2000A LTPU (0.4-1.0 x P) 1 (2000A)Static Trip Magnum DS, RMS 520 600V 2000A LTD (2-24 Sec.) 7

LSI, 2000AF, 1600-2000A Plugs 2000A STPU (2-12 x LTPU) 4 (8000A) STD (0.1-0.5 Sec.) 0.3(I^2 T Out) INST (2-12 x P) M1(12) (24000A)

171 MAIN SG A 171-12 A3-1 CUTLER-HAMMER 208V 600A LTPU (1.0 x P) Fixed (400A)Static Trip LD, RMS 310 600V 600A LTD (Fixed) Fixed

LSI, 300-600A Fixed Plug 400A STPU (2-8 x P) 8 (3200A) STD (Inst-300 ms) 100 ms(I^2 T Out)



LSI, 300-600A Fixed Plug 300A STPU (2-8 x P) 8 (2400A) STD (Inst-300 ms) 100 ms(I^2 T Out) STD (Inst-300 ms) 300 ms(I^2 T Out)



LSI, 300-600A Fixed Plug 300A STPU (2-8 x P) 8 (2400A) STD (Inst-300 ms) 100 ms(I^2 T Out)


171 MAIN SG A 171-15 A3-4 CUTLER-HAMMER 208V 400A LTPU (1.0 x P) Fixed (400A)Static Trip HKD, RMS 310 600V 400A LTD (Fixed) Fixed









Diamond Bar, Ca

























Diamond Bar, Ca





LSI, 70-400A Fixed Plug 250A STPU (2-8 x P) 8 (2000A) STD (Inst-300 ms) 100 ms(I^2 T In) STD (Inst-300 ms) 300 ms(I^2 T In)


171 MAIN SG A 171-5 A2-6 CUTLER-HAMMER 208V 250A Thermal Curve (Fixed) Thermal Magnetic HJD 600V 225A INST (5-10 x Trip) 10 (2250A)

70-250A


70-250A


70-250A


70-250A

171 MAIN SG A 171-T TIE CUTLER-HAMMER 208V 2000A LTPU (0.4-1.0 x P) 0.7 (1400A)Static Trip Magnum DS, RMS 520 600V 2000A LTD (2-24 Sec.) 7


174 LP7A-1 174-1 LP7A-1 MCB CUTLER-HAMMER 208V 400A Thermal Curve (Fixed) Thermal Magnetic DK 240V 300A INST (5-10 x Trip) 10 (3000A) INST (5-10 x Trip) 6 (1800A)

250-400A

182 PNL A 182-1 PNL A BR ITE 208V 20A LTD Thermal Magnetic BQ/QP 1P 240V 15A INST 12.5 (250A)

15-40A****

193 PP RM1134 193-1 PP RM1134 MCB CUTLER-HAMMER 208V 400A Thermal Curve (Fixed) Thermal Magnetic DK 240V 350A INST (5-10 x Trip) 10 (3500A) INST (5-10 x Trip) 5 (1750A)

250-400A




Diamond Bar, Ca




205 XRAY B 205-1 MORGUE WESTINGHOUSE 208V 200A LTD Thermal Magnetic JB, KB 600V 100A INST 5.0 (500A) INST 10.0 (1000A)

70-250A

205 XRAY B 205-2 RP2G FCB WESTINGHOUSE 208V 200A LTD Thermal Magnetic JB, KB 600V 150A INST 10.0 (1500A)

70-250A

205 XRAY B 205-6 RP2H FCB WESTINGHOUSE 208V 200A LTD Thermal Magnetic JB, KB 600V 150A INST 10.0 (1500A)

70-250A

205 XRAY B 205-7 RP2J FCB WESTINGHOUSE 208V 200A LTD Thermal Magnetic JB, KB 600V 150A INST 10.0 (1500A)

70-250A

205 XRAY B 205-8 RP2K FCB WESTINGHOUSE 208V 200A LTD Thermal Magnetic JB, KB 600V 150A INST 5.0 (750A) INST 10.0 (1500A)

70-250A

214 RP-1C-1 214-1 RP-1C-1 MCB CUTLER-HAMMER 208V 400A Thermal Curve (Fixed) Thermal Magnetic DK 240V 350A INST (5-10 x Trip) 10 (3500A) INST (5-10 x Trip) 7 (2450A)

250-400A

227 E2-4B 227-1 E2-4B MCB CUTLER-HAMMER 208V 400A Thermal Curve (Fixed) Thermal Magnetic DK 240V 400A INST (5-10 x Trip) 7.5 (3000A) INST (5-10 x Trip) 6 (2400A)

250-400A

241 MAIN SG B 241-1 MAIN B CUTLER-HAMMER 208V 2000A LTPU (0.4-1.0 x P) 1 (2000A)Static Trip Magnum DS, RMS 520 600V 2000A LTD (2-24 Sec.) 7


241 MAIN SG B 241-10 B6-12 CUTLER-HAMMER 208V 400A LTPU (1.0 x P) Fixed (300A)Static Trip HKD, RMS 310 600V 400A LTD (Fixed) Fixed






Diamond Bar, Ca













241 MAIN SG B 241-14 B6-16 CUTLER-HAMMER 208V 250A Thermal Curve (Fixed) Thermal Magnetic HJD 600V 250A INST (5-10 x Trip) 10 (2500A)

70-250A


70-250A


70-250A

241 MAIN SG B 241-2 B5-1 CUTLER-HAMMER 208V 800A LTPU (1.0 x P) FIXED (800A)Static Trip HMDL RMS 310 600V 800A LTD (Fixed) FIXED

LSI 400-800A Fixed Plug 800A STPU (2-8 x P) 5 (4000A) STPU (2-8 x P) 8 (6400A) STD (Inst-300 ms) 100 ms(I^2 T In) STD (Inst-300 ms) Inst(I^2 T In)

INST (5500A) FIXED (5500A)




Diamond Bar, Ca

























Diamond Bar, Ca







242 DP ECB 242-1 DP ECB GE 208V 800A Thermal Curve (Fixed) Thermal Magnetic TKMA 600V 800A INST (3-8 x Trip) HI (6400A) INST (3-8 x Trip) 7 (5600A)

300-1200A

243 PANEL DP 243-1 ATS 7_N FCB GE 208V 600A MAX 4 Thermal Magnetic SGHA, Spectra RMS 600V 600A

125-600A

243 PANEL DP 243-2 ATS 9_N FCB GE 208V 225A Thermal Curve (Fixed) Thermal Magnetic TFK 600V 200A INST (4.5-10 x Trip) HI (2000A)

70-225A

243 PANEL DP 243-3 ATS 8_N FCB GE 208V 225A Thermal Curve (Fixed) Thermal Magnetic TFK 600V 200A INST (4.5-10 x Trip) HI (2000A)

70-225A

254 RP-1D-1 254-1 RP-1D-1 MCB CUTLER-HAMMER 208V 400A Thermal Curve (Fixed) Thermal Magnetic DK 240V 350A INST (5-10 x Trip) 10 (3500A) INST (5-10 x Trip) 7 (2450A)

250-400A

320 AC SWBD 320-1 AC MCB WESTINGHOUSE 480V 2000A LTPU 1.0 (2000A)Static Trip DS 600V 2000A LTD 20

AMPTECT IA STPU 4.0 (8000A) STD 0.33

320 AC SWBD 320-1G AC MCB GF WESTINGHOUSE 480V 2000A PU 2000A sensor D (1200A)Ground Fault Amptector I-A 600V 2000A 0.5 sec. Delay

GF

320 AC SWBD 320-2 LPGE FCB CUTLER-HAMMER 480V 1600A LTPU (0.5-1.0 x P) 0.5 (150A)Static Trip DS, RMS 510/610/810/910 600V 300A LTD (2-24 Sec.) 20

LSI, 200-5000A 300A STPU (2-10 x LTPU) 4 (600A) STPU (2-10 x LTPU) S2(10) (1500A) STD (0.1-0.5 Sec.) 0.3 Sec.(I^2 T Out) STD (0.1-0.5 Sec.) 0.5 Sec.(I^2 T Out)

INST (2-12 x P) 3 (900A) INST (2-12 x P) M1(8) (2400A)




Diamond Bar, Ca




320 AC SWBD 320-2G LPGE FCB GF CUTLER-HAMMER 480V 1600A GFPU (100-1200A Plug) A (75A)Ground Fault DS, RMS 510/610/810/910 600V 300A GFD (0.1-0.5 Sec.) 0.3 Sec.(I^2 T Out) GFD (0.1-0.5 Sec.) 0.2 Sec.(I^2 T Out)

GF, 200-5000A 300A

320 AC SWBD 320-3 HP-9M FCB WESTINGHOUSE 480V 1600A LTPU 1.0 (200A)Static Trip DS 600V 200A LTD 20


INST 6.0 (1200A)

320 AC SWBD 320-3G HP-9M FCB GF WESTINGHOUSE 480V 1600A PU 200A sensor A (65A) PU 200A sensor D (145A)Ground Fault Amptector I-A 600V 200A 0.35 sec Delay 0.22 sec. Delay

GF

320 AC SWBD 320-4 MCC FCB WESTINGHOUSE 480V 1600A LTPU 1.0 (1600A)Static Trip DS 600V 1600A LTD 20


320 AC SWBD 320-4G MCC FCB GF WESTINGHOUSE 480V 1600A PU 1200A sensor D (972.8A) PU 1200A sensor C (640A)Ground Fault Amptector I-A 600V 1600A 0.5 sec. Delay 0.22 sec. Delay

GF

321 LPGE 321-1 LPGE MCB CUTLER-HAMMER 480V 250A Thermal Curve (Fixed) Thermal Magnetic JD 600V 200A INST (5-10 x Trip) 10 (2000A)

70-250A

331 DIETETICS ECB 331-1 DIETETICS ECB GE 208V 800A Thermal Curve (Fixed) Thermal Magnetic TKMA 600V 800A INST (3-8 x Trip) HI (6400A)

300-1200A

332 KDP 332-1 AHU FCB GE 208V 110A Thermal Curve (Fixed) Thermal Magnetic THFK 600V 100A INST (6-12.5 x Trip) HI (1250A)

70-225A

332 KDP 332-2 CENT REFR SYS FCB GE 208V 225A Thermal Curve (Fixed) Thermal Magnetic THFK 600V 150A INST (4.5-10 x Trip) HI (1500A)

70-225A




Diamond Bar, Ca




332 KDP 332-3 TRAY FD PREP FCB GE 208V 225A Thermal Curve (Fixed) Thermal Magnetic THFK 600V 150A INST (4.5-10 x Trip) HI (1500A)

70-225A

332 KDP 332-4 PNL KPA FCB GE 208V 225A Thermal Curve (Fixed) Thermal Magnetic THFK 600V 150A INST (4.5-10 x Trip) HI (1500A)

70-225A

332 KDP 332-5 PNL KPD FCB GE 208V 225A Thermal Curve (Fixed) Thermal Magnetic THFK 600V 225A INST (4.5-10 x Trip) HI (2250A)

70-225A

332 KDP 332-6 PNL KLP FCB GE 208V 225A Thermal Curve (Fixed) Thermal Magnetic THFK 600V 150A INST (4.5-10 x Trip) HI (1500A)

70-225A

332 KDP 332-7 UTILITY DIST SYS GE 208V 225A Thermal Curve (Fixed) Thermal Magnetic THFK 600V 150A INST (4.5-10 x Trip) HI (1500A)

70-225A

332 KDP 332-8 PNL PP FCB GE 208V 225A Thermal Curve (Fixed) Thermal Magnetic THFK 600V 200A INST (4.5-10 x Trip) HI (2000A)

70-225A

340 XRAY SUBSTATION 340-1 PANEL A FCB WESTINGHOUSE 480V 1600A LTPU 1 (1200A)Static Trip AMPTECTOR 600V 1200A LTD 20

I (LI) INST 8 (9600A)

340 XRAY SUBSTATION 340-1G PANEL A FCB GF WESTINGHOUSE 480V 1600A GFPU FIXED (0.2) (240A)Ground Fault AMPTECTOR 600V 1200A GFD 0.21

I (GF)

341 PANEL A 341-3 CT XFMR WESTINGHOUSE 480V 200A LTD Thermal Magnetic JB, KB 600V 125A INST 10.0 (1250A)

70-250A

341 PANEL A 341-4 SPARE WESTINGHOUSE 480V 200A LTD Thermal Magnetic JB, KB 600V 125A INST 10.0 (1250A)

70-250A




Diamond Bar, Ca




341 PANEL A 341-7 SPARE WESTINGHOUSE 480V 200A LTD Thermal Magnetic JB, KB 600V 150A INST 10.0 (1500A)

70-250A

341 PANEL A 341-8 2008 WESTINGHOUSE 480V 200A LTD Thermal Magnetic JB, KB 600V 125A INST 10.0 (1250A)

70-250A

402 MAIN BRKR 402-1 #18 GEN BRKR GE 208V 1600A LTPU (0.6-1.1 x S) 1 (1600A)Static Trip AK & AKR, ECS 600V 1600A LTD (Min-Max) Min LTD (Min-Max) Max

LSI, 100-4000A STPU (1.75-4 x LTPU) 2.25 (3600A) STPU (1.75-4 x LTPU) 4 (6400A) STD (Min-Max) Min STD (Min-Max) Max

INST (4-12 x LTPU) 6 (9600A) INST (4-12 x LTPU) 8 (12800A)

403 CRITICAL BRKR 403-1 BLDG 18 FDR SQUARE D 208V 1000A Thermal Curve Thermal Magnetic MA 600V 800A INST LO (4000A)

125-1200A

404-1 ATS-1_E FCB (E1) WESTINGHOUSE 208V 800A LTPU 1.0 (200A)Static Trip DS 600V 200A LTD 8

AMPTCT IIA INST 6.0 (1200A) INST 11.89 (2378A)

404-2 DIETETICS_E FCB (E2) WESTINGHOUSE 208V 800A LTPU 0.75 (150A)Static Trip DS 600V 200A LTD 20

AMPTCT IIA INST 6.0 (1200A)



404-4 ATS-4_E FCB (E4) WESTINGHOUSE 208V 800A LTPU 1.0 (100A) LTPU 0.7 (70A)Static Trip DS 600V 100A LTD 8




404 BLDG18 CRITICAL EMERGENCY








Diamond Bar, Ca






410 DPE BRKR 410-1 RM 143 FDR WESTINGHOUSE 208V 800A LTPU 1.0 (800A)Static Trip DS 600V 800A LTD 20

AMPTECT IA INST 6.0 (4800A) INST 6.2 (4960A)

411 DPE 411-1 ATS-7_E FCB GE 208V 600A MAX 4 Thermal Magnetic SGHA, Spectra RMS 600V 600A

125-600A

418 EDP1 418-1 EDP1 MCB GE 208V 600A MAX 4 Thermal Magnetic SGHA, Spectra RMS 600V 600A

125-600A

418 EDP1 418-12 MICU/SICU GE 208V 400A MAX 5 Thermal Magnetic SGDA, Spectra RMS 240V 300A

125-400A

418 EDP1 418-13 EC3 IN ICU FCB GE 208V 400A MAX 4 Thermal Magnetic SGDA, Spectra RMS 240V 400A

125-400A

418 EDP1 418-14 E24W RM 40E3 GE 208V 400A MAX Thermal Magnetic SGDA, Spectra RMS 240V 175A

125-400A

418 EDP1 418-15 CB3W/RM300 GE 208V 400A MAX 5 Thermal Magnetic SGDA, Spectra RMS 240V 300A

125-400A

454 POWER PANEL 454-1 PP MCB FPE 208V 225A LTD Thermal Magnetic NFJ, HFJ 600V 200A INST HI (1900A)

70-225A





Diamond Bar, Ca




500 XFMR T-19B SEC 500-1 CRITICAL N. WESTINGHOUSE 208V 800A LTPU 1.0 (800A)Static Trip DS 600V 800A LTD 20 LTD 12

AMPTECT IA STPU 10.0 (8000A) STPU 7 (5600A) STD 0.33 STD 0.18

INST 6.0 (4800A) INST 12.0 (9600A)

500 XFMR T-19B SEC 500-1G CRIT N GF WESTINGHOUSE 208V 800A PU 800A sensor A (180A) PU 800A sensor B (260A)Ground Fault Amptector I-A 600V 800A 0.22 sec. Delay 0.5 sec. Delay

GF

501 XFMR T-19A SEC 501-1 S CRIT N GF WESTINGHOUSE 208V 800A PU 800A sensor B (260A)Ground Fault Amptector I-A 600V 800A 0.22 sec. Delay 0.5 sec. Delay

GF

501 XFMR T-19A SEC 501-1 SEC. CRIT. N. WESTINGHOUSE 208V 800A LTPU 1.0 (800A)Static Trip DS 600V 800A LTD 20 LTD 12

AMPTECT IA STPU 4.0 (3200A) STPU 7 (5600A) STD 0.33 STD 0.18

INST 6.0 (4800A) INST 12.0 (9600A)

502-1 EDP-1_N FCB (N1) WESTINGHOUSE 208V 800A LTPU 1.0 (200A)Static Trip DS 600V 200A LTD 8 LTD 20


502-2 DIETETICS_N FCB (N2) CUTLER-HAMMER 208V 800A LTPU (0.5-1.0 x P) 1 (200A)Static Trip DS, RMS 510/610/810/910 600V 200A LTD (2-24 Sec.) 20 LTD (2-24 Sec.) 24

LSI, 200-5000A 200A STPU (2-10 x LTPU) S2(10) (2000A) STD (0.1-0.5 Sec.) 0.5 Sec.(I^2 T In)

INST (2-12 x P) M1(8) (1600A)

502-2G DIETETICS GF CUTLER-HAMMER 208V 800A GFPU (100-1200A Plug) K (200A)Ground Fault DS, RMS 510/610/810/910 600V 200A GFD (0.1-0.5 Sec.) 0.5 Sec.(I^2 T Out) GFD (0.1-0.5 Sec.) 0.2 Sec.(I^2 T Out)

GF, 200-5000A 200A

502-3 ELE 4_N FCB (N3) WESTINGHOUSE 208V 800A LTPU 1.0 (300A)Static Trip DS 600V 300A LTD 8


502 CRITICAL SWBD BLDG #18







Diamond Bar, Ca




502-4 ATS-4_N FCB (N4) WESTINGHOUSE 208V 800A LTPU 1.0 (150A)Static Trip DS 600V 150A LTD 8


502-5 CENT VAC _N FCB(N5) WESTINGHOUSE 208V 800A LTPU 1.0 (400A)Static Trip DS 600V 400A LTD 20


502-6 HEMO_N FCB (N6) WESTINGHOUSE 208V 800A LTPU 1.0 (100A)Static Trip DS 600V 100A LTD 20


527 KP ECB 527-1 KP ECB GE 208V 150A MAX Thermal Magnetic SEDA, Spectra RMS 600V 150A

15-150A

601 BLDG 17 MN 601-1 BLDG 17 MCB WESTINGHOUSE 208V 1600A LTPU 1.0 (1600A)Static Trip DS 600V 1600A LTD 20

AMPTCT IIA STPU 4.0 (6400A) STD 0.18

601 BLDG 17 MN 601-2 EDP FCB WESTINGHOUSE 208V 600A LTPU 1.0 (600A)Static Trip LC SELTRNC 600V 600A LTD LTD

300-600A STPU 10.0 (6000A) STPU 5.0 (3000A) STD-I2T STD(I^2 T In)

601 BLDG 17 MN 601-3 PNL A FCB WESTINGHOUSE 208V 400A LTPU 1.0 (225A)Static Trip LC SELTRNC 600V 225A LTD LTD

200-400A STPU 6.5 (1462.5A) STPU 10.0 (2250A) STD-I2T STD(I^2 T In)

601 BLDG 17 MN 601-4 PNL B FCB WESTINGHOUSE 208V 400A LTPU 1.0 (225A)Static Trip LC SELTRNC 600V 225A LTD LTD


601 BLDG 17 MN 601-5 PNL C FCB WESTINGHOUSE 208V 400A LTPU 1.0 (225A)Static Trip LC SELTRNC 600V 225A LTD LTD








Diamond Bar, Ca




601 BLDG 17 MN 601-6 ACRU 1 FCB WESTINGHOUSE 208V 400A LTPU 1.0 (400A)Static Trip LC SELTRNC 600V 400A LTD LTD


601 BLDG 17 MN 601-7 PNL D FCB WESTINGHOUSE 208V 400A LTPU 1.0 (300A)Static Trip LC SELTRNC 600V 300A LTD LTD


601 BLDG 17 MN 601-8 ENERGY BANK WESTINGHOUSE 208V 600A LTPU 1.0 (600A)Static Trip LC SELTRNC 600V 600A LTD LTD

300-600A STPU 10.0 (6000A) STPU 5.0 (3000A) STD-I2T STD(I^2 T In)

608 MDS (ICEHOUSE) 608-1 MDS MCB CUTLER-HAMMER 208V 600A LTPU (1.0 x P) Fixed (600A)Static Trip LC 600V 600A LTD (Fixed) Fixed

600AF, 300-600A Fixed Plug 600A STPU (3-10 x P) 5 (3000A) STD (Fixed) Fixed(I^2 T In) INST (6750A) Fixed (6750A)

612 BLDG 17 EM CB 612-1 BLDG #17 ATS_E FCB CUTLER-HAMMER 208V 600A LTPU (1.0 x P) Fixed (600A)Static Trip LC 600V 600A LTD (Fixed) Fixed

600AF, 300-600A Fixed Plug 600A STPU (3-10 x P) 10 (6000A) STD (Fixed) Fixed(I^2 T In) INST (6750A) Fixed (6750A)

702 BLDG 5 MTR PNL 702-1 BLDG 5 MCB SIEMENS 208V 600A Thermal Curve (Fixed) Thermal Magnetic LXD6-A Sentron 600V 600A INST (LO-HI) LO (3000A) INST (LO-HI) 3 (3800A)

450-600A

803 BLDG 15 SWGR 803-10 K&M FCB GE 208V 400A Thermal Curve (Fixed) Thermal Magnetic TJJ 600V 200A INST (3-10 x Trip) HI (2000A)

125-400A

803 BLDG 15 SWGR 803-11 PNL D FCB GE 208V 400A Thermal Curve (Fixed) Thermal Magnetic TJJ 600V 200A INST (3-10 x Trip) HI (2000A)

125-400A




Diamond Bar, Ca




803 BLDG 15 SWGR 803-12 E&F FCB GE 208V 400A Thermal Curve (Fixed) Thermal Magnetic TJJ 600V 200A INST (3-10 x Trip) HI (2000A)

125-400A

803 BLDG 15 SWGR 803-13 I&J FCB GE 208V 400A Thermal Curve (Fixed) Thermal Magnetic TJJ 600V 200A INST (3-10 x Trip) HI (2000A)

125-400A

803 BLDG 15 SWGR 803-14 G&H FCB GE 208V 400A Thermal Curve (Fixed) Thermal Magnetic TJJ 600V 200A INST (3-10 x Trip) HI (2000A)

125-400A

803 BLDG 15 SWGR 803-3 2LP FCB GE 208V 400A Thermal Curve (Fixed) Thermal Magnetic TJJ 600V 125A INST (3-10 x Trip) HI (1250A)

125-400A

803 BLDG 15 SWGR 803-4 PNL A FCB GE 208V 400A Thermal Curve (Fixed) Thermal Magnetic TJJ 600V 200A INST (3-10 x Trip) HI (2000A)

125-400A

803 BLDG 15 SWGR 803-5 PNL ACP FCB GE 208V 600A Thermal Curve (Fixed) Thermal Magnetic TJK 600V 500A INST (3-10 x Trip) HI (5000A)

125-600A

803 BLDG 15 SWGR 803-6 MCP BLDG 10 FCB GE 208V 400A Thermal Curve (Fixed) Thermal Magnetic TJJ 600V 225A INST (3-10 x Trip) HI (2250A)

125-400A

803 BLDG 15 SWGR 803-9 GE 208V 400A Thermal Curve (Fixed) Thermal Magnetic TJJ 600V 125A INST (3-10 x Trip) HI (1250A)

125-400A

813 BLDG 10 GARAGE 813-1 BLDG 10 GARAGE WESTINGHOUSE 208V 250A LTD Thermal Magnetic JB, KB 600V 225A INST 5.0 (1125A)

70-250A

815 ELE DISC 815-1 ELE DISC SQUARE D 208V 250A Thermal Curve Thermal Magnetic KA 600V 200A INST LO (1000A)

70-250A




Diamond Bar, Ca




830 ATS 15 ECB 830-1 ATS 15_N ECB CUTLER-HAMMER 208V 800A Thermal Curve (Fixed) Thermal Magnetic MDL 600V 800A INST (4-8 x Trip) 4 (3200A) INST (4-8 x Trip) 8 (6400A)

300-800A

832 BLDG 15 EMERG GEN 832-1 #15 GEN BRKR GE 208V 800A Thermal Curve (Fixed) Thermal Magnetic TKMA 600V 800A INST (3-8 x Trip) HI (6400A) INST (3-8 x Trip) 4 (3200A)

300-1200A

835-1 EMER DIST MCB CUTLER-HAMMER 208V 400A Thermal Curve (Fixed) Thermal Magnetic DK 240V 400A INST (5-10 x Trip) 10 (4000A) INST (5-10 x Trip) 7 (2800A)

250-400A

840 DATA CENTER 840-1 DATA CENTER ECB CUTLER-HAMMER 208V 800A Thermal Curve (Fixed) Thermal Magnetic MDL 600V 800A INST (4-8 x Trip) 4 (3200A) INST (4-8 x Trip) 5.2 (4160A)

300-800A

841 MAIN PANEL 841-1 MAIN PANEL MCB SIEMENS 208V 800A Thermal Curve (Fixed) Thermal Magnetic MXD6 Sentron 600V 800A INST (LO-HI) LO (4000A)

500-800A

841 MAIN PANEL 841-2 RP1 FCB SIEMENS 208V 150A Thermal Curve (Fixed) Thermal Magnetic FXD6 Sentron 600V 150A INST (LO-HI) LO (800A)

70-250A

841 MAIN PANEL 841-3 RDU FCB SIEMENS 208V 400A Thermal Curve (Fixed) Thermal Magnetic JXD6-A Sentron 600V 350A INST (LO-HI) LO (2000A)

200-400A

901 BLDG 7 MN SWGR 901-1 BLDG 7 MCB SQUARE D 480V 2000A LTPU 1.0 (2000A)Static Trip PE, Micrologic 600V 2000A LTD 2.0 LTD 24

LSI, 1800-2000A 2000A STPU 2.0 (4000A) STPU 4.0 (8000A) STD 0.1(I^2 T Out) INST 2.5 (5000A) INST 6.0 (12000A)

901 BLDG 7 MN SWGR 901-1G BLDG 7 GF SQUARE D 480V 2000A GFPU 640 (640A) GFPU 800 (800A)Ground Fault PE, Micrologic 600V 2000A GFD 0.1(I^2 T Out)

GF, 2000-2500A 2000A

835 EMER DISTRIBUTION PANEL




Diamond Bar, Ca




901 BLDG 7 MN SWGR 901-2 BLDG 7 ATS_N FCB SQUARE D 480V 2500A LTPU;LTD 1 (1600A); FixedStatic Trip POWERPACT R/P-Frame, 1.0I 600V 1600A INST (RJ/RL) 1.5 (2400A)

LI, 250-2500A, UL

901 BLDG 7 MN SWGR 901-3 BLDG 10 FCB SQUARE D 480V 225A Thermal Curve Thermal Magnetic KC 480V 175A INST LO (875A) INST HI (1750A)

110-250A

901 BLDG 7 MN SWGR 901-4 SPARE SQUARE D 480V 600A Thermal Curve Thermal Magnetic LC (OLD) 600V 600A INST HI (5400A)

300-600A

901 BLDG 7 MN SWGR 901-5 BLDG 6 FCB SQUARE D 480V 225A Thermal Curve Thermal Magnetic KC 480V 175A INST LO (875A)

110-250A

901 BLDG 7 MN SWGR 901-7 WAREHOUSE FCB SQUARE D 480V 225A Thermal Curve Thermal Magnetic KC 480V 225A INST LO (1125A)

110-250A

903 BLDG 10 903-1 BLDG 10 ECB SQUARE D 480V 250A Thermal Curve Thermal Magnetic KA 600V 200A INST LO (1000A) INST 6 (1880A)

70-250A

904 BLDG 6 ECB 904-1 BLDG 6 ECB SQUARE D 480V 150A Thermal Curve Thermal Magnetic KA 600V 150A INST LO (750A)

70-250A

906 WAREHOUSE ECB 906-1 WAREHOUSE ECB SIEMENS 480V 150A Thermal Curve (Fixed) Thermal Magnetic FD6-A Sentron 600V 150A INST (LO-HI) 4 (1100A)

70-250A

907 BLDG 7 EMERG GEN 907-1 #7 GEN BRKR MERLIN GERIN 480V 2500A LTPU/LTD (A 0.4-1.0 x S) 1 (1600A); 0.5Static Trip Powerpact R-Frame, 6.0A/P/H 600V 1600A STPU (1.5-10 x LTPU) 1.5 (2400A)

LSI, 600-2500A, UL STD (0-0.4) 0.4(I^2 T In) INST (2-15 x S) 2 (3200A)




Diamond Bar, Ca




907 BLDG 7 EMERG GEN 907-1G #7 GEN BRKR GF MERLIN GERIN 480V 2500A GFPU (500-1200A) A (500A)Ground Fault Powerpact R-Frame, 6.0A/P/H 600V 1600A GFD (0-0.4) 0.1(I^2 T In)

GF, 1600-2500AS, UL

911 ATS 7 ECB 911-1 ATS ECB SQUARE D 480V 400A Thermal Curve Thermal Magnetic LA 600V 400A INST 3 (3088A)

125-400A

912 MCC 912-1 MCC MCB GE 480V 400A Thermal Curve (Fixed) Thermal Magnetic TJK 600V 350A INST (3-10 x Trip) HI (3500A)

125-600A

913 ELEVATOR ECB 913-1 ELEVATOR ECB WESTINGHOUSE 480V 200A LTD Thermal Magnetic JB, KB 600V 200A INST 5.0 (1000A)

70-250A




November 2008

4.5 Time-Current Coordination Graphs - As Found

212 of 648

001-2 M1001-4 M4 West Loop Feeder

UTIL 141 PHASECBL-0004

0.5 1

1

10

10

100

100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 001-2 M1 Manufacturer: SQUARE D Type: SEPAM 1000+ CT 1200 / 5 AVoltage: 12000 VSettings: Phase PH CS 0.3 (360A) PH TD, IEEE VIT 0.3 PH IP 24.0 (28800A) PH ITD 0.05

Name: 001-4 M4 West Loop Feeder Manufacturer: SQUARE D Type: SEPAM 1000+ CT 1200 / 5 AVoltage: 12000 VSettings: Phase PH CS 0.3 (360A) PH TD, IEEE VIT 0.1 PH IP 4.0 (4800A) PH ITD 0.05

Name: UTIL 141 PHASE Manufacturer: SEL Type: 351R Frame/Model: SEL-351R CT 240 / 1 AVoltage: 12000 VSettings: Phase 51P1P(0.1-3.20 x CTR) 1 (240A) U4, Extremely Inverse 6

Name: 010-1 TAP FDR Manufacturer: SQUARE D Type: 15.5KV DIN Frame/Model: 150 Trip: 150 AVoltage: 12000 V

Name CBL-0004 QtyPerPhase 1 CableSize 4/0

Name: 001-2 M1 Manufacturer: SQUARE D Type: SEPAM 1000+ CT 1200 / 5 AVoltage: 12000 VSettings: Phase PH CS 0.3 (360A) PH TD, IEEE VIT 0.3 PH IP 24.0 (28800A) PH ITD 0.05





DOWNSTREAM FUSE W/ HIGHEST CONTINUOUSCURRENT RATING


Name: 00-01.tcc Current Scale x 10 Reference Voltage: 12000

November 24, 2008 VA - WILMINGTON DE Square D

213 of 648

001-4G 50N/51N

001-2G M1 GFUTIL 141 GROUND

0.5 1

1

10

10

100

100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 001-4G 50N/51N Manufacturer: SQUARE D Type: SEPAM 1000+ CT 50 / 5 AVoltage: 12000 VSettings: Ground GF CS 1 (50A) GF TD, SIT 0.5 GF IP 15 (750A) GF ITD 0.05

Name: 001-2G M1 GF Manufacturer: SQUARE D Type: SEPAM 1000+ CT 1200 / 5 AVoltage: 12000 VSettings: Ground GF CS 0.1 (120A) GF TD, SIT 0.6

Name: UTIL 141 GROUND Manufacturer: SEL Type: 351R Frame/Model: SEL-351R CT 240 / 1 AVoltage: 12000 VSettings: Ground 51G1P(0.1-3.20 x CTR) 0.5 (120A) U4, Extremely Inverse 8

Name: 001-4G 50N/51N Manufacturer: SQUARE D Type: SEPAM 1000+ CT 50 / 5 AVoltage: 12000 VSettings: Ground GF CS 1 (50A) GF TD, SIT 0.5 GF IP 15 (750A) GF ITD 0.05

Name: 001-2G M1 GF Manufacturer: SQUARE D Type: SEPAM 1000+ CT 1200 / 5 AVoltage: 12000 VSettings: Ground GF CS 0.1 (120A) GF TD, SIT 0.6


Name: 00-01G.tcc Current Scale x 1 Reference Voltage: 12000


214 of 648

001-4 M4 West Loop Feeder

TX Inrush

T-1A-1CBL-0027

0.5 1

1

10

10

100

100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 012-1 T-1A-1 MN Manufacturer: CUTLER-HAMMER Type: CLE, 15.5kV E-Rated Frame/Model: CLE, 80E Trip: 80 AVoltage: 12000 V



Name: T-1A-1 Nominal kVA: 1000.0 kVAPri Voltage: 12000 VSec Voltage: 480 VZ = 5.5700 %InrushFactor 12.0

Name: 101-1 MDSB-A MCB Manufacturer: CUTLER-HAMMER Type: DS, RMS 510/610/810/910 Frame/Model: DS-416H Trip: 1600 APlug: 1600 AVoltage: 480 VSettings: Phase LTPU (0.5-1.0 x P) 1 (1600A) LTD (2-24 Sec.) 24 STPU (2-10 x LTPU) S1(8) (12800A) STD (0.1-0.5 Sec.) 0.3 Sec.(I^2 T Out) INST (2-12 x P) 6 (9600A)










215 of 648

0.5 1

1

10

10

100

100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS


Name: 103-2 Manufacturer: CUTLER-HAMMER Type: GHB Frame/Model: GHB Trip: 30 AVoltage: 480 VSettings: Phase Fixed

Name: 103-1 LP-GB MCB Manufacturer: WESTINGHOUSE Type: FD SER C Frame/Model: FD Trip: 100 AVoltage: 480 VSettings: Phase Opening Clearing Curve

Name: 101-3 LP-GB FCB Manufacturer: CUTLER-HAMMER Type: HKD, RMS 310 Frame/Model: HKD Trip: 125 APlug: 100 AVoltage: 480 VSettings: Phase LTPU (1.0 x P) Fixed (100A) LTD (Fixed) Fixed STPU (2-8 x P) 8 (800A) STD (Inst-300 ms) 300 ms(I^2 T In) INST (4000A) Fixed (4000A)







216 of 648

0.5 1

1

10

10

100

100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 101-6 LP-2B FCB Manufacturer: CUTLER-HAMMER Type: HKD, RMS 310 Frame/Model: HKD Trip: 250 APlug: 175 AVoltage: 480 VSettings: Phase LTPU (1.0 x P) Fixed (175A) LTD (Fixed) Fixed STPU (2-8 x P) 8 (1400A) STD (Inst-300 ms) 300 ms(I^2 T In) INST (4000A) Fixed (4000A)

Name: 106-1 LP-2B MCB Manufacturer: CUTLER-HAMMER Type: KD Frame/Model: KD Trip: 175 AVoltage: 480 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 10 (1750A)

Name: 106-5 2163 FCB Manufacturer: CUTLER-HAMMER Type: FD Frame/Model: FD Trip: 100 AVoltage: 480 VSettings: Phase Fixed

Name: 110-1 ECB 2163 Manufacturer: CUTLER-HAMMER Type: JD Frame/Model: JD Trip: 100 AVoltage: 480 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 10 (1000A)









217 of 648

0.5 1

1

10

10

100

100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 101-6G LP-2B FCB GF Manufacturer: CUTLER-HAMMER Type: HKD, RMS 310 Frame/Model: HKD Trip: 250 APlug: 175 AVoltage: 480 VSettings: Ground GFPU (2-5 x Ig) 5 x Ig (250A) GFD (Inst-500 ms) 500 ms(I^2 T Out)

Name: 101-1G MDSB-A MCB GF Manufacturer: CUTLER-HAMMER Type: DS, RMS 510/610/810/910 Frame/Model: DS-416H Trip: 1600 APlug: 1600 AVoltage: 480 VSettings: Phase GFPU (1600A Plug) D (640A) GFD (0.1-0.5 Sec.) 0.3 Sec.(I^2 T Out)







218 of 648

0.5 1

1

10

10

100

100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 101-7 MCC-GB FCB Manufacturer: CUTLER-HAMMER Type: HLD, RMS 310 Frame/Model: HLD Trip: 600 APlug: 400 AVoltage: 480 VSettings: Phase LTPU (1.0 x P) Fixed (400A) LTD (Fixed) Fixed STPU (2-8 x P) 8 (3200A) STD (Inst-300 ms) 300 ms(I^2 T In) INST (5500A) Fixed (5500A)

Name: 111-1 MCC-GB MCB Manufacturer: CUTLER-HAMMER Type: HKD Frame/Model: HKD Trip: 400 AVoltage: 480 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 10 (4000A)

Name: 111-1 MCC-GB BR Manufacturer: CUTLER-HAMMER Type: HFD Frame/Model: HFD Trip: 150 AVoltage: 480 VSettings: Phase Fixed








219 of 648

0.5 1

1

10

10

100

100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 122-2 E1LP-GA FCB Manufacturer: CUTLER-HAMMER Type: HFD Frame/Model: HFD Trip: 150 AVoltage: 480 VSettings: Phase Fixed

Name: 122-1 E1DP-GA MCB Manufacturer: CUTLER-HAMMER Type: KD Frame/Model: KD Trip: 250 AVoltage: 480 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 10 (2500A)

Name: 101-9 ATS E1_N FCB Manufacturer: CUTLER-HAMMER Type: HKD, RMS 310 Frame/Model: HKD Trip: 250 APlug: 250 AVoltage: 480 VSettings: Phase LTPU (1.0 x P) Fixed (250A) LTD (Fixed) Fixed STPU (2-8 x P) 8 (2000A) STD (Inst-300 ms) 300 ms(I^2 T In) INST (4000A) Fixed (4000A)








220 of 648

0.5 1

1

10

10

100

100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 117-1 EDP-GA MCB Manufacturer: WESTINGHOUSE Type: NC SELTRNC Frame/Model: ND Trip: 900 AVoltage: 480 VSettings: Phase LTPU 1.0 (900A) LTD LTD STPU 8.0 (7200A) STD-I2T STD(I^2 T In)

Name: 117-4 ATS-E1_E FCB Manufacturer: WESTINGHOUSE Type: JDB, JD Frame/Model: JD Trip: 250 AVoltage: 480 VSettings: Phase LTD INST 10.0 (2500A)




Name: 117-4 ATS-E1_E FCB Manufacturer: WESTINGHOUSE Type: JDB, JD Frame/Model: JD Trip: 250 AVoltage: 480 VSettings: Phase LTD INST 10.0 (2500A)



Name: 01-06E.tcc Current Scale x 100 Reference Voltage: 480


221 of 648

0.5 1

1

10

10

100

100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS


Name: 101-10 ATS E2_N FCB Manufacturer: CUTLER-HAMMER Type: HLD, RMS 310 Frame/Model: HLD Trip: 600 APlug: 400 AVoltage: 480 VSettings: Phase LTPU (1.0 x P) Fixed (400A) LTD (Fixed) Fixed STPU (2-8 x P) 8 (3200A) STD (Inst-300 ms) 300 ms(I^2 T In) INST (5500A) Fixed (5500A)


Name: 127-3 E2LP-GA FCB Manufacturer: CUTLER-HAMMER Type: HJD Frame/Model: HJD Trip: 250 AVoltage: 480 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 10 (2500A)

Name: 129-1 E2LP-GA MCB Manufacturer: CUTLER-HAMMER Type: KD Frame/Model: KD Trip: 250 AVoltage: 480 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 10 (2500A)

Name: 129-3 E2LP-2C FCB Manufacturer: CUTLER-HAMMER Type: JD Frame/Model: JD Trip: 200 AVoltage: 480 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 10 (2000A)









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IN S

EC

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DS


Name: 117-2 ATS-E2_E FCB Manufacturer: WESTINGHOUSE Type: KDB, KD Frame/Model: KD Trip: 400 AVoltage: 480 VSettings: Phase LTD INST 10.0 (4000A)




Name: 117-2 ATS-E2_E FCB Manufacturer: WESTINGHOUSE Type: KDB, KD Frame/Model: KD Trip: 400 AVoltage: 480 VSettings: Phase LTD INST 10.0 (4000A)





223 of 648

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CURRENT IN AMPERES

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Name: 132-1 E2LP-2C MCB Manufacturer: WESTINGHOUSE Type: HJD Frame/Model: HJD Trip: 200 AVoltage: 480 VSettings: Phase LTD INST 10.0 (2000A)


Name: 133-1 2143 ECB Manufacturer: CUTLER-HAMMER Type: JD Frame/Model: JD Trip: 100 AVoltage: 480 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 10 (1000A)



Name: 132-1 E2LP-2C MCB Manufacturer: WESTINGHOUSE Type: HJD Frame/Model: HJD Trip: 200 AVoltage: 480 VSettings: Phase LTD INST 10.0 (2000A)


Name: 133-1 2143 ECB Manufacturer: CUTLER-HAMMER Type: JD Frame/Model: JD Trip: 100 AVoltage: 480 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 10 (1000A)



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CURRENT IN AMPERES

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IN S

EC

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DS

Name: 135-1 E3DP-GA MCB Manufacturer: CUTLER-HAMMER Type: MC Frame/Model: MC Trip: 800 APlug: 800 AVoltage: 480 VSettings: Phase LTPU (1.0 x P) Fixed (800A) LTD (Fixed) Fixed STPU (3-10 x P) 10 (8000A) STD (Fixed) Fixed(I^2 T In) INST (9000A) Fixed (9000A)

Name: 135-4 EMCC-GB FCB Manufacturer: CUTLER-HAMMER Type: HJD Frame/Model: HJD Trip: 200 AVoltage: 480 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 10 (2000A)

Name: 139-1 EMCC-GB MCB Manufacturer: CUTLER-HAMMER Type: HJD Frame/Model: HJD Trip: 200 AVoltage: 480 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 10 (2000A)

Name: 139-2 EMCC-GB BR Manufacturer: CUTLER-HAMMER Type: HFD Frame/Model: HFD Trip: 45 AVoltage: 480 VSettings: Phase Fixed


Name: 101-11 ATS E3_N FCB Manufacturer: CUTLER-HAMMER Type: HND, RMS 310 Frame/Model: HND Trip: 800 APlug: 800 AVoltage: 480 VSettings: Phase LTPU (1.0 x P) Fixed (800A) LTD (Fixed) Fixed STPU (2-8 x P) 8 (6400A) STD (Inst-300 ms) 300 ms(I^2 T In) INST (14000A) Fixed (14000A)









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1000 1000

CURRENT IN AMPERES

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EC

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Name: 135-5 E3LP-2B FCB Manufacturer: CUTLER-HAMMER Type: KD Frame/Model: KD Trip: 400 AVoltage: 480 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 10 (4000A)

Name: 140-1 E3LP-2B MCB Manufacturer: CUTLER-HAMMER Type: KD Frame/Model: KD Trip: 400 AVoltage: 480 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 10 (4000A)

Name: 140-2 CONTACTOR FCB Manufacturer: CUTLER-HAMMER Type: FD Frame/Model: FD Trip: 100 AVoltage: 480 VSettings: Phase Fixed









226 of 648

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CURRENT IN AMPERES

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EC

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DS


Name: 117-3 ATS-E3_E FCB Manufacturer: CUTLER-HAMMER Type: MCA Frame/Model: MCA Trip: 800 APlug: 800 AVoltage: 480 VSettings: Phase LTPU (1.0 x P) Fixed (800A) LTD (Fixed) Fixed STPU (3-10 x P) 10 (8000A) STD (Min-Max) Max(I^2 T In) INST (9000A) Fixed (9000A)




Name: 117-3 ATS-E3_E FCB Manufacturer: CUTLER-HAMMER Type: MCA Frame/Model: MCA Trip: 800 APlug: 800 AVoltage: 480 VSettings: Phase LTPU (1.0 x P) Fixed (800A) LTD (Fixed) Fixed STPU (3-10 x P) 10 (8000A) STD (Min-Max) Max(I^2 T In) INST (9000A) Fixed (9000A)



150% GEN FLA @ 60 SEC = 1353A

300% GEN FLA @ 10 SEC = 2706A

X

X

150% GEN FLA @ 60 SEC = 1353A

300% GEN FLA @ 10 SEC = 2706A

X

X



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1000 1000

CURRENT IN AMPERES

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EC

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DS

Name: 101-11G ATS E2 FCB GF Manufacturer: CUTLER-HAMMER Type: HND, RMS 310 Frame/Model: HND Trip: 800 APlug: 800 AVoltage: 480 VSettings: Ground GFPU (2-6 x Ig) 6 x Ig (1111A) GFD (Inst-500 ms) 500 ms(I^2 T Out)






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0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 150-1 MDSB-B MCB Manufacturer: CUTLER-HAMMER Type: DS, RMS 510/610/810/910 Frame/Model: DS-416H Trip: 1600 APlug: 1600 AVoltage: 208 VSettings: Phase LTPU (0.5-1.0 x P) 1 (1600A) LTD (2-24 Sec.) 24 STPU (2-10 x LTPU) S1(8) (12800A) STD (0.1-0.5 Sec.) 0.3 Sec.(I^2 T Out) INST (2-12 x P) 6 (9600A)

Name: 150-3 RP-1B FCB Manufacturer: CUTLER-HAMMER Type: HKD, RMS 310 Frame/Model: HKD Trip: 250 APlug: 250 AVoltage: 208 VSettings: Phase LTPU (1.0 x P) Fixed (250A) LTD (Fixed) Fixed STPU (2-8 x P) 8 (2000A) STD (Inst-300 ms) 300 ms(I^2 T In) INST (4000A) Fixed (4000A)

Name: 152-1 RP-1B MCB Manufacturer: CUTLER-HAMMER Type: DK Frame/Model: DK Trip: 250 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 10 (2500A)

Name: 152-2 RP-1B BR Manufacturer: CUTLER-HAMMER Type: QBHW, 3-Pole Frame/Model: QBHW Trip: 20 AVoltage: 208 VSettings: Phase Fixed







229 of 648

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T-1A-2

0.5 1

1

10

10

100

100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS




Name: 150-5 RP-GB FCB Manufacturer: CUTLER-HAMMER Type: HLD, RMS 310 Frame/Model: HLD Trip: 600 APlug: 300 AVoltage: 208 VSettings: Phase LTPU (1.0 x P) Fixed (300A) LTD (Fixed) Fixed STPU (2-8 x P) 8 (2400A) STD (Inst-300 ms) 300 ms(I^2 T In) INST (5500A) Fixed (5500A)

Name: 154-1 RP-GB MCB Manufacturer: CUTLER-HAMMER Type: DK Frame/Model: DK Trip: 300 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 10 (3000A)










230 of 648

TX Inrush

T-1A-3

0.5 1

1

10

10

100

100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 160-2 CHILLER1 FCB Manufacturer: CUTLER-HAMMER Type: HLD, RMS 310 Frame/Model: HLD Trip: 600 APlug: 500 AVoltage: 480 VSettings: Phase LTPU (1.0 x P) Fixed (500A) LTD (Fixed) Fixed STPU (2-8 x P) 8 (4000A) STD (Inst-300 ms) 300 ms(I^2 T In) INST (5500A) Fixed (5500A)


Name: 160-1 MDSB-C MCB Manufacturer: CUTLER-HAMMER Type: DS, RMS 510/610/810/910 Frame/Model: DS-416H Trip: 1600 APlug: 1600 AVoltage: 480 VSettings: Phase LTPU (0.5-1.0 x P) 1 (1600A) LTD (2-24 Sec.) 24 STPU (2-10 x LTPU) 6 (9600A) STD (0.1-0.5 Sec.) 0.3 Sec.(I^2 T Out) INST (2-12 x P) 6 (9600A)





Name: 160-1 MDSB-C MCB Manufacturer: CUTLER-HAMMER Type: DS, RMS 510/610/810/910 Frame/Model: DS-416H Trip: 1600 APlug: 1600 AVoltage: 480 VSettings: Phase LTPU (0.5-1.0 x P) 1 (1600A) LTD (2-24 Sec.) 24 STPU (2-10 x LTPU) 6 (9600A) STD (0.1-0.5 Sec.) 0.3 Sec.(I^2 T Out) INST (2-12 x P) 6 (9600A)





231 of 648

TX Inrush

T-17

0.5 1

1

10

10

100

100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 005-1 T-17 FDR Manufacturer: SQUARE D Type: 15.5KV DIN Frame/Model: 50 Trip: 50 AVoltage: 12000 V

Name: T-17 Nominal kVA: 500.0 kVAPri Voltage: 12000 VSec Voltage: 208 VZ = 5.2701 %InrushFactor 12.0

Name: 601-1 BLDG 17 MCB Manufacturer: WESTINGHOUSE Type: DS Frame/Model: 1600 Trip: 1600 AVoltage: 208 VSettings: Phase LTPU 1.0 (1600A) LTD 20 STPU 4.0 (6400A) STD 0.18

Name: 601-2 EDP FCB Manufacturer: WESTINGHOUSE Type: LC SELTRNC Frame/Model: LC Trip: 600 AVoltage: 208 VSettings: Phase LTPU 1.0 (600A) LTD LTD STPU 10.0 (6000A) STD-I2T STD(I^2 T In)

Name: 620-1 EM MCB Manufacturer: CUTLER-HAMMER Type: EHD Frame/Model: EHD Trip: 100 AVoltage: 208 VSettings: Phase Fixed








232 of 648

0.5 1

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1K1K

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10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS


Name: 612-1 BLDG #17 ATS_E FCB Manufacturer: CUTLER-HAMMER Type: LC Frame/Model: LC Trip: 600 APlug: 600 AVoltage: 208 VSettings: Phase LTPU (1.0 x P) Fixed (600A) LTD (Fixed) Fixed STPU (3-10 x P) 10 (6000A) STD (Fixed) Fixed(I^2 T In) INST (6750A) Fixed (6750A)


Name: 612-1 BLDG #17 ATS_E FCB Manufacturer: CUTLER-HAMMER Type: LC Frame/Model: LC Trip: 600 APlug: 600 AVoltage: 208 VSettings: Phase LTPU (1.0 x P) Fixed (600A) LTD (Fixed) Fixed STPU (3-10 x P) 10 (6000A) STD (Fixed) Fixed(I^2 T In) INST (6750A) Fixed (6750A)

150% GEN FLA @ 60 SEC = 778A

300% GEN FLA @ 10 SEC = 1557AX

X

150% GEN FLA @ 60 SEC = 778A

300% GEN FLA @ 10 SEC = 1557AX

X



233 of 648

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10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS


Name: 605-1 PNL C BR Manufacturer: CUTLER-HAMMER Type: EB, 2 & 3-Pole Frame/Model: EB Trip: 50 AVoltage: 208 VSettings: Phase Fixed

Name: 605-1 PNL C MCB Manufacturer: WESTINGHOUSE Type: DA Frame/Model: 400 Trip: 250 AVoltage: 208 VSettings: Phase Thermal Curve Inst Fixed (2500A)

Name: 601-5 PNL C FCB Manufacturer: WESTINGHOUSE Type: LC SELTRNC Frame/Model: LC Trip: 225 AVoltage: 208 VSettings: Phase LTPU 1.0 (225A) LTD LTD STPU 10.0 (2250A) STD-I2T STD(I^2 T In)


Name: 605-1 PNL C BR Manufacturer: CUTLER-HAMMER Type: EB, 2 & 3-Pole Frame/Model: EB Trip: 50 AVoltage: 208 VSettings: Phase Fixed

Name: 605-1 PNL C MCB Manufacturer: WESTINGHOUSE Type: DA Frame/Model: 400 Trip: 250 AVoltage: 208 VSettings: Phase Thermal Curve Inst Fixed (2500A)

Name: 601-5 PNL C FCB Manufacturer: WESTINGHOUSE Type: LC SELTRNC Frame/Model: LC Trip: 225 AVoltage: 208 VSettings: Phase LTPU 1.0 (225A) LTD LTD STPU 10.0 (2250A) STD-I2T STD(I^2 T In)



234 of 648

TX Inrush

T-5

0.5 1

1

10

10

100

100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 702-1 BLDG 5 MCB Manufacturer: SIEMENS Type: LXD6-A Sentron Frame/Model: LXD6-A Trip: 600 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (LO-HI) LO (3000A)

Name: 708-1 RP3 MCB Manufacturer: SQUARE D Type: Q2 Frame/Model: Q2 Trip: 225 AVoltage: 208 VSettings: Phase Fixed


Name: 702-1 BLDG 5 MCB Manufacturer: SIEMENS Type: LXD6-A Sentron Frame/Model: LXD6-A Trip: 600 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (LO-HI) LO (3000A)





235 of 648

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10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 803-3 2LP FCB Manufacturer: GE Type: TJJ Frame/Model: TJJ Trip: 125 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (3-10 x Trip) HI (1250A)

Name: 805-1 LP1 MCB Manufacturer: GE Type: TEB Frame/Model: TEB Trip: 100 AVoltage: 208 VSettings: Phase Fixed

Name: 803-3 2LP FCB Manufacturer: GE Type: TJJ Frame/Model: TJJ Trip: 125 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (3-10 x Trip) HI (1250A)

Name: 805-1 LP1 MCB Manufacturer: GE Type: TEB Frame/Model: TEB Trip: 100 AVoltage: 208 VSettings: Phase Fixed



236 of 648

TX Inrush

T-15

0.5 1

1

10

10

100

100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS



Name: 803-5 PNL ACP FCB Manufacturer: GE Type: TJK Frame/Model: TJK Trip: 500 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (3-10 x Trip) HI (5000A)

Name: 812-1 CHILLER FCB Manufacturer: GE Type: TJD Frame/Model: TJD Trip: 400 AVoltage: 208 VSettings: Phase Fixed



Name: 803-5 PNL ACP FCB Manufacturer: GE Type: TJK Frame/Model: TJK Trip: 500 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (3-10 x Trip) HI (5000A)

Name: 812-1 CHILLER FCB Manufacturer: GE Type: TJD Frame/Model: TJD Trip: 400 AVoltage: 208 VSettings: Phase Fixed



237 of 648

0.5 1

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1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 813-1 BLDG 10 GARAGE Manufacturer: WESTINGHOUSE Type: JB, KB Frame/Model: JB Trip: 225 AVoltage: 208 VSettings: Phase LTD INST 5.0 (1125A)

Name: 803-6 MCP BLDG 10 FCB Manufacturer: GE Type: TJJ Frame/Model: TJJ Trip: 225 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (3-10 x Trip) HI (2250A)

Name: 813-1 BLDG 10 GARAGE Manufacturer: WESTINGHOUSE Type: JB, KB Frame/Model: JB Trip: 225 AVoltage: 208 VSettings: Phase LTD INST 5.0 (1125A)

Name: 803-6 MCP BLDG 10 FCB Manufacturer: GE Type: TJJ Frame/Model: TJJ Trip: 225 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (3-10 x Trip) HI (2250A)



238 of 648

0.5 1

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10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 803-9 Manufacturer: GE Type: TJJ Frame/Model: TJJ Trip: 125 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (3-10 x Trip) HI (1250A)

Name: 815-1 ELE DISC Manufacturer: SQUARE D Type: KA Frame/Model: KA Trip: 200 AVoltage: 208 VSettings: Phase Thermal Curve INST LO (1000A)

Name: 803-9 Manufacturer: GE Type: TJJ Frame/Model: TJJ Trip: 125 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (3-10 x Trip) HI (1250A)

Name: 815-1 ELE DISC Manufacturer: SQUARE D Type: KA Frame/Model: KA Trip: 200 AVoltage: 208 VSettings: Phase Thermal Curve INST LO (1000A)



239 of 648

0.5 1

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100

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1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 803-10 K&M FCB Manufacturer: GE Type: TJJ Frame/Model: TJJ Trip: 200 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (3-10 x Trip) HI (2000A)

Name: 818-1 PNL M MCB Manufacturer: GE Type: TEB Frame/Model: TEB Trip: 100 AVoltage: 208 VSettings: Phase Fixed

Name: 803-10 K&M FCB Manufacturer: GE Type: TJJ Frame/Model: TJJ Trip: 200 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (3-10 x Trip) HI (2000A)

Name: 818-1 PNL M MCB Manufacturer: GE Type: TEB Frame/Model: TEB Trip: 100 AVoltage: 208 VSettings: Phase Fixed



240 of 648

0.5 1

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10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 835-5 GEN RM PNL FCB Manufacturer: GE Type: THHQB Frame/Model: THHQB Trip: 100 AVoltage: 208 VSettings: Phase Fixed

Name: 835-1 EMER DIST MCB Manufacturer: CUTLER-HAMMER Type: DK Frame/Model: DK Trip: 400 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 10 (4000A)

Name: 830-1 ATS 15_N ECB Manufacturer: CUTLER-HAMMER Type: MDL Frame/Model: MDL Trip: 800 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (4-8 x Trip) 4 (3200A)






241 of 648

0.5 1

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1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 842-1 RP1 BR Manufacturer: SIEMENS Type: BLH, 2 & 3-Pole Frame/Model: BLH Trip: 20 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST Fixed (425A)

Name: 841-2 RP1 FCB Manufacturer: SIEMENS Type: FXD6 Sentron Frame/Model: FXD6 Trip: 150 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (LO-HI) LO (800A)

Name: 841-1 MAIN PANEL MCB Manufacturer: SIEMENS Type: MXD6 Sentron Frame/Model: MXD6 Trip: 800 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (LO-HI) LO (4000A)

Name: 842-1 RP1 BR Manufacturer: SIEMENS Type: BLH, 2 & 3-Pole Frame/Model: BLH Trip: 20 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST Fixed (425A)

Name: 841-2 RP1 FCB Manufacturer: SIEMENS Type: FXD6 Sentron Frame/Model: FXD6 Trip: 150 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (LO-HI) LO (800A)




242 of 648

TX Inrush

T-15

0.5 1

1

10

10

100

100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS




Name: 841-3 RDU FCB Manufacturer: SIEMENS Type: JXD6-A Sentron Frame/Model: JXD6-A Trip: 350 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (LO-HI) LO (2000A)


Name: 840-1 DATA CENTER ECB Manufacturer: CUTLER-HAMMER Type: MDL Frame/Model: MDL Trip: 800 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (4-8 x Trip) 4 (3200A)









243 of 648

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100

100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS




Name: 832-1 #15 GEN BRKR Manufacturer: GE Type: TKMA Frame/Model: TKMA Trip: 800 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (3-8 x Trip) HI (6400A)




Name: 832-1 #15 GEN BRKR Manufacturer: GE Type: TKMA Frame/Model: TKMA Trip: 800 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (3-8 x Trip) HI (6400A)

150% GEN FLA @ 60 SEC = 832A

300% GEN FLA @ 10 SEC = 1665A

X

X 150% GEN FLA @ 60 SEC = 832A

300% GEN FLA @ 10 SEC = 1665A

X

X



244 of 648

TX Inrush

T-7001-4 M4 West Loop Feeder

0.5 1

1

10

10

100

100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 901-2 BLDG 7 ATS_N FCB Manufacturer: SQUARE D Type: POWERPACT R/P-Frame, 1.0I Frame/Model: RJ Trip: 1600 AVoltage: 480 VSettings: Phase LTPU;LTD 1 (1600A); Fixed INST (RJ/RL) 1.5 (2400A)

Name: 901-1.BLDG 7 MCB Manufacturer: SQUARE D Type: PE, Micrologic Frame/Model: 2000A Trip: 2000 APlug: 2000 AVoltage: 480 VSettings: Phase LTPU 1.0 (2000A) LTD 2.0 STPU 2.0 (4000A) STD 0.1(I^2 T Out) INST 2.5 (5000A)









245 of 648

0.5 1

1

10

10

100

100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 905-1 DOCK ECB Manufacturer: SQUARE D Type: FA Frame/Model: FA Trip: 30 AVoltage: 480 VSettings: Phase Fixed

Name: 901-1G BLDG 7 GF Manufacturer: SQUARE D Type: PE, Micrologic Frame/Model: 2000A Trip: 2000 APlug: 2000 AVoltage: 480 VSettings: Ground GFPU 640 (640A) GFD 0.1(I^2 T Out)


Name: 901-1G BLDG 7 GF Manufacturer: SQUARE D Type: PE, Micrologic Frame/Model: 2000A Trip: 2000 APlug: 2000 AVoltage: 480 VSettings: Ground GFPU 640 (640A) GFD 0.1(I^2 T Out)



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0.01 0.01

0.10 0.10

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10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 911-1 ATS ECB Manufacturer: SQUARE D Type: LA Frame/Model: LA Trip: 400 AVoltage: 480 VSettings: Phase Thermal Curve INST 3 (3088A)

Name: 912-1 MCC MCB Manufacturer: GE Type: TJK Frame/Model: TJK Trip: 350 AVoltage: 480 VSettings: Phase Thermal Curve (Fixed) INST (3-10 x Trip) HI (3500A)

Name: 913-1 ELEVATOR ECB Manufacturer: WESTINGHOUSE Type: JB, KB Frame/Model: KB Trip: 200 AVoltage: 480 VSettings: Phase LTD INST 5.0 (1000A)








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1000 1000

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EC

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DS




Name: 907-1 #7 GEN BRKR Manufacturer: MERLIN GERIN Type: Powerpact R-Frame, 6.0A/P/H Frame/Model: RG Trip: 1600 AVoltage: 480 VSettings: Phase LTPU/LTD (A 0.4-1.0 x S) 1 (1600A); 0.5 STPU (1.5-10 x LTPU) 1.5 (2400A) STD (0-0.4) 0.4(I^2 T In) INST (2-15 x S) 2 (3200A)




Name: 907-1 #7 GEN BRKR Manufacturer: MERLIN GERIN Type: Powerpact R-Frame, 6.0A/P/H Frame/Model: RG Trip: 1600 AVoltage: 480 VSettings: Phase LTPU/LTD (A 0.4-1.0 x S) 1 (1600A); 0.5 STPU (1.5-10 x LTPU) 1.5 (2400A) STD (0-0.4) 0.4(I^2 T In) INST (2-15 x S) 2 (3200A)

150% GEN FLA @ 60 SEC = 2255A

300% GEN FLA @ 10 SEC = 4510AX

X150% GEN FLA @ 60 SEC = 2255A

300% GEN FLA @ 10 SEC = 4510AX

X



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T-BLDG-10

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0.01 0.01

0.10 0.10

1 1

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CURRENT IN AMPERES

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EC

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DS

Name: 922-1 OFFICE ECB Manufacturer: SQUARE D Type: Q2 Frame/Model: Q2 Trip: 225 AVoltage: 208 VSettings: Phase Fixed

Name: 903-1 BLDG 10 ECB Manufacturer: SQUARE D Type: KA Frame/Model: KA Trip: 200 AVoltage: 480 VSettings: Phase Thermal Curve INST LO (1000A)

Name: 901-3 BLDG 10 FCB Manufacturer: SQUARE D Type: KC Frame/Model: KC Trip: 175 AVoltage: 480 VSettings: Phase Thermal Curve INST LO (875A)


Name: T-BLDG-10 Nominal kVA: 150.0 kVAPri Voltage: 480 VSec Voltage: 208 VZ = 5.1000 %InrushFactor 12.0








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CURRENT IN AMPERES

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IN S

EC

ON

DS


Name: 901-7 WAREHOUSE FCB Manufacturer: SQUARE D Type: KC Frame/Model: KC Trip: 225 AVoltage: 480 VSettings: Phase Thermal Curve INST LO (1125A)

Name: 906-1 WAREHOUSE ECB Manufacturer: SIEMENS Type: FD6-A Sentron Frame/Model: FD6-A Trip: 150 AVoltage: 480 VSettings: Phase Thermal Curve (Fixed) INST (LO-HI) 4 (1100A)


Name: 901-7 WAREHOUSE FCB Manufacturer: SQUARE D Type: KC Frame/Model: KC Trip: 225 AVoltage: 480 VSettings: Phase Thermal Curve INST LO (1125A)

Name: 906-1 WAREHOUSE ECB Manufacturer: SIEMENS Type: FD6-A Sentron Frame/Model: FD6-A Trip: 150 AVoltage: 480 VSettings: Phase Thermal Curve (Fixed) INST (LO-HI) 4 (1100A)



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T-19A

0.5 1

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100

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10K

10K

0.01 0.01

0.10 0.10

1 1

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DS

Name: 021-4 T-19A FDR Manufacturer: SQUARE D Type: 15.5KV DIN Frame/Model: 20 Trip: 20 AVoltage: 12000 V

Name: 025-1 T-19A MN Manufacturer: WESTINGHOUSE Type: CLE 15.5KV Frame/Model: CLE Trip: 20 AVoltage: 12000 V

Name: T-19A Nominal kVA: 225.0 kVAPri Voltage: 12470 VSec Voltage: 208 VZ = 2.7000 %InrushFactor 12.0

Name: 501-1 SEC. CRIT. N. Manufacturer: WESTINGHOUSE Type: DS Frame/Model: 800 Trip: 800 AVoltage: 208 VSettings: Phase LTPU 1.0 (800A) LTD 20 STPU 4.0 (3200A) STD 0.33 INST 6.0 (4800A)

Name: 502-5 CENT VAC _N FCB(N5) Manufacturer: WESTINGHOUSE Type: DS Frame/Model: 800 Trip: 400 AVoltage: 208 VSettings: Phase LTPU 1.0 (400A) LTD 20 INST 6.0 (2400A)




Name: 501-1 SEC. CRIT. N. Manufacturer: WESTINGHOUSE Type: DS Frame/Model: 800 Trip: 800 AVoltage: 208 VSettings: Phase LTPU 1.0 (800A) LTD 20 STPU 4.0 (3200A) STD 0.33 INST 6.0 (4800A)




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1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

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IN S

EC

ON

DS

Name: 501-1 S CRIT N GF Manufacturer: WESTINGHOUSE Type: Amptector I-A Frame/Model: DS-206 Trip: 800 AVoltage: 208 VSettings: Ground PU 800A sensor B (260A) 0.22 sec. Delay

Name: 502-2G DIETETICS GF Manufacturer: CUTLER-HAMMER Type: DS, RMS 510/610/810/910 Frame/Model: DS-206 Trip: 200 APlug: 200 AVoltage: 208 VSettings: Ground GFPU (100-1200A Plug) K (200A) GFD (0.1-0.5 Sec.) 0.5 Sec.(I^2 T Out)





253 of 648

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T-19B

0.5 1

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10

10

100

100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 017-2 T-19B FDR Manufacturer: SQUARE D Type: 15.5KV DIN Frame/Model: 20 Trip: 20 AVoltage: 12000 V

Name: 019-1 T-19B MN Manufacturer: WESTINGHOUSE Type: CLE 15.5KV Frame/Model: CLE Trip: 20 AVoltage: 12000 V

Name: T-19B Nominal kVA: 225.0 kVAPri Voltage: 12470 VSec Voltage: 208 VZ = 2.7000 %InrushFactor 12.0

Name: 500-1 CRITICAL N. Manufacturer: WESTINGHOUSE Type: DS Frame/Model: 800 Trip: 800 AVoltage: 208 VSettings: Phase LTPU 1.0 (800A) LTD 20 STPU 10.0 (8000A) STD 0.33 INST 6.0 (4800A)


Name: 527-1 KP ECB Manufacturer: GE Type: SEDA, Spectra RMS Frame/Model: SEDA Trip: 150 AVoltage: 208 VSettings: Phase MAX









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10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

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IN S

EC

ON

DS

Name: 500-1G CRIT N GF Manufacturer: WESTINGHOUSE Type: Amptector I-A Frame/Model: DS-206 Trip: 800 AVoltage: 208 VSettings: Ground PU 800A sensor A (180A) 0.22 sec. Delay


Name: 500-1G CRIT N GF Manufacturer: WESTINGHOUSE Type: Amptector I-A Frame/Model: DS-206 Trip: 800 AVoltage: 208 VSettings: Ground PU 800A sensor A (180A) 0.22 sec. Delay




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0.01 0.01

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10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 402-1 #18 GEN BRKR Manufacturer: GE Type: AK & AKR, ECS Frame/Model: AKR-50 Trip: 1600 AVoltage: 208 VSettings: Phase LTPU (0.6-1.1 x S) 1 (1600A) LTD (Min-Max) Min STPU (1.75-4 x LTPU) 2.25 (3600A) STD (Min-Max) Min INST (4-12 x LTPU) 6 (9600A)

Name: 403-1 BLDG 18 FDR Manufacturer: SQUARE D Type: MA Frame/Model: MA Trip: 800 AVoltage: 208 VSettings: Phase Thermal Curve INST LO (4000A)

Name: 404-5 ATS-2_E FCB (E5) Manufacturer: WESTINGHOUSE Type: DS Frame/Model: 800 Trip: 400 AVoltage: 208 VSettings: Phase LTPU 1.0 (400A) LTD 20 INST 6.0 (2400A)






300% GEN FLA @ 10 SEC = 2706A

150% GEN FLA @ 60 SEC = 1353A

X

X

300% GEN FLA @ 10 SEC = 2706A

150% GEN FLA @ 60 SEC = 1353A

X

X



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1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 502-4 ATS-4_N FCB (N4) Manufacturer: WESTINGHOUSE Type: DS Frame/Model: 800 Trip: 150 AVoltage: 208 VSettings: Phase LTPU 1.0 (150A) LTD 8 INST 6.0 (900A)

Name: 505-1 ATS4 FCB Manufacturer: SQUARE D Type: QO, 3-Pole Frame/Model: QO, 3-POLE Trip: 50 AVoltage: 208 VSettings: Phase Fixed







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0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 524-1 LP2 BR Manufacturer: SQUARE D Type: QO, 1,2-Pole Frame/Model: QO, 1,2-POLE Trip: 20 AVoltage: 208 VSettings: Phase Fixed



Name: 524-1 LP2 BR Manufacturer: SQUARE D Type: QO, 1,2-Pole Frame/Model: QO, 1,2-POLE Trip: 20 AVoltage: 208 VSettings: Phase Fixed





258 of 648

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0.01 0.01

0.10 0.10

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10 10

100 100

1000 1000

CURRENT IN AMPERES

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IN S

EC

ON

DS

Name: 502-1 EDP-1_N FCB (N1) Manufacturer: WESTINGHOUSE Type: DS Frame/Model: 800 Trip: 200 AVoltage: 208 VSettings: Phase LTPU 1.0 (200A) LTD 8 INST 6.0 (1200A)






259 of 648

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10 10

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1000 1000

CURRENT IN AMPERES

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IN S

EC

ON

DS







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T-1-3

0.5 1

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10

10

100

100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: T-1-3 Nominal kVA: 750.0 kVAPri Voltage: 12180 VSec Voltage: 480 VZ = 6.2300 %InrushFactor 12.0

Name: 017-3 T-1-3 FDR Manufacturer: SQUARE D Type: 15.5KV DIN Frame/Model: 65 Trip: 65 AVoltage: 12000 V

Name: 340-1 PANEL A FCB Manufacturer: WESTINGHOUSE Type: AMPTECTOR Frame/Model: DS416 Trip: 1200 AVoltage: 480 VSettings: Phase LTPU 1 (1200A) LTD 20 INST 8 (9600A)

Name: 341-3 CT XFMR Manufacturer: WESTINGHOUSE Type: JB, KB Frame/Model: KB Trip: 125 AVoltage: 480 VSettings: Phase LTD INST 10.0 (1250A)



Name: 340-1 PANEL A FCB Manufacturer: WESTINGHOUSE Type: AMPTECTOR Frame/Model: DS416 Trip: 1200 AVoltage: 480 VSettings: Phase LTPU 1 (1200A) LTD 20 INST 8 (9600A)

Name: 341-3 CT XFMR Manufacturer: WESTINGHOUSE Type: JB, KB Frame/Model: KB Trip: 125 AVoltage: 480 VSettings: Phase LTD INST 10.0 (1250A)



261 of 648


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T-1-5

0.5 1

1

10

10

100

100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS




Name: 320-1 AC MCB Manufacturer: WESTINGHOUSE Type: DS Frame/Model: 2000 Trip: 2000 AVoltage: 480 VSettings: Phase LTPU 1.0 (2000A) LTD 20 STPU 4.0 (8000A) STD 0.33

Name: 320-4 MCC FCB Manufacturer: WESTINGHOUSE Type: DS Frame/Model: 1600 Trip: 1600 AVoltage: 480 VSettings: Phase LTPU 1.0 (1600A) LTD 20 STPU 4.0 (6400A) STD 0.33





Name: 320-4 MCC FCB Manufacturer: WESTINGHOUSE Type: DS Frame/Model: 1600 Trip: 1600 AVoltage: 480 VSettings: Phase LTPU 1.0 (1600A) LTD 20 STPU 4.0 (6400A) STD 0.33



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10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 320-4G MCC FCB GF Manufacturer: WESTINGHOUSE Type: Amptector I-A Frame/Model: DS-416 Trip: 1600 AVoltage: 480 VSettings: Ground PU 1200A sensor D (972.8A) 0.5 sec. Delay

Name: 320-1G AC MCB GF Manufacturer: WESTINGHOUSE Type: Amptector I-A Frame/Model: DS-420 Trip: 2000 AVoltage: 480 VSettings: Ground PU 2000A sensor D (1200A) 0.5 sec. Delay

Name: 320-4G MCC FCB GF Manufacturer: WESTINGHOUSE Type: Amptector I-A Frame/Model: DS-416 Trip: 1600 AVoltage: 480 VSettings: Ground PU 1200A sensor D (972.8A) 0.5 sec. Delay




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0.01 0.01

0.10 0.10

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10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 323-1 HP-9M MCB Manufacturer: CUTLER-HAMMER Type: FD Frame/Model: FD Trip: 150 AVoltage: 480 VSettings: Phase Fixed

Name: 320-3 HP-9M FCB Manufacturer: WESTINGHOUSE Type: DS Frame/Model: 1600 Trip: 200 AVoltage: 480 VSettings: Phase LTPU 1.0 (200A) LTD 20 STPU 4.0 (800A) STD 0.33 INST 6.0 (1200A)


Name: 323-1 HP-9M MCB Manufacturer: CUTLER-HAMMER Type: FD Frame/Model: FD Trip: 150 AVoltage: 480 VSettings: Phase Fixed

Name: 320-3 HP-9M FCB Manufacturer: WESTINGHOUSE Type: DS Frame/Model: 1600 Trip: 200 AVoltage: 480 VSettings: Phase LTPU 1.0 (200A) LTD 20 STPU 4.0 (800A) STD 0.33 INST 6.0 (1200A)




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0.01 0.01

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10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 320-3G HP-9M FCB GF Manufacturer: WESTINGHOUSE Type: Amptector I-A Frame/Model: DS-416 Trip: 200 AVoltage: 480 VSettings: Ground PU 200A sensor A (65A) 0.35 sec Delay

Name: 323-2 HP-9M BR Manufacturer: CUTLER-HAMMER Type: GHB Frame/Model: GHB Trip: 20 AVoltage: 480 VSettings: Phase Fixed


Name: 320-3G HP-9M FCB GF Manufacturer: WESTINGHOUSE Type: Amptector I-A Frame/Model: DS-416 Trip: 200 AVoltage: 480 VSettings: Ground PU 200A sensor A (65A) 0.35 sec Delay





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10 10

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1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS


Name: 320-2 LPGE FCB Manufacturer: CUTLER-HAMMER Type: DS, RMS 510/610/810/910 Frame/Model: DS-416 Trip: 300 APlug: 300 AVoltage: 480 VSettings: Phase LTPU (0.5-1.0 x P) 0.5 (150A) LTD (2-24 Sec.) 20 STPU (2-10 x LTPU) 4 (600A) STD (0.1-0.5 Sec.) 0.3 Sec.(I^2 T Out) INST (2-12 x P) 3 (900A)

Name: 321-1 LPGE MCB Manufacturer: CUTLER-HAMMER Type: JD Frame/Model: JD Trip: 200 AVoltage: 480 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 10 (2000A)

Name: 321-2 LP-8E FCB Manufacturer: CUTLER-HAMMER Type: FD Frame/Model: FD Trip: 100 AVoltage: 480 VSettings: Phase Fixed


Name: 320-2 LPGE FCB Manufacturer: CUTLER-HAMMER Type: DS, RMS 510/610/810/910 Frame/Model: DS-416 Trip: 300 APlug: 300 AVoltage: 480 VSettings: Phase LTPU (0.5-1.0 x P) 0.5 (150A) LTD (2-24 Sec.) 20 STPU (2-10 x LTPU) 4 (600A) STD (0.1-0.5 Sec.) 0.3 Sec.(I^2 T Out) INST (2-12 x P) 3 (900A)





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0.01 0.01

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10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 320-2G LPGE FCB GF Manufacturer: CUTLER-HAMMER Type: DS, RMS 510/610/810/910 Frame/Model: DS-416 Trip: 300 APlug: 300 AVoltage: 480 VSettings: Ground GFPU (100-1200A Plug) A (75A) GFD (0.1-0.5 Sec.) 0.3 Sec.(I^2 T Out)


Name: 320-2G LPGE FCB GF Manufacturer: CUTLER-HAMMER Type: DS, RMS 510/610/810/910 Frame/Model: DS-416 Trip: 300 APlug: 300 AVoltage: 480 VSettings: Ground GFPU (100-1200A Plug) A (75A) GFD (0.1-0.5 Sec.) 0.3 Sec.(I^2 T Out)




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T-1-2

0.5 1

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10

10

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100

1K1K

10K

10K

0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 018-1 T-1-2 MN Manufacturer: GE Type: 9F60 EJ0-1, 15.5kV E-Rated Frame/Model: EJO-1, 100E Trip: 100 AVoltage: 12000 V




Name: 241-1 MAIN B Manufacturer: CUTLER-HAMMER Type: Magnum DS, RMS 520 Frame/Model: MDS-620 Trip: 2000 APlug: 2000 AVoltage: 208 VSettings: Phase LTPU (0.4-1.0 x P) 1 (2000A) LTD (2-24 Sec.) 7 STPU (2-12 x LTPU) 4 (8000A) STD (0.1-0.5 Sec.) 0.3(I^2 T Out) INST (2-12 x P) M1(12) (24000A)

Name: 241-2 B5-1 Manufacturer: CUTLER-HAMMER Type: HMDL RMS 310 Frame/Model: HMDL Trip: 800 APlug: 800 AVoltage: 208 VSettings: Phase LTPU (1.0 x P) FIXED (800A) LTD (Fixed) FIXED STPU (2-8 x P) 5 (4000A) STD (Inst-300 ms) 100 ms(I^2 T In) INST (5500A) FIXED (5500A)

Name: 171-T TIE Manufacturer: CUTLER-HAMMER Type: Magnum DS, RMS 520 Frame/Model: MDS-620 Trip: 2000 APlug: 2000 AVoltage: 208 VSettings: Phase LTPU (0.4-1.0 x P) 0.7 (1400A) LTD (2-24 Sec.) 7 STPU (2-12 x LTPU) 4 (5600A) STD (0.1-0.5 Sec.) 0.2(I^2 T Out) INST (2-12 x P) M1(12) (24000A)










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1000 1000

CURRENT IN AMPERES

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IN S

EC

ON

DS

Name: 241-3 B5-2 Manufacturer: CUTLER-HAMMER Type: HKD, RMS 310 Frame/Model: HKD Trip: 400 APlug: 400 AVoltage: 208 VSettings: Phase LTPU (1.0 x P) Fixed (400A) LTD (Fixed) Fixed STPU (2-8 x P) 8 (3200A) STD (Inst-300 ms) 100 ms(I^2 T In) INST (4000A) Fixed (4000A)


Name: 254-1 RP-1D-1 MCB Manufacturer: CUTLER-HAMMER Type: DK Frame/Model: DK Trip: 350 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 10 (3500A)






269 of 648

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0.01 0.01

0.10 0.10

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10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS

Name: 429-1 Manufacturer: CUTLER-HAMMER Type: ED Frame/Model: ED Trip: 225 AVoltage: 208 VSettings: Phase Fixed

Name: 418-14 E24W RM 40E3 Manufacturer: GE Type: SGDA, Spectra RMS Frame/Model: SGDA Trip: 175 AVoltage: 208 VSettings: Phase MAX

Name: 418-1 EDP1 MCB Manufacturer: GE Type: SGHA, Spectra RMS Frame/Model: SGHA Trip: 600 AVoltage: 208 VSettings: Phase MAX




Name: 12-03.5.tcc Current Scale x 100 Reference Voltage: 208


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0.01 0.01

0.10 0.10

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10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS


Name: 242-1 DP ECB Manufacturer: GE Type: TKMA Frame/Model: TKMA Trip: 800 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (3-8 x Trip) HI (6400A)

Name: 243-1 ATS 7_N FCB Manufacturer: GE Type: SGHA, Spectra RMS Frame/Model: SGHA Trip: 600 AVoltage: 208 VSettings: Phase MAX

Name: 418-13 EC3 IN ICU FCB Manufacturer: GE Type: SGDA, Spectra RMS Frame/Model: SGDA Trip: 400 AVoltage: 208 VSettings: Phase MAX







271 of 648

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0.01 0.01

0.10 0.10

1 1

10 10

100 100

1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS


Name: 410-1 RM 143 FDR Manufacturer: WESTINGHOUSE Type: DS Frame/Model: 800 Trip: 800 AVoltage: 208 VSettings: Phase LTPU 1.0 (800A) LTD 20 INST 6.0 (4800A)

Name: 411-1 ATS-7_E FCB Manufacturer: GE Type: SGHA, Spectra RMS Frame/Model: SGHA Trip: 600 AVoltage: 208 VSettings: Phase MAX





Name: 411-1 ATS-7_E FCB Manufacturer: GE Type: SGHA, Spectra RMS Frame/Model: SGHA Trip: 600 AVoltage: 208 VSettings: Phase MAX



150% GEN FLA @ 60 SEC = 1353A

300% GEN FLA @ 10 SEC = 2706A

X

X 150% GEN FLA @ 60 SEC = 1353A

300% GEN FLA @ 10 SEC = 2706A

X

X



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1K1K

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10K

0.01 0.01

0.10 0.10

1 1

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Name: 418-15 CB3W/RM300 Manufacturer: GE Type: SGDA, Spectra RMS Frame/Model: SGDA Trip: 300 AVoltage: 208 VSettings: Phase MAX



Name: 418-15 CB3W/RM300 Manufacturer: GE Type: SGDA, Spectra RMS Frame/Model: SGDA Trip: 300 AVoltage: 208 VSettings: Phase MAX



273 of 648

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Name: 243-3 ATS 8_N FCB Manufacturer: GE Type: TFK Frame/Model: TFK Trip: 200 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (4.5-10 x Trip) HI (2000A)

Name: 435-2 LP1N-N FCB Manufacturer: GE Type: THQL Frame/Model: THQL Trip: 100 AVoltage: 208 VSettings: Phase Fixed






274 of 648

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Name: 411-3 ATS-8_E FCB Manufacturer: GE Type: THQD Frame/Model: THQD Trip: 200 AVoltage: 208 VSettings: Phase Fixed








275 of 648

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Name: 290-1 PPGN-C BR Manufacturer: SQUARE D Type: QO, 1,2-Pole Frame/Model: QO, 1,2-POLE Trip: 20 AVoltage: 208 VSettings: Phase Fixed








276 of 648

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Name: 280-1 LP2C-A MCB Manufacturer: SQUARE D Type: QO, 3-Pole Frame/Model: QO, 3-POLE Trip: 100 AVoltage: 208 VSettings: Phase Fixed



Name: 280-1 LP2C-A MCB Manufacturer: SQUARE D Type: QO, 3-Pole Frame/Model: QO, 3-POLE Trip: 100 AVoltage: 208 VSettings: Phase Fixed





277 of 648

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Name: 314-1 PP7K MCB Manufacturer: CUTLER-HAMMER Type: CA Frame/Model: CA Trip: 150 AVoltage: 208 VSettings: Phase Fixed

Name: 241-16 B6-18 Manufacturer: CUTLER-HAMMER Type: HJD Frame/Model: HJD Trip: 100 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 10 (1000A)


Name: 314-1 PP7K MCB Manufacturer: CUTLER-HAMMER Type: CA Frame/Model: CA Trip: 150 AVoltage: 208 VSettings: Phase Fixed

Name: 241-16 B6-18 Manufacturer: CUTLER-HAMMER Type: HJD Frame/Model: HJD Trip: 100 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 10 (1000A)




278 of 648

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Name: 174-1 LP7A-1 MCB Manufacturer: CUTLER-HAMMER Type: DK Frame/Model: DK Trip: 300 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 10 (3000A)

Name: 171-3 A2-4 Manufacturer: CUTLER-HAMMER Type: HKD, RMS 310 Frame/Model: HKD Trip: 400 APlug: 300 AVoltage: 208 VSettings: Phase LTPU (1.0 x P) Fixed (300A) LTD (Fixed) Fixed STPU (2-8 x P) 8 (2400A) STD (Inst-300 ms) 100 ms(I^2 T In) INST (4000A) Fixed (4000A)

Name: 171-1 MAIN A Manufacturer: CUTLER-HAMMER Type: Magnum DS, RMS 520 Frame/Model: MDS-620 Trip: 2000 APlug: 2000 AVoltage: 208 VSettings: Phase LTPU (0.4-1.0 x P) 1 (2000A) LTD (2-24 Sec.) 7 STPU (2-12 x LTPU) 4 (8000A) STD (0.1-0.5 Sec.) 0.3(I^2 T Out) INST (2-12 x P) M1(12) (24000A)






279 of 648

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Name: 178-1 LP7A MCB Manufacturer: CUTLER-HAMMER Type: CA Frame/Model: CA Trip: 225 AVoltage: 208 VSettings: Phase Fixed







280 of 648

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DSName: 230-1 ELEVATOR ECB

Manufacturer: CUTLER-HAMMER Type: ED Frame/Model: ED Trip: 200 AVoltage: 208 VSettings: Phase Fixed

Name: 171-12 A3-1 Manufacturer: CUTLER-HAMMER Type: LD, RMS 310 Frame/Model: LD Trip: 600 APlug: 400 AVoltage: 208 VSettings: Phase LTPU (1.0 x P) Fixed (400A) LTD (Fixed) Fixed STPU (2-8 x P) 8 (3200A) STD (Inst-300 ms) 100 ms(I^2 T Out) INST (5500A) Fixed (5500A)



Name: 230-1 ELEVATOR ECB Manufacturer: CUTLER-HAMMER Type: ED Frame/Model: ED Trip: 200 AVoltage: 208 VSettings: Phase Fixed






281 of 648

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T-1-1

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205-4 CT WAITING

Name: 205-4 CT WAITING Manufacturer: CUTLER-HAMMER Type: CA Frame/Model: CA Trip: 225 AVoltage: 208 VSettings: Phase Fixed






205-4 CT WAITING

Name: 205-4 CT WAITING Manufacturer: CUTLER-HAMMER Type: CA Frame/Model: CA Trip: 225 AVoltage: 208 VSettings: Phase Fixed



282 of 648

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Name: 205-8 RP2K FCB Manufacturer: WESTINGHOUSE Type: JB, KB Frame/Model: KB Trip: 150 AVoltage: 208 VSettings: Phase LTD INST 5.0 (750A)

Name: 205D-1 RP2K MCB Manufacturer: GE Type: THHQB Frame/Model: THHQB Trip: 100 AVoltage: 208 VSettings: Phase Fixed

Name: 205D-2 RP2K BR Manufacturer: GE Type: THHQB Frame/Model: THHQB Trip: 20 AVoltage: 208 VSettings: Phase Fixed







283 of 648

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DS

Name: 227-1 E2-4B MCB Manufacturer: CUTLER-HAMMER Type: DK Frame/Model: DK Trip: 400 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 7.5 (3000A)



Name: 227-1 E2-4B MCB Manufacturer: CUTLER-HAMMER Type: DK Frame/Model: DK Trip: 400 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 7.5 (3000A)





284 of 648

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T-1-4

0.5 1

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1K1K

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0.01 0.01

0.10 0.10

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Name: 332-5 PNL KPD FCB Manufacturer: GE Type: THFK Frame/Model: THFK Trip: 225 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (4.5-10 x Trip) HI (2250A)

Name: 331-1 DIETETICS ECB Manufacturer: GE Type: TKMA Frame/Model: TKMA Trip: 800 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (3-8 x Trip) HI (6400A)



Name: 332-5 PNL KPD FCB Manufacturer: GE Type: THFK Frame/Model: THFK Trip: 225 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (4.5-10 x Trip) HI (2250A)

Name: 331-1 DIETETICS ECB Manufacturer: GE Type: TKMA Frame/Model: TKMA Trip: 800 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (3-8 x Trip) HI (6400A)



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November 2008

4.6 Time-Current Coordination Graphs - Recommended Settings

286 of 648


UTIL 141 PHASECBL-0004

001-2 M1

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Name: 001-4 M4 West Loop Feeder Manufacturer: SQUARE D Type: SEPAM 1000+ CT 1200 / 5 AVoltage: 12000 VSettings: Phase PH CS 0.3 (360A) PH TD, VIT 0.1 PH IP 2.0 (2400A) PH ITD 0.05




Name: 001-2 M1 Manufacturer: SQUARE D Type: SEPAM 1000+ CT 1200 / 5 AVoltage: 12000 VSettings: Phase PH CS 0.3 (360A) PH TD, VIT 0.2 PH IP 24.0 (28800A) PH ITD 0.05








Name: 00-01 (PROPOSED).tcc Current Scale x 10 Reference Voltage: 12000


287 of 648

001-4G 50N/51N

001-2G M1 GFUTIL 141 GROUND

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DS

Name: 001-4G 50N/51N Manufacturer: SQUARE D Type: SEPAM 1000+ CT 50 / 5 AVoltage: 12000 VSettings: Ground GF CS 1 (50A) GF TD, VIT 0.5 GF IP 15 (750A) GF ITD 0.05

Name: 001-2G M1 GF Manufacturer: SQUARE D Type: SEPAM 1000+ CT 1200 / 5 AVoltage: 12000 VSettings: Ground GF CS 0.1 (120A) GF TD, VIT 0.4


Name: 001-4G 50N/51N Manufacturer: SQUARE D Type: SEPAM 1000+ CT 50 / 5 AVoltage: 12000 VSettings: Ground GF CS 1 (50A) GF TD, VIT 0.5 GF IP 15 (750A) GF ITD 0.05

Name: 001-2G M1 GF Manufacturer: SQUARE D Type: SEPAM 1000+ CT 1200 / 5 AVoltage: 12000 VSettings: Ground GF CS 0.1 (120A) GF TD, VIT 0.4


Name: 00-01G (PROPOSED).tcc Current Scale x 1 Reference Voltage: 12000


288 of 648

001-4 M4 West Loop Feeder001-2 M1

TX Inrush

T-1A-1CBL-0027

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1K1K

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CURRENT IN AMPERES

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DS






Name: 101-1 MDSB-A MCB Manufacturer: CUTLER-HAMMER Type: DS, RMS 510/610/810/910 Frame/Model: DS-416H Trip: 1600 APlug: 1600 AVoltage: 480 VSettings: Phase LTPU (0.5-1.0 x P) 1 (1600A) LTD (2-24 Sec.) 7 STPU (2-10 x LTPU) 5 (8000A) STD (0.1-0.5 Sec.) 0.2 Sec.(I^2 T Out) INST (2-12 x P) M2(12) (19200A)











289 of 648

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290 of 648

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291 of 648

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CURRENT IN AMPERES

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EC

ON

DS


Name: 101-1G MDSB-A MCB GF Manufacturer: CUTLER-HAMMER Type: DS, RMS 510/610/810/910 Frame/Model: DS-416H Trip: 1600 APlug: 1600 AVoltage: 480 VSettings: Phase GFPU (1600A Plug) E (800A) GFD (0.1-0.5 Sec.) 0.5 Sec.(I^2 T Out)







292 of 648

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293 of 648

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294 of 648

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295 of 648

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296 of 648

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297 of 648

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1000 1000

CURRENT IN AMPERES

TIME

IN S

EC

ON

DS


Name: 117-3 ATS-E3_E FCB Manufacturer: CUTLER-HAMMER Type: MCA Frame/Model: MCA Trip: 800 APlug: 800 AVoltage: 480 VSettings: Phase LTPU (1.0 x P) Fixed (800A) LTD (Fixed) Fixed STPU (3-10 x P) 7 (5600A) STD (Min-Max) Min(I^2 T In) INST (9000A) Fixed (9000A)




Name: 117-3 ATS-E3_E FCB Manufacturer: CUTLER-HAMMER Type: MCA Frame/Model: MCA Trip: 800 APlug: 800 AVoltage: 480 VSettings: Phase LTPU (1.0 x P) Fixed (800A) LTD (Fixed) Fixed STPU (3-10 x P) 7 (5600A) STD (Min-Max) Min(I^2 T In) INST (9000A) Fixed (9000A)



150% GEN FLA @ 60 SEC = 1353A

300% GEN FLA @ 10 SEC = 2706A

X

X

150% GEN FLA @ 60 SEC = 1353A

300% GEN FLA @ 10 SEC = 2706A

X

X

Name: 01-10E (PROPOSED).tcc Current Scale x 100 Reference Voltage: 480


298 of 648

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299 of 648

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CURRENT IN AMPERES

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EC

ON

DS

Name: 150-1 MDSB-B MCB Manufacturer: CUTLER-HAMMER Type: DS, RMS 510/610/810/910 Frame/Model: DS-416H Trip: 1600 APlug: 1600 AVoltage: 208 VSettings: Phase LTPU (0.5-1.0 x P) 1 (1600A) LTD (2-24 Sec.) 4 STPU (2-10 x LTPU) 3 (4800A) STD (0.1-0.5 Sec.) 0.5 Sec.(I^2 T Out) INST (2-12 x P) 6 (9600A)










300 of 648

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T-1A-2

0.5 1

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301 of 648

TX Inrush

T-1A-3

0.5 1

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CURRENT IN AMPERES

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EC

ON

DS



Name: 160-1 MDSB-C MCB Manufacturer: CUTLER-HAMMER Type: DS, RMS 510/610/810/910 Frame/Model: DS-416H Trip: 1600 APlug: 1600 AVoltage: 480 VSettings: Phase LTPU (0.5-1.0 x P) 0.7 (1120A) LTD (2-24 Sec.) 7 STPU (2-10 x LTPU) 5 (5600A) STD (0.1-0.5 Sec.) 0.5 Sec.(I^2 T Out) INST (2-12 x P) 6 (9600A)





Name: 160-1 MDSB-C MCB Manufacturer: CUTLER-HAMMER Type: DS, RMS 510/610/810/910 Frame/Model: DS-416H Trip: 1600 APlug: 1600 AVoltage: 480 VSettings: Phase LTPU (0.5-1.0 x P) 0.7 (1120A) LTD (2-24 Sec.) 7 STPU (2-10 x LTPU) 5 (5600A) STD (0.1-0.5 Sec.) 0.5 Sec.(I^2 T Out) INST (2-12 x P) 6 (9600A)





302 of 648

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T-17

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10

100

100

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0.10 0.10

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303 of 648

TX Inrush

T-5

0.5 1

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10

100

100

1K1K

10K

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0.01 0.01

0.10 0.10

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CURRENT IN AMPERES

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DS


Name: 702-1 BLDG 5 MCB Manufacturer: SIEMENS Type: LXD6-A Sentron Frame/Model: LXD6-A Trip: 600 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (LO-HI) 3 (3800A)



Name: 702-1 BLDG 5 MCB Manufacturer: SIEMENS Type: LXD6-A Sentron Frame/Model: LXD6-A Trip: 600 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (LO-HI) 3 (3800A)




304 of 648

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305 of 648

TX Inrush

T-15

0.5 1

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10

100

100

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10K

10K

0.01 0.01

0.10 0.10

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DS






Name: 840-1 DATA CENTER ECB Manufacturer: CUTLER-HAMMER Type: MDL Frame/Model: MDL Trip: 800 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (4-8 x Trip) 5.2 (4160A)









306 of 648

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EC

ON

DS




Name: 832-1 #15 GEN BRKR Manufacturer: GE Type: TKMA Frame/Model: TKMA Trip: 800 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (3-8 x Trip) LO-HI (3200A)




Name: 832-1 #15 GEN BRKR Manufacturer: GE Type: TKMA Frame/Model: TKMA Trip: 800 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (3-8 x Trip) LO-HI (3200A)

150% GEN FLA @ 60 SEC = 832A

300% GEN FLA @ 10 SEC = 1665A

X

X 150% GEN FLA @ 60 SEC = 832A

300% GEN FLA @ 10 SEC = 1665A

X

X



307 of 648

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T-7001-4 M4 West Loop Feeder

0.5 1

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10

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1K1K

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DS




Name: 901-1 BLDG 7 MCB Manufacturer: SQUARE D Type: PE, Micrologic Frame/Model: 2000A Trip: 2000 APlug: 2000 AVoltage: 480 VSettings: Phase LTPU 1.0 (2000A) LTD 24 STPU 4.0 (8000A) STD 0.1(I^2 T Out) INST 6.0 (12000A)




Name: 901-1 BLDG 7 MCB Manufacturer: SQUARE D Type: PE, Micrologic Frame/Model: 2000A Trip: 2000 APlug: 2000 AVoltage: 480 VSettings: Phase LTPU 1.0 (2000A) LTD 24 STPU 4.0 (8000A) STD 0.1(I^2 T Out) INST 6.0 (12000A)



308 of 648

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ON

DS


Name: 901-1G BLDG 7 MCB GF Manufacturer: SQUARE D Type: PE, Micrologic Frame/Model: 2000A Trip: 2000 APlug: 2000 AVoltage: 480 VSettings: Ground GFPU 800 (800A) GFD 0.1(I^2 T Out)


Name: 901-1G BLDG 7 MCB GF Manufacturer: SQUARE D Type: PE, Micrologic Frame/Model: 2000A Trip: 2000 APlug: 2000 AVoltage: 480 VSettings: Ground GFPU 800 (800A) GFD 0.1(I^2 T Out)



309 of 648

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T-BLDG-10

0.5 1

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10

10

100

100

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DS


Name: 903-1 BLDG 10 ECB Manufacturer: SQUARE D Type: KA Frame/Model: KA Trip: 200 AVoltage: 480 VSettings: Phase Thermal Curve INST 6 (1879.9999A)

Name: 901-3 BLDG 10 FCB Manufacturer: SQUARE D Type: KC Frame/Model: KC Trip: 175 AVoltage: 480 VSettings: Phase Thermal Curve INST HI (1750A)



Name: 903-1 BLDG 10 ECB Manufacturer: SQUARE D Type: KA Frame/Model: KA Trip: 200 AVoltage: 480 VSettings: Phase Thermal Curve INST 6 (1879.9999A)

Name: 901-3 BLDG 10 FCB Manufacturer: SQUARE D Type: KC Frame/Model: KC Trip: 175 AVoltage: 480 VSettings: Phase Thermal Curve INST HI (1750A)




310 of 648

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T-19A

0.5 1

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100

100

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DS




Name: 501-1 SEC. CRIT. N. Manufacturer: WESTINGHOUSE Type: DS Frame/Model: 800 Trip: 800 AVoltage: 208 VSettings: Phase LTPU 1.0 (800A) LTD 12 STPU 7 (5600A) STD 0.18 INST 12.0 (9600A)





Name: 501-1 SEC. CRIT. N. Manufacturer: WESTINGHOUSE Type: DS Frame/Model: 800 Trip: 800 AVoltage: 208 VSettings: Phase LTPU 1.0 (800A) LTD 12 STPU 7 (5600A) STD 0.18 INST 12.0 (9600A)




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Name: 500-1 CRITICAL N. Manufacturer: WESTINGHOUSE Type: DS Frame/Model: 800 Trip: 800 AVoltage: 208 VSettings: Phase LTPU 1.0 (800A) LTD 12 STPU 7 (5600A) STD 0.18 INST 12.0 (9600A)











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Name: 402-1 #18 GEN BRKR Manufacturer: GE Type: AK & AKR, ECS Frame/Model: AKR-50 Trip: 1600 AVoltage: 208 VSettings: Phase LTPU (0.6-1.1 x S) 1 (1600A) LTD (Min-Max) Max STPU (1.75-4 x LTPU) 4 (6400A) STD (Min-Max) Max INST (4-12 x LTPU) 8 (12800A)








300% GEN FLA @ 10 SEC = 2706A

150% GEN FLA @ 60 SEC = 1353A

X

X

300% GEN FLA @ 10 SEC = 2706A

150% GEN FLA @ 60 SEC = 1353A

X

X



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Name: 320-3G HP-9M FCB GF Manufacturer: WESTINGHOUSE Type: Amptector I-A Frame/Model: DS-416 Trip: 200 AVoltage: 480 VSettings: Ground PU 200A sensor D (145A) 0.22 sec. Delay



Name: 320-3G HP-9M FCB GF Manufacturer: WESTINGHOUSE Type: Amptector I-A Frame/Model: DS-416 Trip: 200 AVoltage: 480 VSettings: Ground PU 200A sensor D (145A) 0.22 sec. Delay





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Name: 320-2 LPGE FCB Manufacturer: CUTLER-HAMMER Type: DS, RMS 510/610/810/910 Frame/Model: DS-416 Trip: 300 APlug: 300 AVoltage: 480 VSettings: Phase LTPU (0.5-1.0 x P) 0.5 (150A) LTD (2-24 Sec.) 20 STPU (2-10 x LTPU) S2(10) (1500A) STD (0.1-0.5 Sec.) 0.5 Sec.(I^2 T Out) INST (2-12 x P) M1(8) (2400A)




Name: 320-2 LPGE FCB Manufacturer: CUTLER-HAMMER Type: DS, RMS 510/610/810/910 Frame/Model: DS-416 Trip: 300 APlug: 300 AVoltage: 480 VSettings: Phase LTPU (0.5-1.0 x P) 0.5 (150A) LTD (2-24 Sec.) 20 STPU (2-10 x LTPU) S2(10) (1500A) STD (0.1-0.5 Sec.) 0.5 Sec.(I^2 T Out) INST (2-12 x P) M1(8) (2400A)





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Name: 241-2 B5-1 Manufacturer: CUTLER-HAMMER Type: HMDL RMS 310 Frame/Model: HMDL Trip: 800 APlug: 800 AVoltage: 208 VSettings: Phase LTPU (1.0 x P) FIXED (800A) LTD (Fixed) FIXED STPU (2-8 x P) 8 (6400A) STD (Inst-300 ms) Inst(I^2 T In) INST (5500A) FIXED (5500A)











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Name: 242-1 DP ECB Manufacturer: GE Type: TKMA Frame/Model: TKMA Trip: 800 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (3-8 x Trip) 7 (5600A)

Name: 243-1 ATS 7_N FCB Manufacturer: GE Type: SGHA, Spectra RMS Frame/Model: SGHA Trip: 600 AVoltage: 208 VSettings: Phase 4

Name: 418-13 EC3 IN ICU FCB Manufacturer: GE Type: SGDA, Spectra RMS Frame/Model: SGDA Trip: 400 AVoltage: 208 VSettings: Phase 4







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Name: 418-1 EDP1 MCB Manufacturer: GE Type: SGHA, Spectra RMS Frame/Model: SGHA Trip: 600 AVoltage: 208 VSettings: Phase 4




Name: 12-03.5. (PROPOSED).tcc Current Scale x 100 Reference Voltage: 208


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Name: 411-1 ATS-7_E FCB Manufacturer: GE Type: SGHA, Spectra RMS Frame/Model: SGHA Trip: 600 AVoltage: 208 VSettings: Phase 4





Name: 411-1 ATS-7_E FCB Manufacturer: GE Type: SGHA, Spectra RMS Frame/Model: SGHA Trip: 600 AVoltage: 208 VSettings: Phase 4



150% GEN FLA @ 60 SEC =1353A

300% GEN FLA @10 SEC = 2706A

X

X 150% GEN FLA @ 60 SEC =1353A

300% GEN FLA @10 SEC = 2706A

X

X



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Name: 418-15 CB3W/RM300 Manufacturer: GE Type: SGDA, Spectra RMS Frame/Model: SGDA Trip: 300 AVoltage: 208 VSettings: Phase 5



Name: 418-15 CB3W/RM300 Manufacturer: GE Type: SGDA, Spectra RMS Frame/Model: SGDA Trip: 300 AVoltage: 208 VSettings: Phase 5



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Name: 227-1 E2-4B MCB Manufacturer: CUTLER-HAMMER Type: DK Frame/Model: DK Trip: 400 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 6 (2400A)



Name: 227-1 E2-4B MCB Manufacturer: CUTLER-HAMMER Type: DK Frame/Model: DK Trip: 400 AVoltage: 208 VSettings: Phase Thermal Curve (Fixed) INST (5-10 x Trip) 6 (2400A)





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5 ARC FLASH HAZARD ANALYSIS

5.1 General Procedure Over the past two decades, the electrical industry has begun to recognize arc flash as a safety hazard for personnel working near exposed, energized conductors. Ralph Lee is credited with raising the awareness of this hazard in a technical paper entitled “The Other Electrical Hazard: Electric Arc Blast Burns,” IEEE Transactions on Industry Applications, Vol. 1A-18, No. 3, May-June 1982. Lee’s paper presented a theoretical model for calculating the distance-energy relationship for electrical arc exposure. The hazard was later further quantified through controlled testing on 600V systems which included the effect of an enclosure in reflecting heat from the arc toward the opening of the enclosure. Curve fitting was applied to the test data and the resulting algorithms were published in a technical paper by R. L. Doughty, T. E. Neal, and H. L. Floyd, entitled “Predicting Incident Energy to Better Manage the Electric Arc Hazard on 600V Power Distribution Systems,” Proceedings of the IEEE Petroleum and Chemicals Industry Conference, Paper No. 98-36, 1998. These models provide the basis for performing flash hazard analysis per NFPA 70E-2004, Standard for Electrical Safety In The Workplace. More recently, IEEE Std. 1584-2002, IEEE Guide for Performing Arc-Flash Hazard Calculations, presents a more comprehensive methodology for arc flash hazard analysis. This standard, based on extensive testing carried out on low-voltage and medium-voltage systems (to 15kV), is applicable to a wider range of systems than previous calculation methods. For systems above 15kV, where sufficient test data is not yet available, IEEE 1584 relies on the Lee method for calculation of arcing energy levels. The results presented in this report are based solely on the IEEE 1584 calculation procedures. Note that IEEE 1584 is still applicable only to three-phase arcing faults (though single-phase or phase-phase arcing faults are generally expected to quickly escalate to three-phase faults), and it does not consider the effects of arc blast or other by-products of an arcing fault (sound levels, molten metal droplets, toxic vapors, etc.). The results of this study assume that protective devices considered are in working order and will operate within their specified tolerances to clear faults from the system. Non-functioning overcurrent protective devices can allow arcing faults to persist for much longer than normal, producing a very significant arc flash hazard beyond the results of the calculations presented in this report. Protection from arc flash hazards can best be provided by working only on circuits or equipment that have been placed in an electrically safe work condition. The results of the arc flash analysis show both the calculated arc flash incident energy (AFIE) and flash protection boundary distances at each bus under study. In some locations, more than one value for AFIE levels and/or the flash protection boundary are given (e.g., one for the main section and one for the feeder sections of a switchgear lineup) to reflect different zones of protection for a given piece of equipment. Equipment warning labels or safety programs should take these variations in energy levels and flash protection boundaries into account. For buses that represent low-voltage switchboards, panelboards, or motor control centers, the values shown in the Arc Flash Hazard Analysis – Summary Tables assume that the fault is cleared by the upstream protective device, even if the equipment contains a main overcurrent protective device. This assumption is intended to produce conservative results and therefore cover the case where faults originating in such equipment may propagate to the line side of the local main. See the Arc Flash Specific Procedure for additional details regarding the analysis procedure.

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Additional discussion of buses with incident energy greater than 40 cal/cm2 (in the “bus calculation”) is given in the Arc Flash Analysis of Results, if applicable. Note that while PPE with arc ratings of up to 112 cal/cm2 is commercially available, NFPA 70E-2004 does not define protective clothing classes or intend for work to be performed at locations having incident energies above 40 cal/cm2 (Category 4). Due to the increased risk of non-burn injuries (e.g., concussions, hearing damage, or other internal injuries) at such high-energy locations, Square D Engineering Services does not recommend energized work at any location with an available AFIE greater than 40 cal/cm2. The arc flash hazard analysis and recommended PPE levels are no substitutes for safe work practices. As stated in 130.7(C)(10), FPN 2 of NFPA 70E-2004, burn injuries can occur even when adequate PPE is employed, and the recommended PPE may provide little or no protection against arc blast and its effects. Protection from arc flash can best be provided by working only on circuits or equipment that have been placed in an electrically safe work condition.

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5.2 Specific Procedure SKM Power*Tools software includes an Arc Flash Hazard Analysis study module that contains equations based on both NFPA 70E and IEEE 1584. Calculations presented in this report are based on the IEEE 1584 calculation procedure. The program calculates the arcing fault current at each bus in the system based on the available bolted fault current determined during the short-circuit analysis and the equations in IEEE 1584. The duration of the arc is determined from the time-current characteristics of the applicable overcurrent devices and the calculated arc fault current. Once the arcing fault current and fault duration are known, equations from IEEE 1584 are used to calculate the available incident energy and flash-protection boundary for each location under study. Per IEEE 1584, for low voltage (less than 1000V) buses, a second arcing fault current value is calculated to be equal to 85% of the arcing fault value originally calculated. From this second calculation, a second device operating time is determined. The incident energy and protection boundaries are calculated using both sets of values, and the worst case result is reported in this analysis. IEEE 1584 also contains equations specifically for buses protected by Class RK1 or Class L (through 2000A) current-limiting fuses, and these equations were used when appropriate. The calculated incident energy levels are also based on the “working distance” from the fault, which is the distance from the head and torso of the worker to the source of arcing energy. A working distance of 36 inches was assumed for medium-voltage equipment, 24 inches for low-voltage switchgear, and 18 inches for motor control centers and panelboards, per the IEEE 1584 recommendations. In addition to the incident energy levels at the given working distance, the flash protection boundary at each location is provided. This distance corresponds to the distance from the equipment that the incident energy equals 1.2 cal/cm2, which is generally accepted to be the energy level sufficient to cause the onset of a 2nd degree burn on bare skin. When working inside the flash-protection boundary, proper personal protective equipment (PPE) is required. For buses that represent low-voltage switchboards, panelboards, and MCCs the values shown in the Flash Hazard tables assume that the fault is cleared by the upstream protective device, even if the equipment contains a main overcurrent protective device. Since this equipment typically lacks the internal barriers or compartments that are typical of switchgear construction, it may be possible for arcing faults—particularly those that originate close to the main section and that are not cleared instantaneously—to propagate to the line side of the main overcurrent protective device. If this happens, then the fault can no longer be cleared by the local main, but rather by the next upstream overcurrent protective device. In cases where the next upstream device is a fuse or relay on the primary side of a step-down transformer, the fault clearing time and resulting AFIE level can increase significantly. Specific equipment testing has not been performed to assess the risk of such fault propagation, but the assumption that the upstream device clears the fault produces conservative results. Motor contribution to the arcing fault current is considered in the analysis. For this study, induction motor contribution was assumed to go to zero after 5 cycles if not already cleared by the opening/clearing of a breaker/fuse. Contribution from induction motors is generally not considered to last for more than a few cycles, so this 5-cycle contribution time is believed to produce rational results when motor contribution is considered. The SKM software, when calculating trip times for use in the arc flash hazard analysis, checks the upstream devices to determine which actually trips first rather than simply considering the characteristics of the next upstream device. In cases where the next upstream device was not the one that trips the fastest, the software flags this as “miscoordination” between the devices.

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Ingress/egress should always be reviewed as part of the overall safety program as it cannot be solely determined by this analysis. However, some maximum arcing durations are cut off at 2.0 seconds. Annex B.1.2 of IEEE 1584 recognizes that it is likely a worker exposed to an arcing fault will quickly move away from the source of the arc if physically possible, and states under such conditions, “ two seconds is a reasonable maximum time for calculations.” Situations where such a cutoff might not be appropriate include workers in a lift bucket inspecting or operating overcurrent devices in elevated plug-in busway, or in other locations where clear ingress/egress is not available. If present, medium-voltage protective relays have a small time delay manually accounted for in the breaker opening time column of the Arc Flash Hazard Analysis Table. This delay results from operating time necessary for relays to signal a breaker to open instantaneously. The additional time is assumed to be 3-cycles (50ms / 0.05 sec) which is conservative but not unrealistic for determining conclusions. By default, the software assumes that overcurrent relaying acts to clear the arcing fault. In some cases, such as at switchgear equipped with bus differential protection, the overcurrent relaying may not actually clear the fault from the system. In cases such as this, the characteristics of the other protective relays are also considered and the results reported in the tables are based on the device that would act first to clear the fault from the system. Neither the calculated incident energy levels nor the flash protection boundaries calculated as part of this analysis are relevant to the shock hazard that exists near all energized equipment. Shock hazard analyses may also be required before qualified employees are able to work on or near energized equipment. NFPA 70E-2004 defines shock hazard as “a dangerous condition associated with the possible release of energy caused by contact or close approach to live parts.” The standard also defines the Limited Approach Boundary as “an approach limit distance from an exposed live part within which a shock hazard exists.” Only qualified employees can cross the Limited Approach Boundary and enter the limited space in order to perform a given task. A shock hazard analysis shall determine the voltage to which the personnel will be exposed, boundary requirements, and the personal protective equipment necessary in order to minimize the possibility of electric shock. In addition to the Limited Approach Boundary, the Restricted and Prohibited Approach Boundaries are also applicable to situations in which qualified personnel are exposed to live parts. See NFPA 70E Table 130.2 (C) for the boundary distances associated with various system voltages.

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5.3 AF Hazard Analysis Results and Recommendations The results of the arc flash hazard analysis are presented in the “ARC FLASH HAZARD ANALYSIS TABLE(S).” The parameters that the analysis are based upon—fault current, arc duration, and working distance—are presented along with the incident energy, flash protection boundary, and minimum PPE class required for each bus. As discussed previously, the calculations are cut off at a maximum arcing duration of 2.0 seconds. The arc flash levels based on the “as found” breaker and relay settings are shown in the table in Arc Flash Hazard Analysis – “AS-FOUND” SETTINGS, while the arc flash levels based on implementation of the recommended setting changes are shown in Arc Flash Hazard Analysis – RECOMMENDED SETTINGS. Arc Flash labels or procedures should not be based on the AFIE levels shown in Arc Flash Hazard Analysis – RECOMMENDED SETTINGS until after the recommended setting changes have been implemented. There were three arc flash fault current scenarios considered. The first consisted of a Utility source based on an actual fault current from feeder 141. The second considered a minimum Utility source based on an actual fault current from feeder 137. The third was a generator source for equipment fed by the emergency generator. The results of all the scenarios were combined into one composite table showing the worst case results for each piece of equipment evaluated. IEEE 1584 states that during testing, arcs on 208V systems were difficult to sustain, and that arc flash levels on systems operating at below 240V and fed by transformers sized 125kVA or below are not a concern. Table 130.7(C)(9)(a) of NFPA 70E-2004 states that the maximum required PPE for any work task at a Panelboard rated 240V or below with less than 10kA available bolted fault current is Category 0 (i.e., maximum 2.0 cal/cm2). Based on this guidance from the standards, for buses operating less than or equal to 240V, the incident energy level was assumed to be 2.0 cal/cm2 or less as long as the available bolted fault current was found to be less than 10kA. For some buses, more than one AFIE value and flash protection boundary distance are provided. This is the case when various parts of a single piece of equipment may actually be in different arc flash “zones of protection.” For example, consider a lineup of low-voltage drawout switchgear containing both a main breaker and several feeder breakers. The compartmentalized switchgear construction would be expected to reduce the chance that faults in the feeder sections would propagate to the line-side of the main, so any fault occurring in a feeder section would be considered to be cleared by the main breaker. However, an arcing fault in the main section could either occur on the load side or the line side of the main, so such faults must be considered to be cleared by the next upstream protective device (e.g., the transformer primary overcurrent protective device). This results in different values for AFIE and for the flash protection boundary for such locations, possibly requiring different levels of PPE for workers depending on which section they are working on or near. In such cases, the results of both calculations are presented in the tables. Note that no protective classes are given for locations with energy levels exceeding 40 cal/cm2, even though protective clothing capable of providing flash protection at incident energy levels of up to 112 cal/cm2 is commercially available. The ARC FLASH HAZARD ANALYSIS TABLE(S) make use of the term “Dangerous” to identify when the Hazard/Risk Category (PPE) is greater than 40cal/cm2. While NFPA 70E-2004 does not explicitly prohibit work at locations with energy levels above 40 cal/cm2, research into the potential for non-burn injuries (internal injuries, hearing damage, etc.) indicates that these other injuries become a significant

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concern at such high-energy locations. Square D Engineering Services does not recommend work at locations with energy levels greater than 40 cal/cm2, unless the equipment has been placed into an electrically safe work condition. After the initial breaker coordination work was performed, a review of settings affecting locations with energy levels greater than 40 cal/cm2 in the “bus” calculation was conducted to determine whether adjustment of device settings could be performed to reduce the flash hazard level. In some cases, the settings could be adjusted with no significant loss of coordination, as discussed in Overcurrent Device Coordination Analysis Results and Recommendations. In other cases, devices were either nonadjustable or their settings could not be reduced without a significant loss of selectivity between devices, as discussed in the following paragraph(s):

Equipment at or near a transformer secondary: These locations are downstream of a transformer protected by an upstream transformer protective device. The first device to clear or trip for a fault at these locations is the protective device upstream of the transformer. This device is often given a high instantaneous setting to permit peak inrush, or is a fixed device that cannot be adjusted. Equipment on the line side of generator protection: These locations are downstream of generators or generator mains where the energized machine produces arc-flash current below the level of the breaker setting or there is not main breaker at the generator. In fact, a dangerous condition is expected on the line of the generator main device where arc fault current would have not limitation beyond the generator reactance.

5.3.1 Arc Flash Hazard Table Headings Guide and PPE Table The arc flash hazard table summarizes the results of the arc flash hazard analysis. The calculations are based on the protective relay and low voltage circuit breaker settings developed in previous sections. Following is a brief description of the arc flash hazard analysis table headings. • Protective Device Name: The designation for the overcurrent protective device that clears the

arcing fault. In cases where several sources are connected to a single bus (e.g., multiple mains, motor contribution to an MCC, etc.), the last device to operate is reported

• Bus Bolted Fault (kA): The calculated three-phase bolted fault current, RMS symmetrical amperes

• Prot. Dev. Bolted Fault (kA): The portion of the bolted fault current through the protective device

• Prot. Dev. Arcing Fault (kA): The calculated arcing fault current associated with the bolted fault current

• Trip/Delay Time (sec.): This is the time for the last protective device to react to the arcing current. For fuses, it is the total clearing time. For circuit breakers, it is the relay or trip unit time delay. The time is taken from a time-current curve using the arcing current or the reduced (85%) arcing current, unless the maximum tripping time of 2.0 seconds is used.

• Breaker Opening Time (sec.): This is the time for the circuit breaker mechanism to open the contacts and interrupt the current. The time is in addition to the trip or delay time. Note that for low-voltage breakers, the opening time is included in the trip/delay time.

• Ground: This indicates whether the system is grounded or ungrounded (including ungrounded or impedance grounded).

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• Equip. Type: This indicates the type of equipment in which the arc is assumed to occur: switchgear, panelboard, cable, or open air.

• Gap: This is the gap between conductors and defines the length of the arc. Standard bus gap distances are defined in IEEE 1584.

• Arc Flash Hazard Boundary: This is the working distance at which incident energy equals 1.2 cal/cm2, considered to be the level which can produce second-degree burns on exposed skin. Any approach closer than the arc flash boundary requires use of personal protective equipment.

• Working Distance: The assumed distance from the arc point to the head and body of the worker positioned in place to perform the assigned task.

• Incident Energy: The thermal energy density to which a person at the working distance is exposed.

• Required Protective FR Clothing Class: The hazard class associated with the incident energy

and the corresponding personal protective clothing required. If the incident energy is higher than 40 cal/cm2 (class 4), work should not be performed on or near the equipment unless the equipment has been placed in an electrically safe condition. For such hazard levels, the description “Dangerous” is used. The required FR clothing classes reported in the table are based on Table 130.7(C)(11) of NFPA 70E-2004, as shown in the Table 2 on the following page. The descriptions in the arc flash summary table are typical—consult NFPA 70E and manufacturers’ Arc Rating information for further information and additional requirements on other required protective clothing, including hearing, face, and eye protection. Note that while the flash protection boundary distance is equivalent to the distance from a piece of equipment where the incident energy level equals 1.2 cal/cm2, the Exception to 130.7(C)(5) of NFPA 70E-2004 allows the use of Category 0 PPE for incident energy exposures of up to 2.0 cal/cm2. NFPA 70E-2004 should also be reviewed regarding limitations and requirements for working on energized equipment. New and revised requirements related to energized work in the 2004 version of the standard, including mandatory energized work permits, are much more restrictive than in previous versions of NFPA 70E.

Table 2: Protective Clothing Characteristics.

Hazard/Risk Category

Clothing Description Total Weight (oz/yd2)

Minimum Required

ATPV 0 Untreated Cotton 4.5-7 N/A* 1 FR Shirt/Pants 4.5-8 4 2 Cotton Underwear plus FR Shirt

and FR Pants 9-12 8

3 Cotton underwear plus FR Shirt and FR Pants plus FR Coverall

16-20 25

4 Cotton Underwear plus FR shirt and FR pants plus double-layer switching coat and pants

24-30 40

* - Category 1 PPE required for incident energy > 2.0 cal/cm2

339 of 648


November 2008

5.3.2 Arc Flash Hazard Analysis Table – As-Found Settings

340 of 648

VA MEDICAL CENTERARC FLASH HAZARD WILMINGTON, DE

Square D Engineering Services ANALYSIS TABLE COMPOSITE AS FOUND Diamond Bar, CA

BUS NAME PROTECTIVEDEVICE NAME kV

BUSBOLTEDFAULT

(kA)

PROT. DEV.BOLTEDFAULT

(kA)

ARCINGFAULT

(kA)

TRIP/DELAYTIME(sec)

BREAKEROPENING

TIME(sec)

GROUND EQUIP. TYPE GAP (mm)

ARC FLASHBOUNDARY

(in)

WORKINGDIST.

(in)

INCIDENTENERGY(cal/cm2)

HAZARD / RISK CATEGORY NUMBER (refer to NFPA 70E, 2004 Edition, Table

130.7(C)(11))

001 NEW SUBSTATION SWGR 001-2 M1 12 4.45 4.38 4.31 0.275 0.1 Yes SWG 153 59 36 1.9 Category 0 (*N10)001 NEW SUBSTATION SWGR {LINE} UTIL 141 PHASE 12 4.45 4.38 4.31 0.319 0.183 Yes SWG 153 80 36 2.6 Category 1 (*N10)

002 MV SWITCH #1 001-3 M3 East Loop Feeder 12 4.43 4.17 4.1 0.093 0.1 Yes SWG 153 42 36 1.4 Category 0 (*N9) (*N10)003 XFMR T-13A PRI 002-1 T-13A FDR 12 4.4 4.39 4.32 0.01 0 Yes SWG 153 1 36 0.05 Category 0 (*N10)004 XFMR T-13B PRI 001-3 M3 East Loop Feeder 12 4.4 4.14 4.08 0.093 0.1 Yes SWG 153 42 36 1.4 Category 0 (*N9) (*N10)005 MV SWITCH #2 001-2 M1 12 4.36 4.29 4.22 0.277 0.1 Yes SWG 153 40 36 1.3 Category 0 (*N5) (*N10)

006 SWITCH A7 005-1 T-17 FDR 12 4.33 4.31 4.24 0.01 0 Yes SWG 153 1 36 0.05 Category 0 (*N10)007 MV SWITCH #3 001-3 M3 East Loop Feeder 12 4.34 2.29 2.25 0.146 0.1 Yes SWG 153 39 36 1.3 Category 0 (*N10)

008 SWITCH A4 001-3 M3 East Loop Feeder 12 4.26 2.25 2.21 0.149 0.1 Yes SWG 153 39 36 1.3 Category 0 (*N10)009 XFMR T-15 PRI 007-2 T-15 FDR 12 4.32 4.32 4.25 0.01 0 Yes SWG 153 1 36 0.05 Category 0 (*N10)010 MV SWITCH #7 001-2 M1 12 4.41 4.33 4.27 0.276 0.1 Yes SWG 153 33 36 1.1 Category 0 (*N5) (*N10)

012 XFMR T-1A-1 PRI 010-1 TAP FDR 12 4.4 4.39 4.32 0.013 0 Yes SWG 153 2 36 0.07 Category 0 (*N10)013 XFMR T-1A-2 PRI 010-1 TAP FDR 12 4.4 4.39 4.32 0.013 0 Yes SWG 153 2 36 0.07 Category 0 (*N10)014 XFMR T-1A-3 PRI 010-1 TAP FDR 12 4.39 4.38 4.31 0.013 0 Yes SWG 153 2 36 0.07 Category 0 (*N10)015 MV SWITCH #6 001-4 M4 West Loop Feeder 12 4.35 2.68 2.64 0.125 0.1 Yes SWG 153 40 36 1.3 Category 0 (*N10)016 XFMR T-7 PRI 001-4 M4 West Loop Feeder 12 4.31 2.66 2.62 0.126 0.1 Yes SWG 153 40 36 1.3 Category 0 (*N10)

017 MV SWITCH #5 001-4 M4 West Loop Feeder 12 4.34 2.21 2.18 0.151 0.1 Yes SWG 153 39 36 1.3 Category 0 (*N10)018 SWITCH 137P19 017-1 T-1-2 FDR 12 4.33 4.33 4.26 0.01 0 Yes SWG 153 1 36 0.05 Category 0 (*N10)

019 SWITCH B6 017-2 T-19B FDR 12 4.32 4.32 4.26 0.01 0 Yes SWG 153 1 36 0.05 Category 0 (*N10)020 SWITCH A1 017-3 T-1-3 FDR 12 4.33 4.33 4.26 0.01 0 Yes SWG 153 1 36 0.05 Category 0 (*N10)

021 MV SWITCH #4 001-4 M4 West Loop Feeder 12 4.34 2.14 2.11 0.157 0.1 Yes SWG 153 39 36 1.3 Category 0 (*N10)022 SWITCH B2 021-1 T-1-5 FDR 12 4.27 4.27 4.21 0.01 0 Yes SWG 153 1 36 0.05 Category 0 (*N10)

023 XFMR T-1-4 PRI 021-2 T-1-4 FDR 12 4.34 4.34 4.27 0.01 0 Yes SWG 153 1 36 0.05 Category 0 (*N10)024 SWITCH 141P26 021-3 T-1-1 FDR 12 4.32 4.29 4.23 0.01 0 Yes SWG 153 1 36 0.05 Category 0 (*N10)

025 SWITCH A6 021-4 T-19A FDR 12 4.33 4.33 4.26 0.01 0 Yes SWG 153 1 36 0.05 Category 0 (*N10)101 MDSB-A 012-1 T-1A-1 MN 0.48 18.3 18.06 10.84 2 0 Yes PNL 25 220 18 73 Dangerous! (*N9) (*N10)102 LP-GA 101-2 LP-GA FCB 0.48 12.11 12.11 7.72 0.014 0 Yes PNL 25 9 18 0.36 Category 0 (*N10)103 LP-GB 101-3 LP-GB FCB 0.48 7.65 7.65 4.43 0.3 0 Yes PNL 25 38 18 4.1 Category 2 (*N3) (*N10)104 LP-1A 101-4 LP-1A FCB 0.48 11.1 11.1 7.17 0.015 0 Yes PNL 25 8 18 0.34 Category 0 (*N10)105 LP-1B 101-5 LP-1B FCB 0.48 7.82 7.82 4.52 0.3 0 Yes PNL 25 39 18 4.2 Category 2 (*N3) (*N11)106 LP-2B 101-6 LP-2B FCB 0.48 15.48 15.48 9.53 0.013 0 Yes PNL 25 9 18 0.42 Category 0 (*N10)

107 ECB 2160 106-1 LP-2B MCB 0.48 12.53 12.53 7.95 0.01 0 Yes PNL 25 7 18 0.27 Category 0 (*N5) (*N10)108 ECB 2148 106-1 LP-2B MCB 0.48 11.62 11.62 7.45 0.01 0 Yes PNL 25 7 18 0.25 Category 0 (*N5) (*N10)109 ECB 2149 106-1 LP-2B MCB 0.48 12.06 12.06 7.7 0.01 0 Yes PNL 25 7 18 0.26 Category 0 (*N5) (*N10)110 ECB 2163 106-1 LP-2B MCB 0.48 13.28 13.28 8.36 0.01 0 Yes PNL 25 7 18 0.27 Category 0 (*N5) (*N10)111 MCC-GB 101-7 MCC-GB FCB 0.48 16.14 15.91 9.73 0.016 0 Yes PNL 25 11 18 0.56 Category 0 (*N10)112 MCC-2B 101-8 MCC-2B FCB 0.48 14.3 14.3 8.9 0.014 0 Yes PNL 25 9 18 0.4 Category 0 (*N10)117 EDP-GA 0.48 8.74 8.74 5.84 2 0 Yes PNL 25 146 18 37 Category 4 (*N9) (*N12)

121 ATS-E1_L 101-9 ATS E1_N FCB 0.48 16.18 16.18 9.89 0.013 0 Yes PNL 25 10 18 0.43 Category 0 (*N10)122 E1DP-GA 101-9 ATS E1_N FCB 0.48 15.75 15.75 9.67 0.013 0 Yes PNL 25 10 18 0.42 Category 0 (*N10)123 E1LP-GB 122-1 E1DP-GA MCB 0.48 11.35 11.35 7.3 0.012 0 Yes PNL 25 8 18 0.29 Category 0 (*N5) (*N10)124 E1LP-1B 123-1 E1LP-GB MCB 0.48 10.01 10.01 6.56 0.01 0 Yes PNL 25 6 18 0.21 Category 0 (*N5) (*N10)125 E1LP-2B 123-2 E1LP-1B FCB 0.48 9.19 9.19 5.19 0.014 0 Yes PNL 25 7 18 0.23 Category 0 (*N3) (*N5) (*N10)

126 ATS-E2_L 117-2 ATS-E2_E FCB 0.48 6.41 6.41 3.81 2 0 Yes PNL 25 110 18 23 Category 3 (*N3) (*N9) (*N12)127 E2DP-GA 117-2 ATS-E2_E FCB 0.48 6.35 6.35 3.78 2 0 Yes PNL 25 110 18 23 Category 3 (*N3) (*N9) (*N12)

128 ECB 127-2 ECB FCB 0.48 4.98 4.98 3.61 0.016 0 Yes PNL 25 6 18 0.18 Category 0 (*N10)129 E2LP-GA 127-3 E2LP-GA FCB 0.48 11.16 11.16 7.2 0.014 0 Yes PNL 25 8 18 0.33 Category 0 (*N10)130 E2LP-1A 129-1 E2LP-GA MCB 0.48 10.23 10.23 6.69 0.013 0 Yes PNL 25 7 18 0.27 Category 0 (*N5) (*N10)

AFH Page 1 of 7[Form Ver. 1.6]

341 of 648




BUSBOLTEDFAULT

(kA)


(kA)

ARCINGFAULT

(kA)

TRIP/DELAYTIME(sec)

BREAKEROPENING

TIME(sec)


ARC FLASHBOUNDARY

(in)

WORKINGDIST.

(in)



130.7(C)(11))

131 E2LP-2B 129-2 E2LP-1A FCB 0.48 8.6 8.6 5.77 0.015 0 Yes PNL 25 7 18 0.27 Category 0 (*N5) (*N10)132 E2LP-2C 129-1 E2LP-GA MCB 0.48 9.98 9.98 6.54 0.013 0 Yes PNL 25 7 18 0.27 Category 0 (*N5) (*N10)133 2143 ECB 129-3 E2LP-2C FCB 0.48 9.11 9.11 6.06 0.014 0 Yes PNL 25 7 18 0.27 Category 0 (*N5) (*N10)134 ATS-E3_L 117-3 ATS-E3_E FCB 0.48 7.41 7.41 5.07 2 0 Yes PNL 25 133 18 32 Category 4 (*N9) (*N12)135 E3DP-GA 117-3 ATS-E3_E FCB 0.48 7.37 7.37 5.05 2 0 Yes PNL 25 133 18 32 Category 4 (*N9) (*N12)

136 OR CHILLER 135-2 OR CHILLER FCB 0.48 11.17 11.17 7.21 0.013 0 Yes PNL 25 8 18 0.31 Category 0 (*N10)137 E3LP-GA CONTACTOR 135-3 ESLP-GA FCB 0.48 11.13 11.13 7.19 0.014 0 Yes PNL 25 8 18 0.33 Category 0 (*N10)

138 E3LP-GA 135-3 ESLP-GA FCB 0.48 10.89 10.89 7.05 0.014 0 Yes PNL 25 8 18 0.33 Category 0 (*N10)139 EMCC-GB 135-4 EMCC-GB FCB 0.48 14.58 14.58 9.05 0.012 0 Yes PNL 25 9 18 0.37 Category 0 (*N10)140 E3LP-2B 135-5 E3LP-2B FCB 0.48 6.52 6.52 3.87 2 0 Yes PNL 25 111 18 24 Category 3 (*N3) (*N9) (*N12)

141 CONTACTOR 140-2 CONTACTOR FCB 0.48 12.53 12.53 7.95 0.014 0 Yes PNL 25 9 18 0.36 Category 0 (*N10)150 MDSB-B 013-1 T-1A-2 MN 0.208 27.18 27.18 8.78 2 0 Yes PNL 25 191 18 58 Dangerous! (*N9) (*N10)151 RP-GA 150-2 RP-GA FCB 0.208 14.43 14.43 4.78 0.022 0 Yes PNL 25 8 18 0.33 Category 0 (*N3) (*N11)152 RP-1B 150-3 RP-1B FCB 0.208 10.22 10.22 4.42 0.3 0 Yes PNL 25 38 18 4.1 Category 2 (*N10)153 RP-1A 150-4 RP-1A FCB 0.208 15.48 15.48 5.91 0.3 0 Yes PNL 25 46 18 5.6 Category 2 (*N10)154 RP-GB 150-5 RP-GB FCB 0.208 11.97 11.97 4.94 0.3 0 Yes PNL 25 41 18 4.6 Category 2 (*N10)155 RP-2B 150-6 RP-2B FCB 0.208 15.48 15.48 5.91 0.3 0 Yes PNL 25 46 18 5.6 Category 2 (*N10)

160 MDSB-C 014-1 T-1A-3 MN 0.48 14.97 14.97 9.25 2 0 Yes PNL 25 198 18 61 Dangerous! (*N5) (*N9) (*N10)161 CHILLER #1 160-2 CHILLER1 FCB 0.48 12.26 12.26 6.64 0.026 0 Yes PNL 25 11 18 0.55 Category 0 (*N3) (*N11)162 CHILLER #2 160-3 CHILLER2 FCB 0.48 12.5 12.5 6.74 0.025 0 Yes PNL 25 11 18 0.53 Category 0 (*N3) (*N11)171 MAIN SG A 021-3 T-1-1 FDR 0.208 31.29 29.74 9.21 2 0 Yes PNL 25 199 18 62 Dangerous! (*N9) (*N10)

172 PPGM-A AC SHOP 171-2 A2-3 0.208 7.17 7.17 3.44 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)174 LP7A-1 171-3 A2-4 0.208 7.35 7.35 3.5 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)176 LP8B 171-3 A2-4 0.208 7.12 7.12 3.43 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)178 LP7A 171-4 A2-5 0.208 5.78 5.78 2.96 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N10)

179 LP7A1 171-4 A2-5 0.208 5.75 5.75 2.95 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N10)181 LP8A 171-4 A2-5 0.208 5.63 5.63 2.91 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)182 PNL A 171-5 A2-6 0.208 5.25 5.25 2.35 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N10)183 LP6B 171-6 A2-7 0.208 6.21 6.21 2.65 1.157 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N10)

184 LP6B2 171-6 A2-7 0.208 6.02 6.02 2.59 1.247 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N10)186 LP5A-LH 171-7 A2-9 0.208 5.54 5.54 2.87 0.014 0 Yes PNL 25 25 18 2 Category 0 (*N10)187 LP5A-RH 171-7 A2-9 0.208 5.54 5.54 2.87 0.014 0 Yes PNL 25 25 18 2 Category 0 (*N10)

188 LP5A2 171-7 A2-9 0.208 5.06 5.06 2.7 0.014 0 Yes PNL 25 25 18 2 Category 0 (*N10)190 LP6A-LH 171-8 A2-11 0.208 5.39 5.39 2.82 0.018 0 Yes PNL 25 25 18 2 Category 0 (*N10)191 LP6A-RH 171-8 A2-11 0.208 5.39 5.39 2.82 0.018 0 Yes PNL 25 25 18 2 Category 0 (*N10)

193 PP RM1134 171-9 A2-12 0.208 6.06 6.06 3.06 0.018 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N10)194 PPGL 171-10 A2-13 0.208 5.05 5.05 2.69 1.093 0 Yes PNL 25 25 18 2 Category 0 (*N10)

195 PP2K-B 171-11 A2-14 0.208 5.44 5.44 2.41 1.557 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N10)195A CONTACTOR 171-11 A2-14 0.208 5.37 5.37 2.39 1.589 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N10)

195B PANEL 171-11 A2-14 0.208 5.31 5.31 2.79 0.933 0 Yes PNL 25 25 18 2 Category 0 (*N10)196 ELEVATOR TAP 171-12 A3-1 0.208 12.41 11.37 4.64 0.1 0 Yes PNL 25 21 18 1.6 Category 0 (*N10)

205 XRAY B 171-13 A3-2 0.208 10.26 10.26 4.43 0.1 0 Yes PNL 25 20 18 1.4 Category 0 (*N10)205A RP2G 205-2 RP2G FCB 0.208 7.26 7.26 3.47 0.024 0 Yes PNL 25 25 18 2 Category 0 (*N10)

205B 2H 205-6 RP2H FCB 0.208 6.84 6.84 3.33 0.025 0 Yes PNL 25 25 18 2 Category 0 (*N10)205C 2J 205-7 RP2J FCB 0.208 6.84 6.84 3.33 0.025 0 Yes PNL 25 25 18 2 Category 0 (*N10)

205D RP2K 205-8 RP2K FCB 0.208 6.84 6.84 3.33 0.021 0 Yes PNL 25 25 18 2 Category 0 (*N10)211 PPGB 171-15 A3-4 0.208 6.85 6.85 3.33 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N10)212 LPGA 171-15 A3-4 0.208 6.85 6.85 3.33 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N10)


342 of 648




BUSBOLTEDFAULT

(kA)


(kA)

ARCINGFAULT

(kA)

TRIP/DELAYTIME(sec)

BREAKEROPENING

TIME(sec)


ARC FLASHBOUNDARY

(in)

WORKINGDIST.

(in)



130.7(C)(11))

214 RP-1C-1 171-15 A3-4 0.208 6.6 6.6 3.25 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N10)215 RP-1C-2 171-15 A3-4 0.208 6.52 6.52 3.22 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N10)

217 LP2A-LH 171-16 A3-5 0.208 6.64 6.64 3.26 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N10)218 LP2A-RH 171-16 A3-5 0.208 6.64 6.64 3.26 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N10)220 LP3A-LH 171-16 A3-5 0.208 6.45 6.45 3.2 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N10)221 LP3A-RH 171-16 A3-5 0.208 6.45 6.45 3.2 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N10)223 LP4A-1 171-17 A3-6 0.208 8.82 8.82 3.98 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)224 LP4A-2 171-17 A3-6 0.208 8.72 8.72 3.95 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)226 LP2B 171-18 A3-7 0.208 8.57 8.57 3.32 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N10)227 E2-4B 171-19 A3-8 0.208 8.25 8.25 3.23 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N10)

228 CAPACITOR A 171-20 A3-9 0.208 21.03 21.03 7.33 0.015 0 Yes PNL 25 9 18 0.35 Category 0 (*N10)229 ELE 1 ATS_L 171-12 A3-1 0.208 12.08 11.06 4.55 0.1 0 Yes PNL 25 21 18 1.5 Category 0 (*N10)230 ELE#1 ECB 171-12 A3-1 0.208 9.18 8.31 3.71 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)

233 ELE 2 ATS_L 171-12 A3-1 0.208 12.08 11.06 4.55 0.1 0 Yes PNL 25 21 18 1.5 Category 0 (*N10)234 ELE#2 ECB 171-12 A3-1 0.208 9.18 8.31 3.71 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)

236 ELE 3 ATS_L 171-14 A3-3 0.208 11.65 11.13 4.63 0.1 0 Yes PNL 25 21 18 1.5 Category 0 (*N10)237 ELE#3 ECB 171-14 A3-3 0.208 8.93 8.43 3.79 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)241 MAIN SG B 017-1 T-1-2 FDR 0.208 29.6 29.6 9.32 2 0 Yes PNL 25 199 18 61 Dangerous! (*N9) (*N10)

242 DP ECB 241-2 B5-1 0.208 25.72 25.72 7.18 0.02 0 Yes PNL 25 10 18 0.47 Category 0 (*N3) (*N11)243 PANEL DP 241-2 B5-1 0.208 25.96 25.96 7.22 0.02 0 Yes PNL 25 10 18 0.47 Category 0 (*N3) (*N10)

248 LP3 243-5 LP3_N FCB 0.208 4.51 4.51 2.49 0.019 0 Yes PNL 25 25 18 2 Category 0 (*N10)250 LPGB 241-3 B5-2 0.208 7.65 7.65 3.06 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N5) (*N9) (*N10)251 LPGP 241-3 B5-2 0.208 5.09 5.09 2.71 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N10)252 LP-GP 241-3 B5-2 0.208 2.97 2.97 1.86 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N10)

253 LP1D JB 241-3 B5-2 0.208 7.41 7.41 3 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N10)254 RP-1D-1 241-3 B5-2 0.208 6.67 6.67 3.27 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N10)255 RP-1D-2 241-3 B5-2 0.208 6.59 6.59 3.25 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N10)

257 LP1B 241-4 B5-3 0.208 9.05 9.05 4.06 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)259 LP2A 241-4 B5-3 0.208 8.62 8.62 3.92 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)260 LP2D 241-4 B5-3 0.208 8.7 8.7 3.94 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)262 LP6C 241-5 B5-4 0.208 8.78 8.78 3.97 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)264 LP7C 241-5 B5-4 0.208 8.45 8.45 3.29 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N10)266 LP8C 241-5 B5-4 0.208 8.14 8.14 3.2 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N10)

268 LP9C1 241-5 B5-4 0.208 7.8 7.8 3.11 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N10)269 LP9C 241-5 B5-4 0.208 7.86 7.86 3.12 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N10)

271 LPGC-B 241-6 B5-5 0.208 9.92 9.92 4.33 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)272 LPGC-C 241-6 B5-5 0.208 9.31 9.31 4.14 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)273 LPGC-A 241-6 B5-5 0.208 9.92 9.92 4.33 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)

278 LP1C 241-6 B5-5 0.208 9.43 9.43 4.18 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)280 LP2C-A 241-6 B5-5 0.208 8.98 8.98 4.03 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)

281 LP2C 241-6 B5-5 0.208 9.05 9.05 4.06 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)283 LP3C 241-7 B5-6 0.208 9.96 9.96 4.34 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)285 LP4C 241-7 B5-6 0.208 9.53 9.53 4.21 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)287 LP5C 241-7 B5-6 0.208 9.14 9.14 4.08 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)

288 PPGM-B AC SHOP 241-8 B5-7 0.208 7.71 7.71 3.08 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N10)290 PPGN-C 241-9 B6-11 0.208 19.01 19.01 6.83 0.015 0 Yes PNL 25 8 18 0.34 Category 0 (*N10)291 PPGN-B 241-9 B6-11 0.208 22.05 22.05 7.58 0.015 0 Yes PNL 25 9 18 0.36 Category 0 (*N10)293 PPGN-A 241-9 B6-11 0.208 22.05 22.05 7.58 0.015 0 Yes PNL 25 9 18 0.36 Category 0 (*N10)


343 of 648




BUSBOLTEDFAULT

(kA)


(kA)

ARCINGFAULT

(kA)

TRIP/DELAYTIME(sec)

BREAKEROPENING

TIME(sec)


ARC FLASHBOUNDARY

(in)

WORKINGDIST.

(in)



130.7(C)(11))

294 XRAY 2FL 241-10 B6-12 0.208 9.27 9.27 4.13 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)296 PNL C 241-11 B6-13 0.208 7.8 7.8 3.65 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)297 LP2L 241-11 B6-13 0.208 7.6 7.6 3.59 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)298 PP2K 241-11 B6-13 0.208 7.8 7.8 3.65 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)300 PP4K 241-11 B6-13 0.208 7.19 7.19 3.45 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)301 PP5K 241-11 B6-13 0.208 6.94 6.94 3.37 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)303 PP10N 241-12 B6-14 0.208 6.3 6.3 3.15 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)304 PP9M 241-12 B6-14 0.208 6.5 6.5 3.21 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)

305 CAPACITOR B 241-13 B6-15 0.208 20.25 20.25 7.14 0.015 0 Yes PNL 25 8 18 0.34 Category 0 (*N10)307 LP5B-LH 241-14 B6-16 0.208 7.16 7.16 3.44 0.018 0 Yes PNL 25 25 18 2 Category 0 (*N10)308 LP5B-RH 241-14 B6-16 0.208 7.16 7.16 3.44 0.018 0 Yes PNL 25 25 18 2 Category 0 (*N10)

309 PPGK 241-15 B6-17 0.208 6.47 6.47 3.2 0.014 0 Yes PNL 25 25 18 2 Category 0 (*N10)311 PP6K 241-16 B6-18 0.208 6.23 6.23 3.12 0.014 0 Yes PNL 25 25 18 2 Category 0 (*N10)313 PP8K 241-16 B6-18 0.208 5.79 5.79 2.97 0.014 0 Yes PNL 25 25 18 2 Category 0 (*N10)314 PP7K 241-16 B6-18 0.208 6 6 3.04 0.014 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N10)

320 AC SWBD 021-1 T-1-5 FDR 0.48 24.61 24.61 12.03 2 0 Yes PNL 25 235 18 81 Dangerous! (*N3) (*N9) (*N10)321 LPGE 320-2 LPGE FCB 0.48 17.15 17.15 10.4 0.07 0 Yes PNL 25 28 18 2.4 Category 1 (*N10)322 LP-8E 321-2 LP-8E FCB 0.48 4.44 4.44 3.28 0.017 0 Yes PNL 25 5 18 0.17 Category 0 (*N10)323 HP-9M 320-3 HP-9M FCB 0.48 9.1 9.1 6.05 0.05 0 Yes PNL 25 16 18 0.96 Category 0 (*N10)

324 MCC IN AC ROOM 320-4 MCC FCB 0.48 24.32 24.32 14.01 0.33 0 Yes PNL 25 87 18 16 Category 3 (*N10)331 DIETETICS ECB 021-2 T-1-4 FDR 0.208 13.69 13.18 5.22 2 0 Yes PNL 25 139 18 34 Category 4 (*N2) (*N9) (*N10)

332 KDP 331-1 DIETETICS ECB 0.208 13.41 13.41 5.35 2 0 Yes PNL 25 138 18 34 Category 4 (*N9) (*N10)333 FOOD TRAY 332-3 TRAY FD PREP FCB 0.208 6.08 6.08 3.07 0.023 0 Yes PNL 25 25 18 2 Category 0 (*N10)

334 KPA 332-4 PNL KPA FCB 0.208 7.19 7.19 3.45 0.023 0 Yes PNL 25 25 18 2 Category 0 (*N10)335 KPD 332-5 PNL KPD FCB 0.208 7.19 7.19 3.45 0.025 0 Yes PNL 25 25 18 2 Category 0 (*N10)336 KLP 332-6 PNL KLP FCB 0.208 7.76 7.76 3.64 0.023 0 Yes PNL 25 25 18 2 Category 0 (*N10)

337 UTIL DIST 332-7 UTILITY DIST SYS 0.208 6.83 6.83 3.33 0.023 0 Yes PNL 25 25 18 2 Category 0 (*N10)338 PP 332-8 PNL PP FCB 0.208 10.37 10.37 4.46 0.023 0 Yes PNL 25 8 18 0.31 Category 0 (*N10)

340 XRAY SUBSTATION 017-3 T-1-3 FDR 0.48 12.63 12.63 8.01 2 0 Yes PNL 25 180 18 52 Dangerous! (*N9) (*N10)341 PANEL A 340-1 PANEL A FCB 0.48 10.29 10.29 6.72 2 0 Yes PNL 25 160 18 43 Dangerous! (*N9) (*N10)

402 MAIN BRKR 0.208 8.92 8.92 4.02 0.19 0 Yes PNL 25 25 18 2 Category 0 (*N12)403 CRITICAL BRKR 402-1 #18 GEN BRKR 0.208 8.88 8.88 4 0.19 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N12)

404 BLDG18 CRITICAL EMERGENCY 402-1 #18 GEN BRKR 0.208 8.61 8.61 3.92 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N12)410 DPE BRKR 402-1 #18 GEN BRKR 0.208 8.7 8.7 3.94 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)

411 DPE 410-1 RM 143 FDR 0.208 7.5 7.5 3.55 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)417 ATS 7_L 411-1 ATS-7_E FCB 0.208 7.39 7.39 3.52 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)

418 EDP1 241-2 B5-1 0.208 20.58 20.58 6.14 0.1 0 Yes PNL 25 24 18 2 Category 0 (*N3) (*N5) (*N10)419 PLGN 418-2 PLGN FCB 0.208 3.09 3.09 1.62 0.023 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)420 PL5N 418-3 PL5N FCB 0.208 2.48 2.48 1.39 1.015 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)421 PL1N 418-4 PL1N FCB 0.208 2.94 2.94 1.57 0.024 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)422 PL6N 418-5 PL6N FCB 0.208 2.38 2.38 1.35 1.063 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)423 PL2N 418-6 PL2N FCB 0.208 2.81 2.81 1.52 0.026 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)424 PL7N 418-7 PL7N FCB 0.208 2.29 2.29 1.31 1.111 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)425 PL3N 418-8 PL3N FCB 0.208 2.69 2.69 1.47 0.027 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)426 PL8N 418-9 PL8N FCB 0.208 2.21 2.21 1.28 1.16 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)427 PL4N 418-10 L4N FCB 0.208 2.58 2.58 1.43 0.029 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)428 EC3 418-13 EC3 IN ICU FCB 0.208 4.14 4.14 2.34 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)

429 E2-4W SEC#1 418-14 E24W RM 40E3 0.208 3.72 3.72 1.85 0.3 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)


344 of 648




BUSBOLTEDFAULT

(kA)


(kA)

ARCINGFAULT

(kA)

TRIP/DELAYTIME(sec)

BREAKEROPENING

TIME(sec)


ARC FLASHBOUNDARY

(in)

WORKINGDIST.

(in)



130.7(C)(11))

430 CB3W 418-15 CB3W/RM300 0.208 3.79 3.79 2.2 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)431 CBME 430-1 CBME FCB 0.208 3.73 3.73 1.85 1.138 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)

432 ATS 9_L 411-2 ATS-9_E FCB 0.208 7.41 7.41 2.99 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N12)433 LP9C 411-2 ATS-9_E FCB 0.208 2.57 2.57 1.68 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)

434 ATS 8_L 411-3 ATS-8_E FCB 0.208 7.32 7.32 2.97 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N12)435 EDP 411-3 ATS-8_E FCB 0.208 7.23 7.23 2.94 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N12)

436 LPGN-N 435-1 LPGN-N FCB 0.208 3.06 3.06 1.61 0.033 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)437 LP1N-N 435-2 LP1N-N FCB 0.208 2.92 2.92 1.83 1.159 0 Yes PNL 25 25 18 2 Category 0 (*N12)438 LP2N-N 435-3 LP2N-N FCB 0.208 2.79 2.79 1.51 0.135 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)439 LP3N-N 435-4 LP3N-N FCB 0.208 2.67 2.67 1.46 0.143 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)440 LP4N-N 435-5 LP4N-N FCB 0.208 2.56 2.56 1.42 0.152 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)441 LP5N-N 435-6 LP5N-N FCB 0.208 2.46 2.46 1.38 0.16 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)442 LP6N-N 435-7 LP6N-N FCB 0.208 2.37 2.37 1.34 0.169 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)443 LP7N-N 435-8 LP7N-N FCB 0.208 2.28 2.28 1.31 0.178 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)444 LP8N-N 435-9 LP8N-N FCB 0.208 2.2 2.2 1.28 0.188 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)

445 ATS 10_L 411-4 ATS-10_E FCB 0.208 6.62 6.62 3.25 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)446 EE3 411-4 ATS-10_E FCB 0.208 4.05 4.05 2.3 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)

452 EMG PANEL 002-1 T-13A FDR 0.208 13.4 12.5 4.98 2 0 Yes PNL 25 134 18 32 Category 4 (*N9) (*N10)453 UNMARKED PANEL 002-1 T-13A FDR 0.208 14.43 13.46 5.25 2 0 Yes PNL 25 138 18 34 Category 4 (*N9) (*N10)

454 POWER PANEL 453-2 PPANEL FCB 0.208 13.99 13.99 0 0 0 Yes PNL 25 6 18 0.76 Category 0 (*N4) (*N10)455 400A DISCONNECT 002-1 T-13A FDR 0.208 8.14 7.19 3.32 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N10)

456 LP-1 453-4 LP-1 FCB 0.208 13.84 13.84 0 0 0 Yes PNL 25 6 18 0.75 Category 0 (*N4) (*N10)457 PNL A 453-5 PNL A (LP-2) FCB 0.208 3.74 3.74 0 0 0 Yes PNL 25 25 18 2 Category 0 (*N4) (*N10)

458 NEW EQ CTR 453-6 N EQ CENTER FCB 0.208 7.49 7.49 0 0 0 Yes PNL 25 25 18 2 Category 0 (*N4) (*N10)459 PNL B 453-7 PNL B (OL) FCB 0.208 3.74 3.74 0 0 0 Yes PNL 25 25 18 2 Category 0 (*N4) (*N10)

461 NON-FUSED DISCONNECT 001-3 M3 East Loop Feeder 0.208 9.24 8.7 3.87 1.9 0.1 Yes PNL 25 25 18 2 Category 0 (*N9) (*N10)462 CP1 001-3 M3 East Loop Feeder 0.208 7.26 6.83 3.27 1.9 0.1 Yes PNL 25 25 18 2 Category 0 (*N9) (*N10)

500 CRITICAL N. 017-2 T-19B FDR 0.208 20.5 20.5 7.2 2 0 Yes PNL 25 168 18 47 Dangerous! (*N9) (*N10)501 SEC. CRIT. N 021-4 T-19A FDR 0.208 20.5 20.5 7.2 2 0 Yes PNL 25 168 18 47 Dangerous! (*N9) (*N10)

502 CRITICAL SWBD BLDG #18 500-1 CRITICAL N. 0.208 17.92 17.92 6.55 0.05 0 Yes PNL 25 17 18 1.1 Category 0 (*N10)505 LP1 502-4 ATS-4_N FCB (N4) 0.208 14 14 5.51 0.05 0 Yes PNL 25 15 18 0.87 Category 0 (*N10)

509 ATS 1_L 502-1 EDP-1_N FCB (N1) 0.208 6.91 6.91 3.35 0.05 0 Yes PNL 25 25 18 2 Category 0 (*N10)510 EDP-E 502-1 EDP-1_N FCB (N1) 0.208 6.1 6.1 3.07 0.05 0 Yes PNL 25 25 18 2 Category 0 (*N10)511 EDPA 502-1 EDP-1_N FCB (N1) 0.208 5.86 5.86 2.99 0.05 0 Yes PNL 25 25 18 2 Category 0 (*N10)

512 LP1N-0 502-1 EDP-1_N FCB (N1) 0.208 3.31 3.31 2 0.05 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N10)513 LPGN-0 502-1 EDP-1_N FCB (N1) 0.208 3.21 3.21 1.96 0.05 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N10)514 LP2N-0 502-1 EDP-1_N FCB (N1) 0.208 3.19 3.19 1.95 0.05 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N10)515 LP3N-0 502-1 EDP-1_N FCB (N1) 0.208 3.1 3.1 1.91 0.05 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N10)516 LP4N-0 502-1 EDP-1_N FCB (N1) 0.208 2.38 2.38 1.59 0.05 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N10)517 LP5N-0 404-1 ATS-1_E FCB (E1) 0.208 2.24 2.24 1.29 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N5) (*N9) (*N12)518 LP6N-0 404-1 ATS-1_E FCB (E1) 0.208 2.16 2.16 1.26 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N5) (*N9) (*N12)519 LP7N-0 404-1 ATS-1_E FCB (E1) 0.208 2.07 2.07 1.22 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N5) (*N9) (*N12)520 LP8N-0 404-1 ATS-1_E FCB (E1) 0.208 2.03 2.03 1.21 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N5) (*N9) (*N12)

521 ATS 3_L 502-3 ELE 4_N FCB (N3) 0.208 9.29 9.29 4.13 0.05 0 Yes PNL 25 25 18 2 Category 0 (*N10)522 ELE 4 ECB 502-3 ELE 4_N FCB (N3) 0.208 9.26 9.26 4.12 0.05 0 Yes PNL 25 25 18 2 Category 0 (*N10)

523 ATS 4_L 404-4 ATS-4_E FCB (E4) 0.208 6.85 6.85 3.33 0.05 0 Yes PNL 25 25 18 2 Category 0 (*N12)524 LP2 404-4 ATS-4_E FCB (E4) 0.208 6.35 6.35 3.16 0.05 0 Yes PNL 25 25 18 2 Category 0 (*N12)

525 ATS 2_L 502-5 CENT VAC _N FCB(N5) 0.208 15.31 15.31 5.87 0.05 0 Yes PNL 25 15 18 0.93 Category 0 (*N10)


345 of 648




BUSBOLTEDFAULT

(kA)


(kA)

ARCINGFAULT

(kA)

TRIP/DELAYTIME(sec)

BREAKEROPENING

TIME(sec)


ARC FLASHBOUNDARY

(in)

WORKINGDIST.

(in)



130.7(C)(11))

526 AOV 404-5 ATS-2_E FCB (E5) 0.208 5.83 5.83 2.53 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N12)527 KP ECB 404-5 ATS-2_E FCB (E5) 0.208 5.73 5.73 2.5 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N12)

528 KP 527-1 KP ECB 0.208 5.36 5.36 2.39 0.221 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)529 ATS 6_L 502-6 HEMO_N FCB (N6) 0.208 13.53 13.53 5.38 0.05 0 Yes PNL 25 15 18 0.85 Category 0 (*N10)

530 LP5-N1 "HEMO" 502-6 HEMO_N FCB (N6) 0.208 2.83 2.83 1.79 0.05 0 Yes PNL 25 25 18 2 Category 0 (*N10)601 BLDG 17 MN 005-1 T-17 FDR 0.208 25.19 23.82 7.87 2 0 Yes PNL 25 180 18 52 Dangerous! (*N9) (*N10)

603 PNL A 601-3 PNL A FCB 0.208 6.08 6.08 3.07 0.065 0 Yes PNL 25 25 18 2 Category 0 (*N10)604 PNL B 601-4 PNL B FCB 0.208 6.25 6.25 3.13 0.065 0 Yes PNL 25 25 18 2 Category 0 (*N10)605 PNL C 601-5 PNL C FCB 0.208 9.47 9.47 4.19 0.065 0 Yes PNL 25 25 18 2 Category 0 (*N10)606 RPB 601-7 PNL D FCB 0.208 13.24 13.24 5.3 0.065 0 Yes PNL 25 17 18 1.1 Category 0 (*N10)607 RPA 601-7 PNL D FCB 0.208 12.93 12.93 5.21 0.065 0 Yes PNL 25 17 18 1.1 Category 0 (*N10)608 MDS 601-8 ENERGY BANK 0.208 14.4 14.4 5.62 2 0 Yes PNL 25 140 18 35 Category 4 (*N9) (*N10)609 21-LP 608-2 21-LP FCB 0.208 9.84 9.84 4.3 0.018 0 Yes PNL 25 25 18 2 Category 0 (*N10)

610 UNLABELED PNL 608-2 21-LP FCB 0.208 9.18 9.18 4.1 0.018 0 Yes PNL 25 25 18 2 Category 0 (*N10)612 BLDG 17 EM CB 0.208 3.94 3.94 2.26 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)614 ATS BLDG 17_L 601-2 EDP FCB 0.208 21.29 21.29 6.29 2 0 Yes PNL 25 150 18 39 Category 4 (*N3) (*N9) (*N10)

615 EDP 601-2 EDP FCB 0.208 20.86 20.86 6.2 2 0 Yes PNL 25 149 18 38 Category 4 (*N3) (*N9) (*N10)616 AE 615-1 AE FCB 0.208 2.07 2.07 1.44 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)

617 CONTACTOR AE 615-1 AE FCB 0.208 1.98 1.98 1.39 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)617A PNL AE1 615-1 AE FCB 0.208 1.94 1.94 1.37 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)

618 BE 615-2 BE FCB 0.208 2.11 2.11 1.46 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)619 CE 615-3 CE FCB 0.208 4.77 4.77 2.59 0.019 0 Yes PNL 25 25 18 2 Category 0 (*N10)

620 EM MAIN 601-2 EDP FCB 0.208 17.98 17.98 6.57 2 0 Yes PNL 25 155 18 41 Dangerous! (*N9) (*N10)621 EM 620-1 EM MCB 0.208 12.85 12.85 5.19 0.015 0 Yes PNL 25 7 18 0.24 Category 0 (*N10)

702 BLDG 5 MTR PNL 001-3 M3 East Loop Feeder 0.208 13.49 7.11 2.83 1.9 0.1 Yes PNL 25 138 18 34 Category 4 (*N9) (*N10)703 PNL D 702-1 BLDG 5 MCB 0.208 12.25 12.25 4.26 0.068 0 Yes PNL 25 15 18 0.9 Category 0 (*N3) (*N11)704 PNL C 702-1 BLDG 5 MCB 0.208 10.02 10.02 3.7 2 0 Yes PNL 25 108 18 23 Category 3 (*N3) (*N5) (*N9) (*N10)705 PNL B 702-1 BLDG 5 MCB 0.208 11.38 11.38 4.05 0.08 0 Yes PNL 25 16 18 0.99 Category 0 (*N3) (*N5) (*N11)

706 PNL IN HALL 702-1 BLDG 5 MCB 0.208 8.16 8.16 3.2 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N5) (*N9) (*N10)707 BLDG 2 702-1 BLDG 5 MCB 0.208 2.02 2.02 1.42 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N10)

708 RP3 702-1 BLDG 5 MCB 0.208 5.01 5.01 2.68 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N10)709 RP4 702-1 BLDG 5 MCB 0.208 7.52 7.52 3.56 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N10)

803 BLDG 15 SWGR 007-2 T-15 FDR 0.208 28.35 27.12 8.65 2 0 Yes PNL 25 195 18 59 Dangerous! (*N2) (*N9) (*N10)806 2LP 803-3 2LP FCB 0.208 4.9 4.9 2.64 0.027 0 Yes PNL 25 25 18 2 Category 0 (*N10)807 LP1 803-3 2LP FCB 0.208 5.44 5.44 2.84 0.027 0 Yes PNL 25 7 18 0.23 Category 0 (*N10)

809 PNL A 803-4 PNL A FCB 0.208 12.11 12.11 4.98 0.025 0 Yes PNL 25 9 18 0.4 Category 0 (*N10)810 SPLICE BOX ON WALL 803-4 PNL A FCB 0.208 5.79 5.79 2.52 0.042 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N10)

811 RM 213 803-4 PNL A FCB 0.208 4.38 4.38 2.07 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N10)812 ACP 803-5 PNL ACP FCB 0.208 24.51 24.51 8.16 0.032 0 Yes PNL 25 15 18 0.86 Category 0 (*N10)

812A CHILLER 812-1 CHILLER FCB 0.208 15.83 15.83 5.11 0.045 0 Yes PNL 25 13 18 0.73 Category 0 (*N3) (*N10)813 BLDG 10 GARAGE 803-6 MCP BLDG 10 FCB 0.208 9.75 9.75 4.27 0.029 0 Yes PNL 25 25 18 2 Category 0 (*N10)

815 ELE DISC 803-9 0.208 14.23 14.23 5.57 0.025 0 Yes PNL 25 10 18 0.44 Category 0 (*N10)817 PNL K 803-10 K&M FCB 0.208 10.83 10.83 4.6 0.026 0 Yes PNL 25 9 18 0.38 Category 0 (*N10)818 PNL M 803-10 K&M FCB 0.208 10.46 10.46 4.49 0.027 0 Yes PNL 25 9 18 0.37 Category 0 (*N10)820 PNL D 803-11 PNL D FCB 0.208 10.46 10.46 4.49 0.027 0 Yes PNL 25 9 18 0.37 Category 0 (*N10)822 PNL E 803-12 E&F FCB 0.208 9.49 9.49 4.19 0.027 0 Yes PNL 25 25 18 2 Category 0 (*N10)823 PNL F 803-12 E&F FCB 0.208 9.2 9.2 4.1 0.028 0 Yes PNL 25 25 18 2 Category 0 (*N10)825 PNL I 803-13 I&J FCB 0.208 9.49 9.49 4.19 0.027 0 Yes PNL 25 25 18 2 Category 0 (*N10)


346 of 648




BUSBOLTEDFAULT

(kA)


(kA)

ARCINGFAULT

(kA)

TRIP/DELAYTIME(sec)

BREAKEROPENING

TIME(sec)


ARC FLASHBOUNDARY

(in)

WORKINGDIST.

(in)



130.7(C)(11))

826 PNL J 803-13 I&J FCB 0.208 9.2 9.2 4.1 0.028 0 Yes PNL 25 25 18 2 Category 0 (*N10)828 PNL G 803-14 G&H FCB 0.208 8.61 8.61 3.92 0.028 0 Yes PNL 25 25 18 2 Category 0 (*N10)829 PNL H 803-14 G&H FCB 0.208 8.55 8.55 3.9 0.028 0 Yes PNL 25 25 18 2 Category 0 (*N10)

830 ATS 15 ECB 007-2 T-15 FDR 0.208 27.21 26.04 8.41 2 0 Yes PNL 25 191 18 58 Dangerous! (*N2) (*N9) (*N10)832 BLDG 15 EMERG GEN 0.208 3.7 3.7 2.16 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)

834 ATS 15_L 832-1 #15 GEN BRKR 0.208 3.66 3.66 2.15 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)835 EMER DISTRIBUTION PANEL 832-1 #15 GEN BRKR 0.208 3.64 3.64 2.14 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)

837 KENNEL 835-3 KENNEL FCB 0.208 4.89 4.89 2.63 0.01 0 Yes PNL 25 25 18 2 Category 0 (*N10)838 1ST FLR 835-4 1ST FLR FCB 0.208 22.13 22.13 7.6 0.01 0 Yes PNL 25 7 18 0.25 Category 0 (*N10)

839 GEN RM PNL 835-5 GEN RM PNL FCB 0.208 3.53 3.53 1.78 1.218 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)840 DATA CENTER 832-1 #15 GEN BRKR 0.208 3.6 3.6 2.12 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)841 MAIN PANEL 840-1 DATA CENTER ECB 0.208 3.43 3.43 2.05 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N12)

842 RP1 841-2 RP1 FCB 0.208 12.81 12.81 5.18 0.01 0 Yes PNL 25 5 18 0.16 Category 0 (*N10)843 RDU 841-3 RDU FCB 0.208 3.18 3.18 1.95 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)

844 CRAC 2-1 841-4 CRAC 2-1 FCB 0.208 3.22 3.22 1.67 0.06 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)845 CRAC 2-2 841-5 CRAC 2-2 FCB 0.208 2.97 2.97 1.57 0.086 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)846 CRAC 2-3 841-6 CRAC 2-3 FCB 0.208 2.79 2.79 1.51 0.104 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)

901 BLDG 7 MN SWGR 001-2 M1 0.48 23.84 23.45 13.55 1.9 0.1 Yes PNL 25 257 18 94 Dangerous! (*N5) (*N9) (*N10)903 BLDG 10 901-3 BLDG 10 FCB 0.48 12.99 12.99 8.2 0.017 0 Yes PNL 25 10 18 0.45 Category 0 (*N10)

904 BLDG 6 ECB 901-5 BLDG 6 FCB 0.48 12.62 12.62 8 0.017 0 Yes PNL 25 10 18 0.44 Category 0 (*N10)905 LOADING DOCK ECB 901-6 LOADING DOCK FCB 0.48 5.72 5.72 4.07 0.017 0 Yes PNL 25 6 18 0.21 Category 0 (*N10)

906 WAREHOUSE ECB 901-7 WAREHOUSE FCB 0.48 16.79 16.79 10.21 0.017 0 Yes PNL 25 11 18 0.57 Category 0 (*N10)907 BLDG 7 EMERG GEN 0.48 9.88 0 0 2 0 Yes PNL 25 157 18 42 Dangerous! (*N2) (*N9) (*N12)

910 BLDG 7 ATS_L 901-1.BLDG 7 MCB 0.48 23.32 23.32 13.52 0.04 0 Yes PNL 25 23 18 1.8 Category 0 (*N5) (*N10)911 ATS 7 ECB 901-1.BLDG 7 MCB 0.48 22.52 22.52 13.12 0.04 0 Yes PNL 25 23 18 1.8 Category 0 (*N5) (*N10)

912 MCC 911-1 ATS ECB 0.48 16.69 16.69 10.16 0.017 0 Yes PNL 25 11 18 0.56 Category 0 (*N5) (*N10)912A PNL LP 912-1 MCC BR 0.48 16.43 16.43 10.02 0.019 0 Yes PNL 25 12 18 0.63 Category 0 (*N10)

913 ELEVATOR ECB 911-1 ATS ECB 0.48 15.84 15.84 9.71 0.017 0 Yes PNL 25 11 18 0.54 Category 0 (*N5) (*N10)914 ELE 913-1 ELEVATOR ECB 0.48 9.92 9.92 6.51 0.018 0 Yes PNL 25 9 18 0.37 Category 0 (*N10)

916 PNL 1 901-3 BLDG 10 FCB 0.208 6.32 6.32 3.15 0.017 0 Yes PNL 25 25 18 2 Category 0 (*N10)917 PANEL PP02 901-3 BLDG 10 FCB 0.208 5.43 5.43 2.41 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N5) (*N9) (*N10)

918 PNL M 901-3 BLDG 10 FCB 0.208 5.05 5.05 2.29 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N5) (*N9) (*N10)919 PNL K 901-3 BLDG 10 FCB 0.208 5.43 5.43 2.41 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N5) (*N9) (*N10)920 PNL J 901-3 BLDG 10 FCB 0.208 2.13 2.13 1.47 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N10)

921 GARAGE PANEL 901-3 BLDG 10 FCB 0.208 3.04 3.04 1.89 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N10)922 NEW OFFICE ECB 901-3 BLDG 10 FCB 0.208 6.23 6.23 3.12 0.017 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N10)

923 NEW OFFICE PANEL 901-3 BLDG 10 FCB 0.208 5.07 5.07 2.3 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N5) (*N9) (*N10)

(*N2) - Percentage of fault current cleared is less than the Cleared Fault Threshold specified in the study options.(*N3) - Arcing Fault Current Low Tolerances Used.(*N5) - Mis-coordinated, Upstream Device Tripped.(*N9) - Max. Arcing Duration Reached. The time taken for the protective device to clear the fault is longer than the Max. Arcing Duration specified in the study options.(*N10) - User Defined (Based on Feeder 141 Source)(*N11) - User Defined (Based on Feeder 137 Source)(*N12) - User Defined (Based on Generator Source)


347 of 648

5.3.3 Arc Flash Hazard Analysis Table – Recommended Settings

348 of 648


Square D Engineering Services ANALYSIS TABLE COMPOSITE RECOMMENDED Diamond Bar, CA


BUSBOLTEDFAULT

(kA)


(kA)

ARCINGFAULT

(kA)

TRIP/DELAYTIME(sec)

BREAKEROPENING

TIME(sec)

GRND EQUIP. TYPE GAP (mm)

ARC FLASHBOUNDARY

(in)

WORKINGDIST.

(in)



130.7(C)(11))

001 NEW SUBSTATION SWGR 001-2 M1 12 4.45 4.38 4.31 0.164 0.1 Yes SWG 153 42 36 1.4 Category 0 (*N10)001 NEW SUBSTATION SWGR {LINE} UTIL 141 PHASE 12 4.45 4.38 4.31 0.319 0.183 Yes SWG 153 80 36 2.6 Category 1 (*N10)

002 MV SWITCH #1 001-3 M3 East Loop Feeder 12 4.43 0.19 0.19 1.9 0.1 Yes SWG 153 33 36 1.1 Category 0 (*N9) (*N10)003 XFMR T-13A PRI 002-1 T-13A FDR 12 4.4 4.39 4.32 0.01 0 Yes SWG 153 1 36 0.05 Category 0 (*N10)004 XFMR T-13B PRI 001-3 M3 East Loop Feeder 12 4.4 0.19 0.19 1.9 0.1 Yes SWG 153 32 36 1.1 Category 0 (*N9) (*N10)005 MV SWITCH #2 001-1 M2 12 3.36 3.28 3.25 0.225 0.1 Yes SWG 153 31 36 1 Category 0 (*N5) (*N11)

006 SWITCH A7 005-1 T-17 FDR 12 4.33 4.31 4.24 0.01 0 Yes SWG 153 1 36 0.05 Category 0 (*N10)007 MV SWITCH #3 001-2 M1 12 4.34 4.27 4.2 0.169 0.1 Yes SWG 153 40 36 1.3 Category 0 (*N5) (*N10)

008 SWITCH A4 001-2 M1 12 4.26 4.19 4.13 0.172 0.1 Yes SWG 153 40 36 1.3 Category 0 (*N5) (*N10)009 XFMR T-15 PRI 007-2 T-15 FDR 12 4.32 4.32 4.25 0.01 0 Yes SWG 153 1 36 0.05 Category 0 (*N10)010 MV SWITCH #7 001-2 M1 12 4.41 4.33 4.27 0.166 0.1 Yes SWG 153 25 36 0.83 Category 0 (*N5) (*N10)

012 XFMR T-1A-1 PRI 010-1 TAP FDR 12 3.38 3.37 3.33 0.018 0 Yes SWG 153 2 36 0.07 Category 0 (*N11)013 XFMR T-1A-2 PRI 010-1 TAP FDR 12 3.38 3.37 3.33 0.018 0 Yes SWG 153 2 36 0.07 Category 0 (*N11)014 XFMR T-1A-3 PRI 010-1 TAP FDR 12 3.37 3.36 3.33 0.018 0 Yes SWG 153 2 36 0.07 Category 0 (*N11)015 MV SWITCH #6 001-1 M2 12 3.35 3.27 3.24 0.225 0.1 Yes SWG 153 35 36 1.2 Category 0 (*N5) (*N11)016 XFMR T-7 PRI 001-1 M2 12 3.32 3.25 3.22 0.227 0.1 Yes SWG 153 35 36 1.2 Category 0 (*N5) (*N11)

017 MV SWITCH #5 001-2 M1 12 4.34 4.27 4.2 0.169 0.1 Yes SWG 153 41 36 1.4 Category 0 (*N5) (*N10)018 SWITCH 137P19 017-1 T-1-2 FDR 12 4.33 4.33 4.26 0.01 0 Yes SWG 153 1 36 0.05 Category 0 (*N10)

019 SWITCH B6 017-2 T-19B FDR 12 4.32 4.32 4.26 0.01 0 Yes SWG 153 1 36 0.05 Category 0 (*N10)020 SWITCH A1 017-3 T-1-3 FDR 12 4.33 4.33 4.26 0.01 0 Yes SWG 153 1 36 0.05 Category 0 (*N10)

021 MV SWITCH #4 001-2 M1 12 4.34 4.27 4.2 0.169 0.1 Yes SWG 153 41 36 1.4 Category 0 (*N5) (*N10)022 SWITCH B2 021-1 T-1-5 FDR 12 3.3 3.3 3.26 0.012 0 Yes SWG 153 1 36 0.05 Category 0 (*N11)

023 XFMR T-1-4 PRI 021-2 T-1-4 FDR 12 4.34 4.34 4.27 0.01 0 Yes SWG 153 1 36 0.05 Category 0 (*N10)024 SWITCH 141P26 021-3 T-1-1 FDR 12 4.32 4.29 4.23 0.01 0 Yes SWG 153 1 36 0.05 Category 0 (*N10)

025 SWITCH A6 021-4 T-19A FDR 12 4.33 4.33 4.26 0.01 0 Yes SWG 153 1 36 0.05 Category 0 (*N10)101 MDSB-A 012-1 T-1A-1 MN 0.48 18.3 18.06 10.84 2 0 Yes PNL 25 220 18 73 Dangerous! (*N9) (*N10)102 LP-GA 101-2 LP-GA FCB 0.48 11.72 11.72 7.51 0.015 0 Yes PNL 25 9 18 0.36 Category 0 (*N11)103 LP-GB 101-3 LP-GB FCB 0.48 7.65 7.65 4.43 0.3 0 Yes PNL 25 38 18 4.1 Category 2 (*N3) (*N10)104 LP-1A 101-4 LP-1A FCB 0.48 10.77 10.77 6.99 0.015 0 Yes PNL 25 8 18 0.34 Category 0 (*N11)105 LP-1B 101-5 LP-1B FCB 0.48 7.82 7.82 4.52 0.3 0 Yes PNL 25 39 18 4.2 Category 2 (*N3) (*N11)106 LP-2B 101-6 LP-2B FCB 0.48 15.48 15.48 9.53 0.013 0 Yes PNL 25 9 18 0.42 Category 0 (*N10)

107 ECB 2160 106-1 LP-2B MCB 0.48 12.53 12.53 7.95 0.01 0 Yes PNL 25 7 18 0.27 Category 0 (*N5) (*N10)108 ECB 2148 106-1 LP-2B MCB 0.48 11.25 11.25 7.25 0.011 0 Yes PNL 25 7 18 0.25 Category 0 (*N5) (*N11)109 ECB 2149 106-1 LP-2B MCB 0.48 12.06 12.06 7.7 0.01 0 Yes PNL 25 7 18 0.26 Category 0 (*N5) (*N10)110 ECB 2163 106-1 LP-2B MCB 0.48 12.81 12.81 8.1 0.01 0 Yes PNL 25 7 18 0.27 Category 0 (*N5) (*N11)111 MCC-GB 101-7 MCC-GB FCB 0.48 15.5 15.26 9.39 0.016 0 Yes PNL 25 11 18 0.56 Category 0 (*N11)112 MCC-2B 101-8 MCC-2B FCB 0.48 14.3 14.3 8.9 0.014 0 Yes PNL 25 9 18 0.4 Category 0 (*N10)117 EDP-GA 0.48 8.74 8.74 5.84 2 0 Yes PNL 25 146 18 37 Category 4 (*N9) (*N12)

121 ATS-E1_L 101-9 ATS E1_N FCB 0.48 16.18 16.18 9.89 0.013 0 Yes PNL 25 10 18 0.43 Category 0 (*N10)122 E1DP-GA 101-9 ATS E1_N FCB 0.48 15.75 15.75 9.67 0.013 0 Yes PNL 25 10 18 0.42 Category 0 (*N10)123 E1LP-GB 122-1 E1DP-GA MCB 0.48 11.35 11.35 7.3 0.012 0 Yes PNL 25 8 18 0.29 Category 0 (*N5) (*N10)124 E1LP-1B 123-1 E1LP-GB MCB 0.48 9.74 9.74 6.41 0.01 0 Yes PNL 25 6 18 0.21 Category 0 (*N5) (*N11)125 E1LP-2B 123-2 E1LP-1B FCB 0.48 8.96 8.96 5.08 0.015 0 Yes PNL 25 7 18 0.23 Category 0 (*N3) (*N5) (*N11)

126 ATS-E2_L 117-2 ATS-E2_E FCB 0.48 6.41 6.41 3.81 2 0 Yes PNL 25 110 18 23 Category 3 (*N3) (*N9) (*N12)127 E2DP-GA 117-2 ATS-E2_E FCB 0.48 6.35 6.35 3.78 2 0 Yes PNL 25 110 18 23 Category 3 (*N3) (*N9) (*N12)

128 ECB 127-2 ECB FCB 0.48 4.92 4.92 3.57 0.016 0 Yes PNL 25 6 18 0.18 Category 0 (*N11)129 E2LP-GA 127-3 E2LP-GA FCB 0.48 11.16 11.16 7.2 0.014 0 Yes PNL 25 8 18 0.33 Category 0 (*N10)130 E2LP-1A 129-1 E2LP-GA MCB 0.48 9.95 9.95 6.53 0.013 0 Yes PNL 25 7 18 0.27 Category 0 (*N5) (*N11)131 E2LP-2B 129-2 E2LP-1A FCB 0.48 8.6 8.6 5.77 0.015 0 Yes PNL 25 7 18 0.27 Category 0 (*N5) (*N10)


349 of 648




BUSBOLTEDFAULT

(kA)


(kA)

ARCINGFAULT

(kA)

TRIP/DELAYTIME(sec)

BREAKEROPENING

TIME(sec)


ARC FLASHBOUNDARY

(in)

WORKINGDIST.

(in)



130.7(C)(11))

132 E2LP-2C 129-1 E2LP-GA MCB 0.48 9.98 9.98 6.54 0.013 0 Yes PNL 25 7 18 0.27 Category 0 (*N5) (*N10)133 2143 ECB 129-3 E2LP-2C FCB 0.48 8.88 8.88 5.93 0.014 0 Yes PNL 25 7 18 0.27 Category 0 (*N5) (*N11)134 ATS-E3_L 117-3 ATS-E3_E FCB 0.48 7.41 7.41 5.07 2 0 Yes PNL 25 133 18 32 Category 4 (*N9) (*N12)135 E3DP-GA 117-3 ATS-E3_E FCB 0.48 7.37 7.37 5.05 2 0 Yes PNL 25 133 18 32 Category 4 (*N9) (*N12)

136 OR CHILLER 135-2 OR CHILLER FCB 0.48 10.84 10.84 7.03 0.013 0 Yes PNL 25 8 18 0.31 Category 0 (*N11)137 E3LP-GA CONTACTOR 135-3 ESLP-GA FCB 0.48 11.13 11.13 7.19 0.014 0 Yes PNL 25 8 18 0.33 Category 0 (*N10)

138 E3LP-GA 135-3 ESLP-GA FCB 0.48 10.89 10.89 7.05 0.014 0 Yes PNL 25 8 18 0.33 Category 0 (*N10)139 EMCC-GB 135-4 EMCC-GB FCB 0.48 14.58 14.58 9.05 0.012 0 Yes PNL 25 9 18 0.37 Category 0 (*N10)140 E3LP-2B 135-5 E3LP-2B FCB 0.48 6.52 6.52 3.87 2 0 Yes PNL 25 111 18 24 Category 3 (*N3) (*N9) (*N12)

141 CONTACTOR 140-2 CONTACTOR FCB 0.48 12.53 12.53 7.95 0.014 0 Yes PNL 25 9 18 0.36 Category 0 (*N10)150 MDSB-B 013-1 T-1A-2 MN 0.208 27.18 27.18 8.78 2 0 Yes PNL 25 191 18 58 Dangerous! (*N9) (*N10)151 RP-GA 150-2 RP-GA FCB 0.208 14.43 14.43 4.78 0.022 0 Yes PNL 25 8 18 0.33 Category 0 (*N3) (*N11)152 RP-1B 150-3 RP-1B FCB 0.208 10.09 10.09 4.38 0.3 0 Yes PNL 25 38 18 4.1 Category 2 (*N11)153 RP-1A 150-4 RP-1A FCB 0.208 15.19 15.19 5.83 0.3 0 Yes PNL 25 46 18 5.6 Category 2 (*N11)154 RP-GB 150-5 RP-GB FCB 0.208 11.8 11.8 4.89 0.3 0 Yes PNL 25 41 18 4.6 Category 2 (*N11)155 RP-2B 150-6 RP-2B FCB 0.208 15.19 15.19 5.83 0.3 0 Yes PNL 25 46 18 5.6 Category 2 (*N11)

160 MDSB-C 014-1 T-1A-3 MN 0.48 14.97 14.97 9.25 2 0 Yes PNL 25 198 18 61 Dangerous! (*N9) (*N10)161 CHILLER #1 160-2 CHILLER1 FCB 0.48 12.26 12.26 6.64 0.026 0 Yes PNL 25 11 18 0.55 Category 0 (*N3) (*N11)162 CHILLER #2 160-3 CHILLER2 FCB 0.48 12.5 12.5 6.74 0.025 0 Yes PNL 25 11 18 0.53 Category 0 (*N3) (*N11)171 MAIN SG A 021-3 T-1-1 FDR 0.208 31.29 29.74 9.21 2 0 Yes PNL 25 199 18 62 Dangerous! (*N9) (*N10)

172 PPGM-A AC SHOP 171-2 A2-3 0.208 7.11 7.11 3.42 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)174 LP7A-1 171-3 A2-4 0.208 7.29 7.29 3.48 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)176 LP8B 171-3 A2-4 0.208 7.06 7.06 3.41 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)178 LP7A 171-4 A2-5 0.208 5.74 5.74 2.95 0.3 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N11)

179 LP7A1 171-4 A2-5 0.208 5.71 5.71 2.93 0.3 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N11)181 LP8A 171-4 A2-5 0.208 5.6 5.6 2.89 0.3 0 Yes PNL 25 25 18 2 Category 0 (*N11)182 PNL A 171-5 A2-6 0.208 5.22 5.22 2.34 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N11)183 LP6B 171-6 A2-7 0.208 6.17 6.17 2.63 1.176 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N11)

184 LP6B2 171-6 A2-7 0.208 5.98 5.98 2.58 1.266 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N11)186 LP5A-LH 171-7 A2-9 0.208 5.51 5.51 2.86 0.014 0 Yes PNL 25 25 18 2 Category 0 (*N11)187 LP5A-RH 171-7 A2-9 0.208 5.51 5.51 2.86 0.014 0 Yes PNL 25 25 18 2 Category 0 (*N11)

188 LP5A2 171-7 A2-9 0.208 5.03 5.03 2.69 0.015 0 Yes PNL 25 25 18 2 Category 0 (*N11)190 LP6A-LH 171-8 A2-11 0.208 5.36 5.36 2.81 0.018 0 Yes PNL 25 25 18 2 Category 0 (*N11)191 LP6A-RH 171-8 A2-11 0.208 5.36 5.36 2.81 0.018 0 Yes PNL 25 25 18 2 Category 0 (*N11)

193 PP RM1134 171-9 A2-12 0.208 6.02 6.02 3.05 0.019 0 Yes PNL 25 25 18 2 Category 0 (*N11)194 PPGL 171-10 A2-13 0.208 5.02 5.02 2.68 1.107 0 Yes PNL 25 25 18 2 Category 0 (*N11)

195 PP2K-B 171-11 A2-14 0.208 5.41 5.41 2.4 1.572 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N11)195A CONTACTOR 171-11 A2-14 0.208 5.34 5.34 2.38 1.604 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N11)

195B PANEL 171-11 A2-14 0.208 5.28 5.28 2.78 0.965 0 Yes PNL 25 25 18 2 Category 0 (*N11)196 ELEVATOR TAP 171-12 A3-1 0.208 12.26 11.22 4.59 0.1 0 Yes PNL 25 21 18 1.6 Category 0 (*N11)

205 XRAY B 171-13 A3-2 0.208 10.14 10.14 4.39 0.3 0 Yes PNL 25 38 18 4.1 Category 2 (*N11)205A RP2G 205-2 RP2G FCB 0.208 7.2 7.2 3.45 0.024 0 Yes PNL 25 25 18 2 Category 0 (*N11)

205B 2H 205-6 RP2H FCB 0.208 6.79 6.79 3.31 0.025 0 Yes PNL 25 25 18 2 Category 0 (*N11)205C 2J 205-7 RP2J FCB 0.208 6.79 6.79 3.31 0.025 0 Yes PNL 25 25 18 2 Category 0 (*N11)

205D RP2K 205-8 RP2K FCB 0.208 6.79 6.79 3.31 0.025 0 Yes PNL 25 25 18 2 Category 0 (*N11)211 PPGB 171-15 A3-4 0.208 6.79 6.79 3.32 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N11)212 LPGA 171-15 A3-4 0.208 6.79 6.79 3.32 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N11)

214 RP-1C-1 171-15 A3-4 0.208 6.55 6.55 3.23 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N11)215 RP-1C-2 214-1 RP-1C-1 MCB 0.208 6.47 6.47 2.72 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N11)


350 of 648




BUSBOLTEDFAULT

(kA)


(kA)

ARCINGFAULT

(kA)

TRIP/DELAYTIME(sec)

BREAKEROPENING

TIME(sec)


ARC FLASHBOUNDARY

(in)

WORKINGDIST.

(in)



130.7(C)(11))

217 LP2A-LH 171-16 A3-5 0.208 6.59 6.59 3.25 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N11)218 LP2A-RH 171-16 A3-5 0.208 6.59 6.59 3.25 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N11)220 LP3A-LH 171-16 A3-5 0.208 6.4 6.4 3.18 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N11)221 LP3A-RH 171-16 A3-5 0.208 6.4 6.4 3.18 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N11)223 LP4A-1 171-17 A3-6 0.208 8.73 8.73 3.95 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)224 LP4A-2 171-17 A3-6 0.208 8.63 8.63 3.92 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)226 LP2B 171-18 A3-7 0.208 8.49 8.49 3.3 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N11)227 E2-4B 171-19 A3-8 0.208 8.18 8.18 3.21 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N11)

228 CAPACITOR A 171-20 A3-9 0.208 20.55 20.55 7.21 0.015 0 Yes PNL 25 8 18 0.35 Category 0 (*N11)229 ELE 1 ATS_L 171-12 A3-1 0.208 11.93 10.91 4.5 0.1 0 Yes PNL 25 21 18 1.5 Category 0 (*N11)230 ELE#1 ECB 171-12 A3-1 0.208 9.1 8.22 3.68 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)

233 ELE 2 ATS_L 171-12 A3-1 0.208 11.93 10.91 4.5 0.1 0 Yes PNL 25 21 18 1.5 Category 0 (*N11)234 ELE#2 ECB 171-12 A3-1 0.208 9.1 8.22 3.68 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)

236 ELE 3 ATS_L 171-14 A3-3 0.208 11.51 10.99 4.59 0.1 0 Yes PNL 25 21 18 1.5 Category 0 (*N11)237 ELE#3 ECB 171-14 A3-3 0.208 8.84 8.35 3.77 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)241 MAIN SG B 017-1 T-1-2 FDR 0.208 29.6 29.6 9.32 2 0 Yes PNL 25 199 18 61 Dangerous! (*N9) (*N10)

242 DP ECB 241-2 B5-1 0.208 25.72 25.72 7.18 0.02 0 Yes PNL 25 10 18 0.47 Category 0 (*N3) (*N11)243 PANEL DP 241-2 B5-1 0.208 25.19 25.19 7.07 0.021 0 Yes PNL 25 10 18 0.47 Category 0 (*N3) (*N11)

248 LP3 243-5 LP3_N FCB 0.208 4.49 4.49 2.48 0.019 0 Yes PNL 25 25 18 2 Category 0 (*N11)250 LPGB 241-3 B5-2 0.208 7.58 7.58 3.04 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N5) (*N9) (*N11)251 LPGP 241-3 B5-2 0.208 5.06 5.06 2.7 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N11)252 LP-GP 241-3 B5-2 0.208 2.96 2.96 1.85 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N11)

253 LP1D JB 241-3 B5-2 0.208 7.35 7.35 3.5 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N11)254 RP-1D-1 241-3 B5-2 0.208 6.62 6.62 3.26 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N11)255 RP-1D-2 254-1 RP-1D-1 MCB 0.208 6.54 6.54 2.74 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N11)

257 LP1B 241-4 B5-3 0.208 8.95 8.95 4.02 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)259 LP2A 241-4 B5-3 0.208 8.53 8.53 3.31 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N11)260 LP2D 241-4 B5-3 0.208 8.61 8.61 3.91 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)262 LP6C 241-5 B5-4 0.208 8.69 8.69 3.94 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)264 LP7C 241-5 B5-4 0.208 8.36 8.36 3.26 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N11)266 LP8C 241-5 B5-4 0.208 8.06 8.06 3.18 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N11)

268 LP9C1 241-5 B5-4 0.208 7.73 7.73 3.08 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N11)269 LP9C 241-5 B5-4 0.208 7.78 7.78 3.1 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N11)

271 LPGC-B 241-6 B5-5 0.208 9.8 9.8 4.29 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)272 LPGC-C 241-6 B5-5 0.208 9.2 9.2 4.1 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)273 LPGC-A 241-6 B5-5 0.208 9.8 9.8 4.29 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)

278 LP1C 241-6 B5-5 0.208 9.33 9.33 4.14 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)280 LP2C-A 241-6 B5-5 0.208 8.88 8.88 4 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)

281 LP2C 241-6 B5-5 0.208 8.95 8.95 4.02 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)283 LP3C 241-7 B5-6 0.208 9.84 9.84 4.3 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)285 LP4C 241-7 B5-6 0.208 9.42 9.42 4.17 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)287 LP5C 241-7 B5-6 0.208 9.04 9.04 4.05 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)

288 PPGM-B AC SHOP 241-8 B5-7 0.208 7.64 7.64 3.06 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N11)290 PPGN-C 241-9 B6-11 0.208 19.01 19.01 6.83 0.015 0 Yes PNL 25 8 18 0.34 Category 0 (*N10)291 PPGN-B 241-9 B6-11 0.208 22.05 22.05 7.58 0.015 0 Yes PNL 25 9 18 0.36 Category 0 (*N10)293 PPGN-A 241-9 B6-11 0.208 22.05 22.05 7.58 0.015 0 Yes PNL 25 9 18 0.36 Category 0 (*N10)

294 XRAY 2FL 241-10 B6-12 0.208 9.17 9.17 4.09 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)296 PNL C 241-11 B6-13 0.208 7.72 7.72 3.63 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)297 LP2L 241-11 B6-13 0.208 7.53 7.53 3.56 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)


351 of 648




BUSBOLTEDFAULT

(kA)


(kA)

ARCINGFAULT

(kA)

TRIP/DELAYTIME(sec)

BREAKEROPENING

TIME(sec)


ARC FLASHBOUNDARY

(in)

WORKINGDIST.

(in)



130.7(C)(11))

298 PP2K 241-11 B6-13 0.208 7.72 7.72 3.63 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)300 PP4K 241-11 B6-13 0.208 7.19 7.19 3.45 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N10)301 PP5K 241-11 B6-13 0.208 6.88 6.88 3.35 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)303 PP10N 241-12 B6-14 0.208 6.25 6.25 3.13 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)304 PP9M 241-12 B6-14 0.208 6.45 6.45 3.2 0.1 0 Yes PNL 25 25 18 2 Category 0 (*N11)

305 CAPACITOR B 241-13 B6-15 0.208 19.77 19.77 7.02 0.015 0 Yes PNL 25 8 18 0.34 Category 0 (*N11)307 LP5B-LH 241-14 B6-16 0.208 7.1 7.1 3.42 0.018 0 Yes PNL 25 25 18 2 Category 0 (*N11)308 LP5B-RH 241-14 B6-16 0.208 7.1 7.1 3.42 0.018 0 Yes PNL 25 25 18 2 Category 0 (*N11)

309 PPGK 241-15 B6-17 0.208 6.42 6.42 3.19 0.014 0 Yes PNL 25 25 18 2 Category 0 (*N11)311 PP6K 241-16 B6-18 0.208 6.18 6.18 3.1 0.014 0 Yes PNL 25 25 18 2 Category 0 (*N11)313 PP8K 241-16 B6-18 0.208 5.79 5.79 2.97 0.014 0 Yes PNL 25 25 18 2 Category 0 (*N10)314 PP7K 241-16 B6-18 0.208 5.96 5.96 3.02 0.014 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N11)

320 AC SWBD 021-1 T-1-5 FDR 0.48 24.61 24.61 12.03 2 0 Yes PNL 25 235 18 81 Dangerous! (*N3) (*N9) (*N10)321 LPGE 320-2 LPGE FCB 0.48 17.15 17.15 10.4 0.07 0 Yes PNL 25 28 18 2.4 Category 1 (*N10)322 LP-8E 321-2 LP-8E FCB 0.48 4.44 4.44 3.28 0.017 0 Yes PNL 25 5 18 0.17 Category 0 (*N10)323 HP-9M 320-3 HP-9M FCB 0.48 9.1 9.1 6.05 0.05 0 Yes PNL 25 16 18 0.96 Category 0 (*N10)

324 MCC IN AC ROOM 320-4 MCC FCB 0.48 24.32 24.32 14.01 0.33 0 Yes PNL 25 87 18 16 Category 3 (*N10)331 DIETETICS ECB 021-2 T-1-4 FDR 0.208 13.48 12.97 5.16 2 0 Yes PNL 25 138 18 34 Category 4 (*N2) (*N9) (*N11)

332 KDP 331-1 DIETETICS ECB 0.208 13.41 13.41 5.35 2 0 Yes PNL 25 138 18 34 Category 4 (*N9) (*N10)333 FOOD TRAY 332-3 TRAY FD PREP FCB 0.208 6.04 6.04 3.05 0.023 0 Yes PNL 25 25 18 2 Category 0 (*N11)

334 KPA 332-4 PNL KPA FCB 0.208 7.19 7.19 3.45 0.023 0 Yes PNL 25 25 18 2 Category 0 (*N10)335 KPD 332-5 PNL KPD FCB 0.208 7.13 7.13 3.43 0.025 0 Yes PNL 25 25 18 2 Category 0 (*N11)336 KLP 332-6 PNL KLP FCB 0.208 7.69 7.69 3.62 0.023 0 Yes PNL 25 25 18 2 Category 0 (*N11)

337 UTIL DIST 332-7 UTILITY DIST SYS 0.208 6.78 6.78 3.31 0.023 0 Yes PNL 25 25 18 2 Category 0 (*N11)338 PP 332-8 PNL PP FCB 0.208 10.25 10.25 4.43 0.023 0 Yes PNL 25 8 18 0.31 Category 0 (*N11)

340 XRAY SUBSTATION 017-3 T-1-3 FDR 0.48 12.63 12.63 8.01 2 0 Yes PNL 25 180 18 52 Dangerous! (*N9) (*N10)341 PANEL A 340-1 PANEL A FCB 0.48 10.29 10.29 6.72 2 0 Yes PNL 25 160 18 43 Dangerous! (*N9) (*N10)

402 MAIN BRKR 0.208 8.92 8.92 4.02 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)403 CRITICAL BRKR 402-1 #18 GEN BRKR 0.208 8.88 8.88 4 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)

404 BLDG18 CRITICAL EMERGENCY 403-1 BLDG 18 FDR 0.208 8.61 8.61 3.92 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)410 DPE BRKR 402-1 #18 GEN BRKR 0.208 8.7 8.7 3.94 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)

411 DPE 410-1 RM 143 FDR 0.208 7.5 7.5 3.55 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)417 ATS 7_L 411-1 ATS-7_E FCB 0.208 7.39 7.39 3.52 0.84 0 Yes PNL 25 25 18 2 Category 0 (*N12)

418 EDP1 411-1 ATS-7_E FCB 0.208 7.31 7.31 3.49 0.852 0 Yes PNL 25 25 18 2 Category 0 (*N12)419 PLGN 418-2 PLGN FCB 0.208 3.68 3.68 2.15 0.018 0 Yes PNL 25 25 18 2 Category 0 (*N11)420 PL5N 418-3 PL5N FCB 0.208 2.48 2.48 1.39 1.015 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)421 PL1N 418-4 PL1N FCB 0.208 3.46 3.46 2.07 0.018 0 Yes PNL 25 25 18 2 Category 0 (*N11)422 PL6N 418-5 PL6N FCB 0.208 2.38 2.38 1.35 1.063 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)423 PL2N 418-6 PL2N FCB 0.208 3.27 3.27 1.99 0.019 0 Yes PNL 25 25 18 2 Category 0 (*N11)424 PL7N 418-7 PL7N FCB 0.208 2.29 2.29 1.31 1.111 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)425 PL3N 418-8 PL3N FCB 0.208 3.1 3.1 1.63 0.023 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N11)426 PL8N 418-9 PL8N FCB 0.208 2.46 2.46 1.38 1.023 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N11)427 PL4N 418-10 L4N FCB 0.208 2.58 2.58 1.43 0.029 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)428 EC3 418-13 EC3 IN ICU FCB 0.208 6.19 6.19 2.64 0.676 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N11)

429 E2-4W SEC#1 418-14 E24W RM 40E3 0.208 3.72 3.72 1.85 0.3 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)430 CB3W 418-15 CB3W/RM300 0.208 5.34 5.34 2.8 0.378 0 Yes PNL 25 25 18 2 Category 0 (*N11)431 CBME 418-15 CB3W/RM300 0.208 3.73 3.73 1.85 0.788 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N5) (*N12)

432 ATS 9_L 411-2 ATS-9_E FCB 0.208 7.41 7.41 2.99 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N12)433 LP9C 243-2 ATS 9_N FCB 0.208 2.82 2.82 1.79 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N11)


352 of 648




BUSBOLTEDFAULT

(kA)


(kA)

ARCINGFAULT

(kA)

TRIP/DELAYTIME(sec)

BREAKEROPENING

TIME(sec)


ARC FLASHBOUNDARY

(in)

WORKINGDIST.

(in)



130.7(C)(11))

434 ATS 8_L 411-3 ATS-8_E FCB 0.208 7.32 7.32 2.97 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N12)435 EDP 411-3 ATS-8_E FCB 0.208 7.23 7.23 2.94 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N12)

436 LPGN-N 435-1 LPGN-N FCB 0.208 3.06 3.06 1.61 0.033 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)437 LP1N-N 435-2 LP1N-N FCB 0.208 3.29 3.29 1.99 1.007 0 Yes PNL 25 25 18 2 Category 0 (*N11)438 LP2N-N 435-3 LP2N-N FCB 0.208 2.79 2.79 1.51 0.135 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)439 LP3N-N 435-4 LP3N-N FCB 0.208 2.67 2.67 1.46 0.143 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)440 LP4N-N 435-5 LP4N-N FCB 0.208 2.56 2.56 1.42 0.152 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)441 LP5N-N 435-6 LP5N-N FCB 0.208 2.46 2.46 1.38 0.16 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)442 LP6N-N 435-7 LP6N-N FCB 0.208 2.37 2.37 1.34 0.169 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)443 LP7N-N 435-8 LP7N-N FCB 0.208 2.28 2.28 1.31 0.178 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)444 LP8N-N 435-9 LP8N-N FCB 0.208 2.2 2.2 1.28 0.188 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)

445 ATS 10_L 411-4 ATS-10_E FCB 0.208 6.62 6.62 3.25 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)446 EE3 243-4 ATS 10_N FCB 0.208 6.93 6.93 3.36 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N11)

452 EMG PANEL 002-1 T-13A FDR 0.208 13.21 12.31 4.93 2 0 Yes PNL 25 133 18 32 Category 4 (*N9) (*N11)453 UNMARKED PANEL 002-1 T-13A FDR 0.208 14.43 13.46 5.25 2 0 Yes PNL 25 138 18 34 Category 4 (*N9) (*N10)

454 POWER PANEL 453-2 PPANEL FCB 0.208 13.99 13.99 0 0 0 Yes PNL 25 6 18 0.76 Category 0 (*N4) (*N10)455 400A DISCONNECT 002-1 T-13A FDR 0.208 8.08 7.12 3.3 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N11)

456 LP-1 453-4 LP-1 FCB 0.208 13.84 13.84 0 0 0 Yes PNL 25 6 18 0.75 Category 0 (*N4) (*N10)457 PNL A 453-5 PNL A (LP-2) FCB 0.208 3.73 3.73 0 0 0 Yes PNL 25 25 18 2 Category 0 (*N4) (*N11)

458 NEW EQ CTR 453-6 N EQ CENTER FCB 0.208 7.49 7.49 0 0 0 Yes PNL 25 25 18 2 Category 0 (*N4) (*N10)459 PNL B 453-7 PNL B (OL) FCB 0.208 3.73 3.73 0 0 0 Yes PNL 25 25 18 2 Category 0 (*N4) (*N11)

461 NON-FUSED DISCONNECT 001-3 M3 East Loop Feeder 0.208 9.14 0.38 0.17 1.9 0.1 Yes PNL 25 25 18 2 Category 0 (*N9) (*N11)462 CP1 001-3 M3 East Loop Feeder 0.208 7.19 0.3 0.14 1.9 0.1 Yes PNL 25 25 18 2 Category 0 (*N9) (*N11)

500 CRITICAL N. 017-2 T-19B FDR 0.208 20.5 20.5 7.2 2 0 Yes PNL 25 168 18 47 Dangerous! (*N9) (*N10)501 SEC. CRIT. N 021-4 T-19A FDR 0.208 20.5 20.5 7.2 2 0 Yes PNL 25 168 18 47 Dangerous! (*N9) (*N10)

502 CRITICAL SWBD BLDG #18 500-1 CRITICAL N. 0.208 17.56 17.56 5.49 2 0 Yes PNL 25 140 18 35 Category 4 (*N3) (*N9) (*N11)505 LP1 502-4 ATS-4_N FCB (N4) 0.208 14 14 5.51 0.05 0 Yes PNL 25 15 18 0.87 Category 0 (*N10)

509 ATS 1_L 404-1 ATS-1_E FCB (E1) 0.208 5.33 5.33 2.38 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N12)510 EDP-E 502-1 EDP-1_N FCB (N1) 0.208 6.05 6.05 2.6 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N11)511 EDPA 502-1 EDP-1_N FCB (N1) 0.208 5.82 5.82 2.53 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N11)

512 LP1N-0 502-1 EDP-1_N FCB (N1) 0.208 3.3 3.3 2 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N11)513 LPGN-0 502-1 EDP-1_N FCB (N1) 0.208 3.2 3.2 1.95 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N11)514 LP2N-0 502-1 EDP-1_N FCB (N1) 0.208 3.18 3.18 1.94 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N11)515 LP3N-0 502-1 EDP-1_N FCB (N1) 0.208 3.08 3.08 1.9 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N11)516 LP4N-0 502-1 EDP-1_N FCB (N1) 0.208 2.37 2.37 1.58 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N11)517 LP5N-0 502-1 EDP-1_N FCB (N1) 0.208 2.28 2.28 1.54 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N11)518 LP6N-0 502-1 EDP-1_N FCB (N1) 0.208 2.18 2.18 1.49 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N11)519 LP7N-0 502-1 EDP-1_N FCB (N1) 0.208 2.09 2.09 1.45 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N11)520 LP8N-0 502-1 EDP-1_N FCB (N1) 0.208 2.05 2.05 1.43 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N11)

521 ATS 3_L 502-3 ELE 4_N FCB (N3) 0.208 9.29 9.29 4.13 0.05 0 Yes PNL 25 25 18 2 Category 0 (*N10)522 ELE 4 ECB 502-3 ELE 4_N FCB (N3) 0.208 9.26 9.26 4.12 0.05 0 Yes PNL 25 25 18 2 Category 0 (*N10)

523 ATS 4_L 404-4 ATS-4_E FCB (E4) 0.208 6.85 6.85 3.33 0.05 0 Yes PNL 25 25 18 2 Category 0 (*N12)524 LP2 404-4 ATS-4_E FCB (E4) 0.208 6.35 6.35 3.16 0.05 0 Yes PNL 25 25 18 2 Category 0 (*N12)

525 ATS 2_L 502-5 CENT VAC _N FCB(N5) 0.208 15.31 15.31 5.87 0.05 0 Yes PNL 25 15 18 0.93 Category 0 (*N10)526 AOV 502-5 CENT VAC _N FCB(N5) 0.208 8.3 8.3 3.82 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N11)

527 KP ECB 502-5 CENT VAC _N FCB(N5) 0.208 8.06 8.06 3.74 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N11)528 KP 527-1 KP ECB 0.208 5.36 5.36 2.39 0.221 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)

529 ATS 6_L 502-6 HEMO_N FCB (N6) 0.208 13.53 13.53 5.38 0.05 0 Yes PNL 25 15 18 0.85 Category 0 (*N10)530 LP5-N1 "HEMO" 502-6 HEMO_N FCB (N6) 0.208 2.82 2.82 1.79 0.05 0 Yes PNL 25 25 18 2 Category 0 (*N11)


353 of 648




BUSBOLTEDFAULT

(kA)


(kA)

ARCINGFAULT

(kA)

TRIP/DELAYTIME(sec)

BREAKEROPENING

TIME(sec)


ARC FLASHBOUNDARY

(in)

WORKINGDIST.

(in)



130.7(C)(11))

601 BLDG 17 MN 005-1 T-17 FDR 0.208 25.19 23.82 7.87 2 0 Yes PNL 25 180 18 52 Dangerous! (*N9) (*N10)603 PNL A 601-3 PNL A FCB 0.208 6.04 6.04 3.05 0.065 0 Yes PNL 25 25 18 2 Category 0 (*N11)604 PNL B 601-4 PNL B FCB 0.208 6.21 6.21 3.11 0.065 0 Yes PNL 25 25 18 2 Category 0 (*N11)605 PNL C 601-5 PNL C FCB 0.208 9.37 9.37 4.16 0.065 0 Yes PNL 25 25 18 2 Category 0 (*N11)606 RPB 601-7 PNL D FCB 0.208 13.04 13.04 5.24 0.065 0 Yes PNL 25 17 18 1.1 Category 0 (*N11)607 RPA 601-7 PNL D FCB 0.208 12.75 12.75 5.16 0.065 0 Yes PNL 25 17 18 1.1 Category 0 (*N11)608 MDS 601-8 ENERGY BANK 0.208 14.17 14.17 4.72 0.126 0 Yes PNL 25 23 18 1.8 Category 0 (*N3) (*N11)609 21-LP 608-2 21-LP FCB 0.208 9.73 9.73 4.27 0.018 0 Yes PNL 25 25 18 2 Category 0 (*N11)

610 UNLABELED PNL 608-2 21-LP FCB 0.208 9.09 9.09 4.07 0.018 0 Yes PNL 25 25 18 2 Category 0 (*N11)612 BLDG 17 EM CB 0.208 3.94 3.94 2.26 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)614 ATS BLDG 17_L 612-1 BLDG #17 ATS_E FCB 0.208 3.92 3.92 2.25 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)

615 EDP 612-1 BLDG #17 ATS_E FCB 0.208 3.91 3.91 2.25 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)616 AE 615-1 AE FCB 0.208 2.73 2.73 1.48 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N11)

617 CONTACTOR AE 615-1 AE FCB 0.208 2.54 2.54 1.41 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N11)617A PNL AE1 615-1 AE FCB 0.208 2.46 2.46 1.38 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N11)

618 BE 615-2 BE FCB 0.208 2.11 2.11 1.46 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)619 CE 615-3 CE FCB 0.208 4.75 4.75 2.58 0.019 0 Yes PNL 25 25 18 2 Category 0 (*N11)

620 EM MAIN 612-1 BLDG #17 ATS_E FCB 0.208 3.85 3.85 2.22 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)621 EM 620-1 EM MCB 0.208 12.67 12.67 5.14 0.015 0 Yes PNL 25 7 18 0.24 Category 0 (*N11)

702 BLDG 5 MTR PNL 001-3 M3 East Loop Feeder 0.208 13.49 6.18 2.46 1.9 0.1 Yes PNL 25 138 18 34 Category 4 (*N9) (*N10)703 PNL D 702-1 BLDG 5 MCB 0.208 12.43 12.43 4.31 2 0 Yes PNL 25 120 18 27 Category 4 (*N3) (*N9) (*N10)704 PNL C 702-1 BLDG 5 MCB 0.208 10.02 10.02 4.36 2 0 Yes PNL 25 120 18 27 Category 4 (*N5) (*N9) (*N10)705 PNL B 702-1 BLDG 5 MCB 0.208 11.38 11.38 4.05 2 0 Yes PNL 25 115 18 25 Category 3 (*N3) (*N5) (*N9) (*N11)

706 PNL IN HALL 702-1 BLDG 5 MCB 0.208 8.08 8.08 3.74 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N11)707 BLDG 2 702-1 BLDG 5 MCB 0.208 2.02 2.02 1.41 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N11)

708 RP3 702-1 BLDG 5 MCB 0.208 4.98 4.98 2.67 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N11)709 RP4 702-1 BLDG 5 MCB 0.208 7.45 7.45 3.54 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N11)

803 BLDG 15 SWGR 007-2 T-15 FDR 0.208 28.35 27.12 8.65 2 0 Yes PNL 25 195 18 59 Dangerous! (*N2) (*N9) (*N10)806 2LP 803-3 2LP FCB 0.208 4.88 4.88 2.63 0.027 0 Yes PNL 25 25 18 2 Category 0 (*N11)807 LP1 803-3 2LP FCB 0.208 5.44 5.44 2.84 0.027 0 Yes PNL 25 25 18 2 Category 0 (*N10)

809 PNL A 803-4 PNL A FCB 0.208 11.94 11.94 4.93 0.026 0 Yes PNL 25 9 18 0.4 Category 0 (*N11)811 RM 213 803-4 PNL A FCB 0.208 4.36 4.36 2.06 2 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N9) (*N11)

812 ACP 803-5 PNL ACP FCB 0.208 24.51 24.51 8.16 0.032 0 Yes PNL 25 15 18 0.86 Category 0 (*N10)812A CHILLER 812-1 CHILLER FCB 0.208 15.54 15.54 5.04 0.046 0 Yes PNL 25 13 18 0.73 Category 0 (*N3) (*N11)

813 BLDG 10 GARAGE 803-6 MCP BLDG 10 FCB 0.208 9.64 9.64 4.24 0.029 0 Yes PNL 25 25 18 2 Category 0 (*N11)815 ELE DISC 803-9 0.208 13.99 13.99 5.51 0.025 0 Yes PNL 25 10 18 0.44 Category 0 (*N11)

817 PNL K 803-10 K&M FCB 0.208 10.7 10.7 4.56 0.026 0 Yes PNL 25 9 18 0.38 Category 0 (*N11)818 PNL M 803-10 K&M FCB 0.208 10.34 10.34 4.45 0.027 0 Yes PNL 25 9 18 0.37 Category 0 (*N11)820 PNL D 803-11 PNL D FCB 0.208 10.34 10.34 4.45 0.027 0 Yes PNL 25 9 18 0.37 Category 0 (*N11)822 PNL E 803-12 E&F FCB 0.208 9.49 9.49 4.19 0.027 0 Yes PNL 25 25 18 2 Category 0 (*N10)823 PNL F 803-12 E&F FCB 0.208 9.1 9.1 4.07 0.028 0 Yes PNL 25 25 18 2 Category 0 (*N11)825 PNL I 803-13 I&J FCB 0.208 9.49 9.49 4.19 0.027 0 Yes PNL 25 25 18 2 Category 0 (*N10)826 PNL J 803-13 I&J FCB 0.208 9.1 9.1 4.07 0.028 0 Yes PNL 25 25 18 2 Category 0 (*N11)828 PNL G 803-14 G&H FCB 0.208 8.53 8.53 3.89 0.029 0 Yes PNL 25 25 18 2 Category 0 (*N11)829 PNL H 803-14 G&H FCB 0.208 8.47 8.47 3.87 0.029 0 Yes PNL 25 25 18 2 Category 0 (*N11)

830 ATS 15 ECB 007-2 T-15 FDR 0.208 27.21 26.04 8.41 2 0 Yes PNL 25 191 18 58 Dangerous! (*N2) (*N9) (*N10)832 BLDG 15 EMERG GEN 0.208 3.7 3.7 2.16 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)

834 ATS 15_L 830-1 ATS 15_N ECB 0.208 23 23 6.64 2 0 Yes PNL 25 159 18 43 Dangerous! (*N3) (*N9) (*N11)835 EMER DISTRIBUTION PANEL 830-1 ATS 15_N ECB 0.208 22.54 22.54 6.54 2 0 Yes PNL 25 157 18 42 Dangerous! (*N3) (*N9) (*N10)


354 of 648




BUSBOLTEDFAULT

(kA)


(kA)

ARCINGFAULT

(kA)

TRIP/DELAYTIME(sec)

BREAKEROPENING

TIME(sec)


ARC FLASHBOUNDARY

(in)

WORKINGDIST.

(in)



130.7(C)(11))

837 KENNEL 835-3 KENNEL FCB 0.208 4.87 4.87 2.62 0.01 0 Yes PNL 25 25 18 2 Category 0 (*N11)839 GEN RM PNL 835-5 GEN RM PNL FCB 0.208 3.53 3.53 1.78 1.218 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)

840 DATA CENTER 830-1 ATS 15_N ECB 0.208 20.35 20.35 6.09 2 0 Yes PNL 25 150 18 39 Category 4 (*N3) (*N9) (*N11)841 MAIN PANEL 840-1 DATA CENTER ECB 0.208 3.43 3.43 2.05 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N12)

842 RP1 841-2 RP1 FCB 0.208 12.62 12.62 5.12 0.01 0 Yes PNL 25 5 18 0.16 Category 0 (*N11)843 RDU 841-3 RDU FCB 0.208 3.18 3.18 1.95 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N12)

844 CRAC 2-1 841-4 CRAC 2-1 FCB 0.208 3.22 3.22 1.67 0.06 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)845 CRAC 2-2 841-5 CRAC 2-2 FCB 0.208 2.97 2.97 1.57 0.086 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)846 CRAC 2-3 841-6 CRAC 2-3 FCB 0.208 2.79 2.79 1.51 0.104 0 Yes PNL 25 25 18 2 Category 0 (*N3) (*N12)

901 BLDG 7 MN SWGR 001-2 M1 0.48 23.84 23.45 13.55 1.9 0.1 Yes PNL 25 257 18 94 Dangerous! (*N5) (*N9) (*N10)903 BLDG 10 901-3 BLDG 10 FCB 0.48 12.99 12.99 8.2 0.017 0 Yes PNL 25 10 18 0.45 Category 0 (*N10)

904 BLDG 6 ECB 901-5 BLDG 6 FCB 0.48 12.62 12.62 8 0.017 0 Yes PNL 25 10 18 0.44 Category 0 (*N10)905 LOADING DOCK ECB 901-6 LOADING DOCK FCB 0.48 5.63 5.63 4.02 0.017 0 Yes PNL 25 6 18 0.21 Category 0 (*N11)

906 WAREHOUSE ECB 901-7 WAREHOUSE FCB 0.48 16.79 16.79 10.21 0.017 0 Yes PNL 25 11 18 0.57 Category 0 (*N10)907 BLDG 7 EMERG GEN 0.48 9.88 0 0 2 0 Yes PNL 25 157 18 42 Dangerous! (*N2) (*N9) (*N12)

910 BLDG 7 ATS_L 901-2 BLDG 7 ATS_N FCB 0.48 21.97 21.97 12.85 0.05 0 Yes PNL 25 26 18 2.2 Category 1 (*N11)911 ATS 7 ECB 901-2 BLDG 7 ATS_N FCB 0.48 22.52 22.52 13.12 0.05 0 Yes PNL 25 26 18 2.2 Category 1 (*N10)

912 MCC 911-1 ATS ECB 0.48 16.69 16.69 10.16 0.017 0 Yes PNL 25 11 18 0.56 Category 0 (*N5) (*N10)912A PNL LP 912-1 MCC BR 0.48 16.43 16.43 10.02 0.019 0 Yes PNL 25 12 18 0.63 Category 0 (*N10)

913 ELEVATOR ECB 911-1 ATS ECB 0.48 15.84 15.84 9.71 0.017 0 Yes PNL 25 11 18 0.54 Category 0 (*N5) (*N10)914 ELE 913-1 ELEVATOR ECB 0.48 9.64 9.64 6.36 0.018 0 Yes PNL 25 9 18 0.37 Category 0 (*N11)

916 PNL 1 901-3 BLDG 10 FCB 0.208 6.27 6.27 3.13 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N11)917 PANEL PP02 901-3 BLDG 10 FCB 0.208 5.39 5.39 2.82 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N11)

918 PNL M 901-3 BLDG 10 FCB 0.208 5.01 5.01 2.68 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N11)919 PNL K 901-3 BLDG 10 FCB 0.208 5.39 5.39 2.82 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N11)920 PNL J 901-3 BLDG 10 FCB 0.208 2.12 2.12 1.46 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N11)

921 GARAGE PANEL 901-3 BLDG 10 FCB 0.208 3.03 3.03 1.88 2 0 Yes PNL 25 25 18 2 Category 0 (*N5) (*N9) (*N11)922 NEW OFFICE ECB 901-3 BLDG 10 FCB 0.208 6.18 6.18 3.1 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N11)

923 NEW OFFICE PANEL 922-1 OFFICE ECB 0.208 5.04 5.04 2.69 2 0 Yes PNL 25 25 18 2 Category 0 (*N9) (*N11)

(*N2) - Percentage of fault current cleared is less than the Cleared Fault Threshold specified in the study options.(*N3) - Arcing Fault Current Low Tolerances Used.(*N5) - Mis-coordinated, Upstream Device Tripped.(*N9) - Max. Arcing Duration Reached. The time taken for the protective device to clear the fault is longer than the Max. Arcing Duration specified in the study options.(*N10) - User Defined (Based on Feeder 141 Source)(*N11) - User Defined (Based Feeder 137 Source)(*N12) - User Defined (Based on Generator Source)


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6 SITE ASSESSMENT & CORRECTIVE ACTION COST ESTIMATE

6.1 INTRODUCTION

This report documents the Power System Assessment performed at the VA Hospital located in Wilmington, Delaware by Square D / Schneider Electric Engineering Services.

In general, the Power System Assessment is performed to gain a deeper understanding of the industrial/commercial power system. The power system oneline is reviewed, then physically walked-down by Square D Power System Engineers from the utility service entrance to major distribution centers. System configurations, operating parameters, and equipment conditions are visually inspected and reviewed.

The goal of the site assessment is to identify and prioritize detrimental issues to the power system, including environmental conditions that may cause equipment failure in the short or long term.

Each electrical room was thoroughly inspected for room climate, equipment working space clearances as per NEC Art. 110.26 and 110.34, proper grounding as per Art. 250, general integrity of equipment from both external and internal inspection, proper wiring as per Art. 300, and as determined via the short circuit study, an evaluation of short circuit ratings was performed in accordance with Art. 110.9. Results are provided for each major equipment location as listed below, as well as through a summary table using a five color assessment criteria.

6.2 GENERAL SITE INFORMATION

This campus-like hospital was constructed in 1944 and contains thirteen (13) occupied buildings: Building # Description 1 Main Building 2 Administration (Out Bldg.) 3 Administration (Out Bldg.) 4 Administration (Out Bldg.) 5 Child Day Care (Out Bldg.) 6 Mental Patient Admin 7 Warehouse / Boilerplant 10 Garage / Engineering 13 Regional Office 15 Emergency Generator / Switchgear 17 Nursing Home Care 18 Generator / Switchgear 19 & 20 Utility Incoming / Medium Voltage Switchgear / Generator

The electrical power system is described as a radial system with dual utility 12kV incoming feeders (M1 and M2). Two 12kV vacuum circuit breakers (M3 and M4) distribute power to each of the buildings via fused switches, all housed in Buildings 19 and 20. Each building carries its own step-down transformer, usually an outdoor mounted padmounted unit, except for the “out-buildings” (#’s 2, 3, 4, and 5) which utilize one transformer for each of these buildings.

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Most of the electrical power equipment installed across this campus has been upgraded over the years from original construction, with the exception of Building 1 panel boards. The majority of electrical distribution equipment is vintage 1970-1980 with an assortment of manufacturers: Cutler-Hammer, Square D, General Electric, and Trumbull.

Most of the panel boards in the main building (Building 1) are of original construction, manufacturer Trumbull.

Emergency power is available to select areas of the system via permanently-installed diesel generators. Testing is performed on a monthly basis under NEC requirements.

This site has a record of reliable utility power and has not experienced a significant outage in several years.

Site performs annual maintenance in accordance with NETA (National Electrical Testing Association) procedures.

With the exception of one main motor control center in Building 1, the hospital electrical distribution equipment appears to be well maintained and in moderately good condition. Much of the original equipment, aside from Building 1 floor closet panelboards, have been replaced over the years with upgraded equipment. Overall, the equipment looks to be well maintained and tested regularly.

6.3 INSPECTION DETAILS (per Building or Location)

6.3.1 Building 1 – Main Switchgear Room (#143)

Description

New Cutler-Hammer/Eaton double-ended indoor substation with primary-selective fused switches and secondary switchboard/molded case breaker construction. Dry-type transformers are 750kVA, 12kV-208Y120V. Secondary is 2000A mains/tie.

Opposite new double-ended sub sets the X-Ray substation, which is a single 750kVA dry-type transformer with primary switch and secondary main breaker. Working space between this transformer and new double-end transformer is 43”. Art. 110.34(A) requires 6ft. (7000V line-ground, Condition 3).

Various wall-mounted distribution panels, automatic transfer switches, and capacitors line the perimeter of the room.

Previous Eaton power study performed during same period as installation of substation. Updated oneline diagrams accompany this short circuit / coordination study.

Assessment

1. Switchgear room is located at basement level with outdoor access. Initial access to

switchgear room from indoor was obstructed with hand trucks, cardboard boxes, and other supplies. Sign on switchgear room door reads: “Keep this Space Clear”.

2. Room was found generally clean with little clutter (Sep 2, 9am). Air was relatively dry with temperature near 75deg. F. Air is fan-ventilated although filters were not visible.

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3. Fire suppressant piping and water lines run throughout the room atop the switchgear. Drip pans are used under the water lines. Sprinkler heads are visible tapped to fire pipe lines.

Recommendations

1. Review new Square D power study for recommendations on overdutied equipment and

optimal trip unit settings.

2. Install power monitoring to better understand electrical system behavior. State-of-the-art monitoring affords standard metering of voltage, current, and the differing angle, as well as subcycle waveform capturing and analysis to understand both steady-state and transient nature of the system. This information can be used to improve system efficiency, investigate root-cause of voltage issues, determine power factor improvement needs, develop optimal protective relay settings, etc.

3. Consider oil containment methods that will satisfy local environment requirements while minimizing plant operating process. The installation of a containment system would require a switchyard outage.

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6.3.2 Building 1 – AC Shop

Description Pump room containing a multi-section motor control center (MCC-3), a 1500kVA unit

substation, and various panel boards.

MCC-3 is a 14-section aged GE motor control center with a total of 39 buckets feeding non-emergency loads (compressors, pumps, etc.). MCC is fed from LV busway from upstream Westinghouse 1500kVA unit sub (DS Switchgear).

Unit substation is Westinghouse 1500kVA dry type transformer with primary fused WLI switch and secondary DS switchgear. DS gear is 2 x 4 construction with transition section, main breaker, and four feeder breakers. Feeder #3 feeds MCC-3 via LV busway across the aisle.

Low voltage panel (A-15) is Trumbull, 120Y208V double door panel.

Assessment 1. Room found to be very dirty and cluttered with storage, tooling, and equipment. No clear

access to equipment.

2. MCC has a history of fire (2 separate fires) and failure. This MCC was found in very poor condition with bucket doors and trip handles missing. Access to front of MCC was blocked with cardboard boxes and equipment wooden crates. MCC last tested – Oct 30, 2006. Fire sprinkler heads set above the MCC.

3. Unit sub was found in adequate condition although moderately dirty. Access to front of gear, including transformer cooling vents, was blocked with debris. LV breakers may be eligible for upgrade.

4. Trumbull panel was found in poor condition, dirty, with bottom cover missing. Panel requires cleaning and cover replacement. Various other equipment (safety switches, smaller panels) were also found inaccessible with cardboard boxes stacked in front.

Recommendations 1. Clear areas in front of all electrical distribution equipment, as well as cooling ventilation

openings. Clean and maintain cleanliness across entire room, especially around electrical equipment.

2. Replace MCC-3 wholesale with new. The MCC has experienced major damage over the years and is considered both a safety hazard and unreliable point of distribution. In short term, MCC should be de-energized and thoroughly cleaned and inspected. Failed components should be replaced until plans can be developed to replace the entire lineup.

3. Clean and test unit substation components. Evaluate condition of existing low voltage breakers to determine need to replace or retrofit.

4. Consideration should be given to replace the double door Trumbull panel since replacement parts are unavailable. This statement applies to all Trumbull panel boards within this site, which is the majority of panels at this site.

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5. Review new Square D power study for recommendations on overdutied equipment and optimal trip unit settings.


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6.3.3 Building 18 – Substation and Generator

Description This 3-room building contains the following:

Room #1: a double-ended Square D substation with R-Temp liquid-filled 225kVA, 12kV - 208Y120V transformers, primary fused switches, and secondary PZ-II, DS main breakers Room #2: 480V secondary 4 x 6 lineup of feeder breakers, Square D type-DS with Amptector II-A trip units Room #3: two 440kW, 208V Caterpillar diesel generators; transfer switch with 1600A main breaker; battery rack; and control panel

Assessment 1. Switchgear rooms found to be relatively clean with little clutter and good ventilation.

Generator room found dirty and cluttered with flammable items (case of oil).

2. Unit substation found in good external condition. Liquid-filled transformers did not contain spill containment. Transformer gauge readings: Gas pressure = +0.5psig (both) Liquid Level = slightly above 25deg.C (both) Liquid Temp = 50deg.C with redline at 55deg.C (left); 50deg.C with redline at 60deg.C (right) Transformer last tested Oct 23, 2006. No signs of liquid leaks found on tank or surroundings.

3. Secondary switchgear (Room #2) was found in good condition, however trip units of this DS gear are old, obsolete Amptectors, which is a peak-sensing unit. This technology was surpassed years ago with more reliable and accurate RMS-sensing trip units. A few panel bolts were found missing from rear of switchgear.

4. Generator room was moderately dirty with flammable items stored on floor. A Square D panel board is mounted directly behind the door. Door lacks adequate safety stop to avoid contact with panel board. Battery rack is in need of general maintenance and terminal cleaning.

Recommendations 1. Retrofit DS breakers with new Digitrip or equivalent electronic trip unit.

2. Consider installing a liquid containment system around transformer to prevent environment hazard in event of leak.

3. Re-hinge or install safety-stop to door accessing generator room to prevent damaging contact with switchboard mounted behind door. This is an unsafe existing condition.

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4. Clear access to generator by removing storage items. Maintain clear access and cleanliness of room.

5. Inspect, test, and maintain generator battery rack as per NETA procedures.



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6.3.4 Building 15 – Research / IRM

Description Small out-back building housing a 4 section GE 208V, AV-Line switchboard with 1400A

main

Sourced by outdoor padmount transformer and generator via 3pole transfer switch

Assessment 1. Room found to be clean with minimal clutter.

2. Transformer was found to be mounted on pad with radiators very close to brick wall. Although outdoor installation, air flow around radiators is impeded by close proximity of wall.

Recommendations 1. Review new Square D power study for recommendations on overdutied equipment and

optimal trip unit settings.

2. Monitor this padmount transformer for proper cooling due to its installation location.


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6.3.5 Clinical Addition – Substation Room

Description This is a relatively new addition to Building 1, built in 1998. A main switchgear room is

located behind a pump room and other electrical closets.

Switchgear room houses three single-ended substations, sizes 500, 750, and 1000kVA with Cutler-Hammer primary-selective switches and secondary switchboard. Three ATS’s are mounted on rear wall.

Assessment 1. Rooms found to be relatively clean with good ventilation, however, a high level of clutter

was found to be stored around the equipment.

2. Unit substations (MDSB-A, B, and C) were found in relatively good external conditions, with the exception of MDSB-C (see below). Liquid-filled transformers did not contain spill containment. Transformer gauge readings: MDSB-A, 1000kVA, 12kV-480Y277 Gas pressure = 0 psig Liquid Level = slightly above 25deg.C Liquid Temp = 40deg.C with redline at 45deg.C MDSB-B, 500kVA, 12kV-208Y120 Gas pressure = -1.0psig Liquid Level = slightly above 25deg.C Liquid Temp = 40deg.C with redline at 50deg.C MDSB-C, 750kVA, 12kV-480Y277 Gas pressure = -0.5psig Liquid Level = slightly above 25deg.C Liquid Temp = 45deg.C with redline at 55deg.C

3. MDSB-C was found with signs of an oil leak at the mounting coupling of the drain valve.

4. Transformer tanks do not contain visible ground connections.

5. Various low voltage Cutler-Hammer switchboard covers were found with slight rust.

6. Room does not contain a perimeter ground bus. Inspection revealed equipment to be grounded via bare copper cable within the conduit entering rear cable compartments.

7. Automatic transfer switches (ATS-1 260A, ATS-2 400A, and ATS-3 800A) are each 3pole units and found in good condition.

Recommendations

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1. Inspect MDSB-C oil leak and repair if necessary.

2. Properly ground transformer tanks at ground pads.

3. Clear areas around electrical distribution equipment. Clean and maintain cleanliness across entire room, especially around electrical equipment.

4. Clean and test unit substation components. Evaluate condition of existing low voltage breakers to determine need to replace or retrofit. Clean rust areas to prevent further degradation.



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6.3.6 Clinical Addition – Pump Room and Panels

Description Various small size pumps and associated equipment in this room.

Westinghouse Accutrol VFD and small (30-75kVA) dry type transformers, as well as two new Cutler-Hammer Series 2100, wall-mounted MCC’s (MCC-GB and EMCC-GB).

Side closet housed new CH panelboards.

This new section of Building 1 contains several large electrical closets with new Cutler-Hammer panel boards.

Assessment 1. Pump room was found to be very cluttered with storage of large cardboard boxes. No clear

access to equipment. Equipment was found in good condition.

2. Panel boards located in electrical closets were all found in good condition, both externally and internally. However, set of panels on the secondary of dual 45kVA transformers was found to share a common neutral cable.

Recommendations 1. Clear areas in front of all electrical distribution equipment. Clean and maintain cleanliness

across entire room, especially around electrical equipment.

2. Investigate neutral sharing of panels E3RP-GA and E2RP-GA. Panels should accept separate neutrals from respective transformers.



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6.3.7 Building 1 – Floor Panel Closets

Description Each of the eight floors within the Main Building 1 of this campus hospital contains three

locations of electrical closets identified as “East Closet”, “West Closet”, and “Center Closet”. Some floors contain a fourth location called the “K Closet”. Each closet contains one to three panel boards. Total panel quantity is approximately one hundred (100).

Most (95%) of the panels within these floor closets are very old, original equipment, Trumbull panel boards. Sizes vary from 100A to 400A, single and double panel, main and main lug only. Most of the panels are MLO.

Assessment 1. Most of the electrical closets were found to be moderately clean with minimal

clutter/storage. Most locations provided clear access to equipment.

2. Most of the Trumbull panels can be assessed with the same findings: - panel board and circuit breaker ratings data not visible - poor circuit identifiers - loose debris within panels - no ground bus – using back plane of panel as ground plane - loose or open/disconnected wires - loose terminations on breakers - cut wires and exposed copper ends - spliced connections used as feed-through points - loose connection tape - missing panel hardware and/or panel covers - poorly fitting panel covers; support brackets broken or missing - missing or broken blank-breaker covers - misuse of bare copper wire to create 2pole or 3pole breaker from 1pole ganged breakers - multiple wires terminated on one breaker loadside lug - circuit breaker in closed position with no loadside wire connected - use of wood members within panel to support cables (sparse locations) - use of steel all-thread within panel to support cables (sparse locations) - neutral to ground bonds (sparse locations)

Recommendations 1. Correct listed deficiencies at panelboards. Replace panel where necessary.


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6.3.8 Building 13 – Regional Office

Description Outdoor padmount transformer feeds underground into building main 800A disconnect and

two small subpanels. Two separate closets in office area house an old Zinsco double-panelboard, and a retro-fitted Siemens double-panelboard.

A raised-floor computer room with 2 large UPS’s exist with no reported issues.

Assessment 1. Closets are very shallow and require all doors open to gain safe access to panel interiors.

Zinsco panels are obsolete and should be replaced or retrofitted like sister closet.

Recommendations 1. Replace Zinsco panels with new or retrofit with new interiors.



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6.3.9 Building 10 - Engineering

Description Basement contains small transformer (75kVA) with primary switch and old secondary

Trumbull panels and safety switches. Trumbull panels also exist in electric shop, machine shop and hall.

Assessment 1. Basement was very hot with poor ventilation. Debris prevented clear access to electrical

equipment. Trumbull panel (Panel #1) found in poor condition with rusted cover, exposure to energized bus, missing blank covers securing hardware. Safety switches were also very rusty and deemed unsafe to open.

2. Machine shop Trumbull panel (PP02) was also blocked from clear access by equipment in front of panel.

3. Electric shop Trumbull panel was found with missing cover hardware and access blocked by cardboard boxes.

4. Hall Trumbull panel was found in poor condition with broken breaker covers.

Recommendations 1. Clear areas in front of all electrical distribution equipment, as well as cooling ventilation

openings. Clean and maintain cleanliness across entire room, especially around electrical equipment.

2. Replace Trumbull panel boards with new.


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6.3.10 Building 7 – Boiler and Warehouse

Description New Square D QED switchboard with electronic trip main and tie breakers was

installed in this basement a few years ago. This lineup accepts normal utility service from outdoor padmount transformer (2000A main type PEF) and backup service (1600A type RJ) from outdoor generator. Load distribution is via I-Line stacked molded case breakers with PowerMeters for system monitoring.

Basement accepts line-side cable via conduit that penetrates exterior wall through an existing fan vent.

A 7-section GE MCC sets on boiler room floor as well as a 112.5kVA DT transformer. Another room contains a new generator transfer switch (4p).

Assessment 1. Basement was found clean but very hot. Fan found inoperative. New cable splice box

blocks 75% of ventilation opening.

2. MCC found in relatively good condition aside from a few missing bucket cover switches.

Recommendations 1. Inspect blocked ventilation window of basement and inoperative fan motor. Consider re-

route of ventilation air path to aid cooling of this room.

2. Consider replacement of GE MCC based on obsolete parts and condition of a bucket switches.


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6.3.11 Building 17 – Nursing Home

Description An old Westinghouse 500kVA oil-filled unit substation is housed in this electrical room.

Primary fused switch and secondary switchboard protect transformer and distribute to wall-mounted load panels in this room. A few panels were in the process of being replaced with new Cutler-Hammer. Secondary main is Westinghouse DS with Amptector trip unit. A several branch molded case breakers are stacked in switchboard adjacent to secondary main.

Adjacent room houses a 150kW, 208Y120V generator that feeds a 3pole ASCO transfer switch in main room.

Assessment 1. Room found to be relatively clean, but cluttered with storage and tools. Room temperature

was very hot supported by inadequate ventilation.

2. Secondary main was found in good condition, however trip unit of this DS breaker is old, obsolete Amptector, which is a peak-sensing unit. This technology was surpassed years ago with more reliable and accurate RMS-sensing trip units.

3. Generator system ground was not identified during inspection. Ground point should be solid at or near equipment ground point.

4. Unit substation found in good external condition. Liquid-filled transformer did not contain spill containment. Transformer gauge readings: Gas pressure = 0 psig Liquid Level = 25deg.C Liquid Temp = 45deg.C with redline at 50deg.C

Recommendations 1. Install proper ventilation to maintain system reliability and desired life of equipment.

2. Retrofit DS breaker with new Digitrip or equivalent electronic trip unit.

3. Inspect generator winding ground point in more detail. Install system ground if not located.

4. Clear areas in front of all electrical distribution equipment, as well as cooling ventilation openings. Clean and maintain cleanliness across entire room, especially around electrical equipment.

5. Clean and test unit substation molded case breakers. Evaluate condition of existing low voltage breakers to determine need to replace or retrofit.


7. Install power monitoring to better understand electrical system behavior. State-of-the-art monitoring affords standard metering of voltage, current, and the differing angle, as well as

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subcycle waveform capturing and analysis to understand both steady-state and transient nature of the system. This information can be used to improve system efficiency, investigate root-cause of voltage issues, determine power factor improvement needs, develop optimal protective relay settings, etc.

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6.3.12 Building 19 & 20 – Main Utility Incoming / Generator

Description This is the main incoming medium voltage lineup – new Square D MasterClad switchgear

with SEPAM protective relaying. This is a dual service lineup with a tie and feeder breakers. DC control battery rack is installed in this main room.

Adjacent room contains backup 750kVA generator. Small black start battery rack sets adjacent to generator.

Assessment 1. Rooms were found clean and uncluttered. Clear access available to equipment.

2. Main switchgear is new and in very good condition (external observation).

3. Generator batteries were found in need of testing and maintenance.

Recommendations 1. Test and service generator batteries in accordance with NETA procedures.



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6.3.13 Building 6 – Mental Patient Administration

Description Basement contains new step-down 112.5kVA transformer and secondary distribution panel.

An old Trumbull subpanel is mounted on opposite wall under hot water / steam piping.

Assessment 1. Room found to be extremely hot in temperature, very dirty and cluttered with storage and

debris. Room is used as a storage room. No clear access to equipment.

2. Trumbull subpanel was found in poor condition with rusted cover. Location under water/steam piping is not desirable.

Recommendations 1. Install proper ventilation to maintain system reliability and desired life of equipment.

2. Clear areas in front of all electrical distribution equipment. Clean and maintain cleanliness across entire room, especially around electrical equipment. Do not use room as storage location.

3. Replace Trumbull subpanel with new based on condition and obsolescence.



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6.3.14 Out Buildings - #2, 3, 4, and 5 (Daycare)

Description These out-buildings make up the remaining buildings of this hospital campus. The

buildings are relatively small (1000-2000 sqf) compared to the other buildings on campus and house administrative personnel, as well as a child daycare center.

Building electrical is sourced from one outdoor padmounted transformer into basement level panelboards and subpanels.

Assessment 1. Most of the basement electrical rooms were found to be very hot with poor ventilation,

excessively dirty and in need of regular maintenance. Clear access is an issue in a few locations. Panel interiors were found very dirty.

2. Bldgs. 3 and 4 main panels were found with a short run of 2” PVC conduit between panels and outside atmosphere. The PVC penetrates the buildings’ exterior walls allowing clear and dangerous access to panel interior. The outside wall opening is near door step.

3. Bldgs. 4 main panel and Bldg. 5 subpanel are mounted very close to condensate drain valves. A leak of these valves could potential spray condensate across panels.

4. Bldg. 5 main panel is a newly installed Siemens breaker meter panel. Line-side cable was found to pulled short, requiring splices to be added to allow for breaker termination. These splices are deemed unnecessary considering the relatively short run (30-40’) to outdoor padmount transformer. Integrity of splices is also questioned with proximity to uninsulated neutrals considered a dangerous condition.

5. Bldg. 5 subpanel is very old and in need of replacement. Backpanel contains non-sealed conduit allowing rodent and moister access. New Square D subpanel was found with several missing breaker blank covers. Other subpanels ‘A’ and ‘B’ were found with inadequate panel covers leaving energized bus exposed.

Recommendations 1. Clean electrical rooms and maintain clear access to all electrical equipment.

2. Seal the 2” PVC that runs bet panel interiors and outside building.

3. Pull new line-side cable between padmount transformer and indoor Siemens main breaker.

4. Seal backpanel of old Westinghouse panel.


6. Install power monitoring to better understand electrical system behavior. State-of-the-art monitoring affords standard metering of voltage, current, and the differing angle, as well as subcycle waveform capturing and analysis to understand both steady-state and transient nature of the system. This information can be used to improve system efficiency,

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investigate root-cause of voltage issues, determine power factor improvement needs, develop optimal protective relay settings, etc.

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6.4 GENERAL EQUIPMENT TESTING INFORMATION

6.4.1 Electrical Equipment Suggested Frequency of Tests and Inspections

All users of electrical apparatus are encouraged to utilize an electrical preventative maintenance and testing program designed for their particular application. The methodology of establishing such a program is amply covered in Section 4 of NFPA-70B, entitled, “Recommended Practice for Electrical Equipment Maintenance” (EEM). An EEM Program may consist of the following methodologies:

1. Inspection and service, as necessary 2. Scheduled preventative maintenance 3. Reliability centered maintenance

The National Electrical Testing Association (NETA) recommends to all users of electrical equipment that a minimum standard "Scheduled Preventive Maintenance" should be employed within a facility. The following table and procedure lists are provided to aid the establishment of the EEM program. Users are encouraged to adapt the data to their own equipment based upon the considerations discussed in NFPA-70B.

Apparatus Frequency of Tests (yr.) Switchgear and switchboard assemblies ….…………….…………….. 1 Dry-type transformers, air-cooled, 600V and below ….………………. 2 (167 kva single-phase, 500 kva three-phase, and smaller) All other dry-type transformers ………..…………………………………. 1 Cables: medium voltage, 69kV maximum ……….……………………. 3 Metal-enclosed busways ………………….……………….…………….. 1 Air switches: low voltage ……………………….……………………….. 2 Air switches: medium voltage, metal-enclosed …….…………………. 1 Air switches: high and medium voltage, open ……………….……….. 3 Circuit breakers: low voltage - insulated case/molded case …….…... 2 Circuit breakers: low voltage – power …………………….……………. 1 Instrument transformers ……………………………….…………………. 1 Metering …………………………………………….……………………… 3 Grounding systems ………………………………….……………………. 2 Ground-fault protection systems …………………….………………….. 1 Surge protection devices: medium and high voltage ….……………… 1

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6.4.2 Testing and Inspection Procedures

Listed below are testing and inspection procedures that Square D recommends to be performed on electrical equipment and cables.

6.4.2.1 Air Switch - Low Voltage - Bolted Pressure

Visual and Mechanical Inspection

• Inspect switch for physical damage and grounding. • Inspect interior insulation arc chutes and interphase barriers. • Perform mechanical operational tests. Clean and lubricate as

necessary. • Check mechanical interlocks for proper operation. • Check key interlocks for safe operation. • Check all indicating devices for proper operation. • Check blade alignment and arc interrupter operation. Lubricate as

necessary. • Check blade pressure for proper current rating. • Check bolted fuse connection for proper torque values. • Check all bus connections for proper torque values.

Electrical Tests

• Insulation resistance - phase to phase and phase to ground • Contact resistance across each switch blade and fuse holder

6.4.2.2 Switchgear and Switchboard Assemblies - General

Test Values

• Check bolt torque values in accordance with U.S. standards or manufacturers specifications

• Insulation resistance in accordance with the following guidelines: Minimum Voltage Rating Test Voltage (Vdc) 0 - 250 500 251 - 600 1000 601 - 5000 2500 5001 - 39000 5000

• Overpotential testing should follow insulation resistance testing

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• Overpotential test voltages are applied in accordance with the following guidelines:

Rated kV AC DC 5 14.3 20.2 15 27.0 37.5 25 45.0 + 35 60.0 +

• Final test voltages will be applied for one (1) minute. * Derived form ANSI/IEEE C37.20.2 and C37.20.3 + Consult manufacturer.

6.4.2.3 Transformers (Dry-Type)


• Verify the operation of auxiliary devices, such as fans, indicators, and tap changer.

• Bolt torque levels are checked in accordance with U.S. Standards specifications.

• Check for proper grounding of core and frame.

Electrical Tests

• Insulation resistance tests are performed winding to winding and winding to ground.

• A turns ratio test is performed between windings for all tap positions.

6.4.2.4 Air Switches -- Low and Medium Voltage


• Inspect the switch for physical damage and unintentional grounding. • Inspect interior insulation arc chutes and interphase barriers. • Perform mechanical operator tests. Clean and lubricate as necessary. • Check blade alignment and arc interrupter operation. • Check fuse linkage and element for proper holder and current rating.

Record fuse data. • Check key interlock for safe operation and proper key distribution.

Electrical Tests

• Overpotential test voltages are applied phase to phase and phase to

ground. • Contact resistance is measured across each switch blade and fuse line,

measured in micro-ohms.

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• Perform insulation resistance test on each phase to ground and from phase to phase.

6.4.2.5 Cables (Medium Voltage)

Visual and Mechanical Inspection • Inspect exposed cable section for tracking corona or physical damage. • Inspect shield grounding, cable support, and termination. • Apply grounds upon completions to drain all absorbed potential to zero

volts.

Electrical Tests

• Perform dc hi-potential test and measure/record dc leakage current at each voltage step after a stabilization. Maximum test voltages to applied as per manufacturer's recommendations.

• Perform shield continuity test. • Terminations to be corona suppressed by guard ring, field reduction

sphere or other suitable methods. • Each conductor to be individually tested with all other conductors

grounded. All shields are to be grounded.

6.4.2.6 Circuit Breakers - Low Voltage (Molded Case)


• Inspect to ensure smooth breaker operation. • Inspect case for cracks or other defects. • Verify that bolt torque levels are in accordance with manufacturers or

U.S. Standards specifications.

Electrical Tests (Frame ratings greater than or equal to 100A)

• Contact resistance • Insulation resistance at 1000 Volts dc for one (1) minute from pole to

pole and from each pole to ground, and across open contacts of each phase.

• Trip-release test • Minimum long-time pick-up current • Long-time delay via primary current injection method at 300% rating • Instantaneous pick-up current via primary injection using run-up or

pulse method.

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6.4.2.7 Instrument Transformers


• Inspect for physical damage • Check mechanical clearances and proper operation of all disconnecting

and grounding devices. • Verify proper operation of grounding or shorting devices. • Verify proper current-turns ratio based on equipment drawings or

oneline diagram

Electrical Tests

• Current-turns ratio via primary current injection, or voltage method • Potential transformer ratio • Insulation resistance primary to ground, secondary to ground, and

primary to secondary. • Verify secondary wiring connections via secondary current injection. • Verify transformer polarity markings

6.4.2.8 Metering and Instrumentation


• Verify meter connections in accordance with single-line meter and relay diagram.

• Inspect for physical damage.

Electrical Tests

• Check accuracy of ammeter via current injection. • Check accuracy of voltmeter via voltage test source.

6.4.2.9 Surge Protection Devices


• Inspect physical condition (such as chipped or fractured porcelain), cleanliness and anchorage.

• Verify nameplate data to be in compliance with equipment drawings/specification.

• Inspect integrity of ground and line connections. • Bolt torque levels are checked in accordance to manufacturers or U.S.

Standards specifications.

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6.5 GENERAL SYSTEM GUIDELINES

6.5.1 Steady State Voltage

Prolonged exposure to abnormal steady-state voltages can cause equipment failure. American National Standards Institute (ANSI) defines the acceptable ranges of steadystate voltage in ANSI C84.1-1989, American National Standard for Electric Power Systems and Equipment − Voltage Ratings (60 Hertz). Voltage ratings are classified as service voltage or utilization voltage. Service voltage is the voltage at the utility/consumer interconnect. Utilization voltage is the voltage at the line terminals of connected equipment. ANSI C84.1 limits apply to sustained voltage levels and not momentary disturbances. IEEE 1159-1995, Recommended Practice on Monitoring Electric Power Quality, differentiates the two as, momentary (lasting less than one minute) or sustained (more than one minute). Utilization equipment designed for application at a specific system voltage should give fully satisfactory performance for any utilization voltage between 8% below and 5% above nominal. Motors, which are typically nameplated 460V when designed for application on a 480V system, are required to operate satisfactorily at voltages of plus or minus 10% of nameplate. However, motors operate more efficiently within 5% of nameplate voltage. Voltage profiles, as reported in recent Square D Remote Power Management reports at the McNeil facility are within this operating envelope. Although standards allow motors to operate at a +/- 10% range of their rated voltage, motors operate best and last longer when they are utilized at their rated voltage. The major (negative) effects of higher-than-rated voltage on a motor are higher starting current, increased starting torque, and lower power factor. High voltage to a motor tends to push the magnetic parts of the motor into saturation. This saturation forces the motor to draw more current in an attempt to magnetize the iron even further. Motors can tolerate a slight increase in voltage, but excessively high voltages will dramatically increase the heating and decrease the life of the motor. Figure 1 shows the characteristics of a typical T-frame motor.

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November 2008

Higher voltages reduce the power factor, lower the efficiency, and increase the starting current.

Figure 1: Characteristics of the typical T-frame motor for various voltage variations.

Lighting loads can also be affected greatly by high voltages. An incandescent lamp’s life can be reduced to 34% of its life with only 10 volts above the rated voltage being applied. Table 1 shows the effect of various voltages on incandescent lamps. High voltages applied to fluorescent and HID lights do not affect the lamp life as much. However, the ballast and other operating equipment will have a shortened life span. Manufacturers’ catalogs give the optimal voltage levels for different types of lighting equipment.

Table 1: Effect of various voltages on different incandescent lamps.

Rating 120 Volt 125 Volt 130 VoltApplied Voltage % Life % Light % Life % Light % Life % Light

105 575 64 880 55 - -110 310 74 525 65 880 57115 175 87 295 76 500 66120 100 100 170 88 280 76125 58 118 100 100 165 88130 34 132 59 113 100 100

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November 2008

6.5.2 Voltage Unbalance

Voltage unbalance is another indicator of voltage quality at a facility. The primary concern with unbalance is overheating of motors. Recommended practice is to maintain unbalance to less than 1%. An unbalance of greater than 1% causes the rating of induction motors to decrease. A 2% unbalance derates a motor to 95% of its nameplate rating. Since the temperature rise of the motor is proportional to the square of the current, derating the motor to 95% will lower the rated temperature rise by 10%. The average percent unbalance was 0.18%.

6.5.3 Harmonic Voltage and Current

Electronic loads such as variable frequency motor drives and automation equipment draw current that is not sinusoidal. Loads exhibiting this characteristic are referred to as non-linear. The non-linear current may be represented by a series of sine waves, or harmonics, which are integer multiples of the fundamental frequency (60Hz in U.S.). For example, a 300 Hz component is referred to as a fifth harmonic (5x60=300). Harmonic currents impose additional thermal stress on conductors and transformers reducing their current carrying capability. Harmonic currents also interact with line impedance causing the voltage to become distorted. When a distorted voltage is impressed on equipment such as capacitors or motors, significant harmonic currents will flow which may cause premature equipment failure. IEEE 519-1992, Recommended Practices and Requirements for Harmonic Control in Electrical Power Systems, requires utilities to ensure that voltage distortion does not exceed 5% total harmonic distortion (THD) on their distribution systems. Recognizing that voltage distortion results from harmonic current injected by customers operating non-linear loads, the standard also places limits on the magnitude of harmonic current injection by individual customers. These current limits vary from 5 to 20% total demand distortion (TDD) depending on the size of the customer relative to the stiffness of the utility circuit. TDD is equivalent to THD when measured at the service entrance under peak loading conditions.

6.5.4 Transformer Applications

Transformers are rated based on their ability to supply a specified continuous load at a design voltage. The IEEE ANSI Standard C57 deals with the design and operation of transformers. C57.96-1989 gives information on the loading of dry-type transformers. From this guide, the normal life expectancy of a transformer is 20 years. The normal loading conditions to reach this life is described in Section 3 of C57. The life of a transformer can be extended or shortened primarily as a result of higher than rated loading and higher than normal ambient temperatures. Dry-type transformers are designed for an average ambient air temperature of 30O C (maximum of 40O C).

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November 2008

For transformers operating under normal design conditions, the hottest-spot temperature of the windings should not exceed 1400 C for 150O insulation, 175O C for 185O insulation, or 210O C for 220O insulation. If these temperatures are not exceeded, then there should be little or no loss of life in the transformer insulation. Figure 2 shows the typical life expectancy of transformers based of the hottest-spot temperature.

Figure 2: Transformer life-expectancy curves.

The life expectancy is estimated in the following manner: 1. Assume a maximum ambient air temperature of 40O C. 2. Add the rise temperature from the nameplate. 3. Add 30O to account for the hottest-spot. 4. Read the life expectancy from Figure 2.

Example: 40+150+30=220O C From Figure 2, the life expectancy is less than 10 years.

220O hot-spot temperature, 7-9 years

200O hot-spot temperature, 20+years

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The transformer’s life has been extended as a result of: 1. The average ambient air is less than 40O C. 2. The present loading does not cause a 150O C rise above the ambient. From Figure 2, a decrease of 20O can add approximately 20 years to the life. (30+140+30=200O C). New life is approximately 25 years.

Transformer losses in the form of heat are a result of the Joule effect (P = I2R ). Typical heat release values as based on the 5.5% impedance and normal loading (50%) are provided below.

Transformer Heat Released (kW) CFM Required*

1000kVA 20 2,000 1500kVA 45 4,500 2500kVA 124 12,400

*- Based on the cooling air not exceeding 40O C.

ANSI recommends that the cooling air not exceed 40O C and that the flow rate should be 100cfm per kW of heat. The following table shows typical values of heat released for various transformers. This table is published by transformer manufactures as a tool for HVAC designers.

Percent Loaded 500 750 1000 150025% 9,222 11,433 13,940 19,46550% 12,410 17,110 20,060 2,66075% 17,723 26,733 30,260 39,185100% 25,160 40,120 44,540 56,440125% 34,723 57,333 62,900 78,625

Transformer SizeBTU/Hr of Heat Released

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6.6 Corrective Action Assessment Matrix Each entry in the spreadsheet is assigned a color – red, orange, yellow, green, or blue. Items coded in red are those that are believed to be critical deficiencies that have life-safety-equipment or personnel safety implications and should be addressed with the highest priority. An example of a red tagged deficiency would be missing ground conductor or incorrect overcurrent device settings. Orange items are situations that require action (e.g., code violations, equipment condition, etc.) but are not believed to present an immediate safety or reliability risk but have equipment or personnel safety implications. Yellow items are important deficiencies that have equipment or reliability implications. Green items indicate areas where the deficiencies may limit the facility’s ability to optimize. Blue tagged items are minor deficiencies such as surge suppression, power monitoring, and lightning protection.

• Metering refers to electrical power metering (current, voltage, kWh, demand, PF, etc…) typically installed in hospitals.

• Codes & Safety refers to applicable NEC, NFPA 70E, and OSHA codes regarding electrical

power system design, application, and maintenance. • Reliability was determined to be the probability of equipment failure in the near future (within 1-

year or less).

• Equipment Condition is an overall impression of a group of aspects such as enclosure, installation, maintenance, cleanliness, age, and application.

• Maintenance addresses accepted industry standards of maintenance practices such as PM

programs, housekeeping programs, routine inspections, calibration, and updated one-line diagrams.

• S C Withstand refers to the equipment’s short circuit rating. An evaluation of calculated fault

currents was performed with results tabulated in report Section 2.

• Protective Coordination refers to the electrical equipment’s ability to interrupt and isolate a fault while maintaining as much of the system operation as possible. An evaluation of system coordination was performed with results presented in report Section 4.

Pricing in the corrective action matrix is estimated for budgetary purposes for items to be purchased in fiscal year 2008. Pricing is based on normal budgetary pricing. Firm fixed pricing can be provided upon request.

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ITEM #

PRIORITY PHOTO EQUIP BLDG #

LOCATION DEFICIENCY ACTION/RECOMMENDATION Estimated Materials

Estimated Labor

Budget Estimate

1 Red 1-6 MCC-3 1 AC SHOP MCC-3 in poor condition; history of fire; obsolete

MCC-3 wholesale replacement – old GE LV MCC, 14 sections, 39 buckets

$75,000 $125,000 $200,000

2 Red 7,8 Bldg 2 Main Panel 2 Out Building Unsafe access to panel interior

Seal 2” PVC that runs bet panel interior and outside building; replace panel main with new – reports of nuisance tripping

$500 $500

3 Red 9,10 Bldg 3 Main Panel 3 Out Building Unsafe access to panel interiorSeal 2” PVC that runs between panel interior and outside building

$500 $500

4 Red 11,12 Bldg 5 Main Breaker 5 Daycare Inadequate cable splices

Pull new line-side cable bet padmt transformer and indoor Siemen main; cbl pulled short and splices used

$5,000 $10,000 $15,000

5 Orange 13,14 MDSB-A, B, & C 1 Clinical Addition Lack of tank grounds

Install ground strap to liquid filled transformer tanks – 2 transformers; consider installing a room perimeter ground bus for reference

$5,000 $5,000

6 Orange 15,16 MDSB-C 1 Clinical Addition Signs of oil leak Investigate liquid leak on

Transformer ‘MDSB-C’ $2,000 $2,000

7 Orange 17,18 Bldg 5 Sub Panel 5 Daycare Potential for liquid leak onto panels

Add drip pans bet sprinkler head and panel, and bet steam valve and panel

$500 $3,000 $3,500

8 Orange 19 Bldg 5 Sub Panel (Westinghouse) 5 Daycare Access to panel interior Seal backpanel conduit

openings of old West panel $500 $500

9 Orange 20,21 GE MCC 7 Boiler & Warehouse Obsolete MCC, overdutied Replace existing MCC with new;

old GE; 6 sections $32,142 $53,571 $85,713

VA WILMINGTON, DESITE ASSESSMENT OF ELECTRICAL EQUIPMENT - DEFICIENCY REPORT

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ITEM #



Estimated Labor

Budget Estimate


10 Orange 22,23 Main Swgr Rm 7 Boiler & Warehouse Poor room ventilation

Relocate room ventilation fan since air flow is 75% blocked due to installation of new busway

$500 $1,500 $2,000

11 Orange 24,25 Generator/ATS 17 Nursing Home Improper grounding

Install proper generator system ground; green wire not found bet gen and West swgr

$500 $2,500 $3,000

12 Orange 26 Generator Cntl Pnl 18 Substation & Gen

Interference between swinging door and swbd

Install a door stop or re-hinge door to modify existing setup where door can be opened into switchboard that sets behind door

$250 $250

13 Orange 30 PP8K 1 Floor Closet Panels

Obsolete Trumbull panel, overdutied panelboard, wood shims in panel for cable support

Replace with adequately rated panelboard, remove wood and properly support cables

$2,250 $1,852 $4,102

14 Orange 31 LP2C 1 Floor Closet Panels



$2,250 $1,852 $4,102




$2,250 $1,852 $4,102

16 Orange 34 LP2D 1 Floor Closet Panels

Obsolete Trumbull panel, overdutied panelboard, missing deadfront exposing energized bus

Replace with new adequately rated panelboard $2,250 $1,852 $4,102




$2,250 $1,852 $4,102

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ITEM #



Estimated Labor

Budget Estimate



Overdutied Panelboard, wood shims in panel for cable support, wires spliced but not connected

Replace with adequately rated panelboard, removce wood and properly support cables, remove unconnected splices

$2,250 $1,852 $4,102

19 Orange 37 PP4K 1 Floor Closet Panels



$2,250 $1,852 $4,102

20 Orange 38 PPGN-B 1 Floor Closet Panels

Obsolete Trumbull panel, overdutied panelboard

Replace with adequately rated panelboard $2,250 $1,852 $4,102

21 Orange 40 LP3B-D 1 Floor Closet Panels

Obsolete panel missing deadfront, exposed energized bus Replace with new panel $2,250 $1,852 $4,102

22 Orange 41 LP3B-C 1 Floor Closet Panels

Obsolete panel missing deadfront, exposed energized bus Replace with new panel $2,250 $1,852 $4,102

23 Orange 61-63 XRAY Panel 1 Floor Closet Panels

Ground cable not terminated, cut cables exposed with breaker on, debris in panel

Properly terminate ground cable, properly terminate cut wires, remove debris from panel

$250 $500 $750

24 Orange 64 Panel RM 2089 Cardiac 1 Floor Closet

Panels

Neutral and ground conductors connected, duct tape breaker blank covers

Inspect panel grounding and nuetral for proper connections, replace duct tape with breaker blank covers

Engineering solution required

25 Orange 66 PP9M 1 Floor Closet Panels

Obsolete Trumbull panel, overdutied panelboard, exposed loose wires in panel

Replace with adequately rated panelboard, properly insulate/terminate and support lose wires

$2,500 $2,000 $4,500

26 Orange 67 Panel LPGC-C 1 Floor Closet Panels

Ground cable and neutral cable connected together

Inspect panel grounding and netural for proper connections Engineering solution required

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ITEM #



Estimated Labor

Budget Estimate


27 Orange 69 LPGA 1 Floor Closet Panels

Obsolete Trumbull panel Overdutied Panelboard, breaker handle mechanically interlocked with copper wire, improper clearance

Replace with adequately rated panelboard, remove copper wire and install new panelboard with proper breakers

$2,250 $1,852 $4,102

28 Orange 70 LP1B 1 Floor Closet Panels

Obsolete Trumbull panel, overdutied panelboard, copper wire mechanically interlocking breaker handles

Replace with adequately rated panelboard with brreakers for application

$2,250 $1,852 $4,102

29 Orange -- Panel B (XRAY Panel) 1 Floor Closet

Panels Overdutied BreakersReplace overdutied breakers as necessary to ensure an adequate application

$6,000 $3,100 $9,100

30 Orange -- Panel DP 1 Basement Overdutied BreakersReplace overdutied breakers as necessary to ensure an adequate application

$3,750 $3,100 $6,850

31 Orange -- PPGN-C 1 Floor Closet Panels Overdutied Panelboard Replace with adequately rated

panelboard $3,750 $3,100 $6,850

32 Orange -- EDP 1 Basement Overdutied Panelboard Replace with adequately rated panelboard $3,750 $4,030 $7,780

33 Orange -- PPGM-A AC SHOP 1 Floor Closet

PanelsObsolete Trumbull panel, overdutied panelboard


34 Orange -- LP8B 1 Floor Closet Panels



35 Orange -- LP8A 1 Floor Closet Panels






37 Orange -- LP5A-LH 1 Floor Closet Panels



38 Orange -- LP5A-RH 1 Floor Closet Panels






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ITEM #



Estimated Labor

Budget Estimate


40 Orange -- LP6A-LA 1 Floor Closet Panels



41 Orange -- PPGL 1 Floor Closet Panels


















47 Orange -- LPGB 1 Floor Closet Panels



48 Orange -- LPGP 1 Floor Closet Panels

Obsolete Trumbull panel, overdutied panelboard, exposed loose wires in panel

Replace with adequately rated panelboard, properly insulate/terminate and support lose wires

$2,500 $2,000 $4,500

49 Orange -- LP6C 1 Floor Closet Panels









52 Orange -- LPGC-B 1 Floor Closet Panels



53 Orange -- LPGC-A 1 Floor Closet Panels






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ITEM #



Estimated Labor

Budget Estimate





56 Orange -- PPGM-B AC SHOP 1 Floor Closet

PanelsObsolete Trumbull panel, overdutied panelboard


57 Orange -- PPGN-A 1 Floor Closet Panels



58 Orange -- PP5K 1 Floor Closet Panels



59 Orange -- PP10N 1 Floor Closet Panels



60 Orange -- PPGK 1 Floor Closet Panels



61 Orange -- PP6K 1 Floor Closet Panels



62 Orange -- Panel C 5 Daycare Overdutied Panelboard Replace with adequately rated panelboard $1,500 $1,852 $3,352

63 Orange -- Panel B 5 Daycare Overdutied Panelboard Replace with adequately rated panelboard $1,500 $1,852 $3,352

64 Orange -- Panel EMG 13 Regional Office Overdutied Panelboard Replace with adequately rated

panelboard $1,500 $1,852 $3,352

65 Orange -- Power Panel 13 Regional Office Overdutied Panelboard Replace with adequately rated

panelboard $3,000 $3,100 $6,100

66 Orange -- UNMARKED PANEL 13 Regional

Office Overdutied Panelboard Replace with adequately rated panelboard $3,750 $4,030 $7,780

67 Orange -- Panel A 15 Research Overdutied Panelboard Replace with adequately rated panelboard $1,500 $1,852 $3,352

68 Orange -- Panel K 15 Research Overdutied Panelboard Replace with adequately rated panelboard $1,500 $1,852 $3,352

69 Orange -- Panel M 15 Research Overdutied Panelboard Replace with adequately rated panelboard $1,500 $1,852 $3,352

70 Orange -- Panel D 15 Research Overdutied Panelboard Replace with adequately rated panelboard $1,500 $1,852 $3,352

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ITEM #



Estimated Labor

Budget Estimate


71 Orange -- Panel E 15 Research Overdutied Panelboard Replace with adequately rated panelboard $1,500 $1,852 $3,352

72 Orange -- Panel I 15 Research Overdutied Panelboard Replace with adequately rated panelboard $1,500 $1,852 $3,352

73 Orange -- Panel ACP 15 Research Overdutied Panelboard Replace with adequately rated panelboard $3,750 $4,030 $7,780

74 Orange -- Emerg Dist Brd 15 Research Overdutied Panelboard Replace with adequately rated panelboard $3,750 $4,030 $7,780

75 Orange -- EM Main 17 Nursing Home Overdutied ECB Replace ECB with adequately

rated ECB $2,000 $2,000 $4,000

76 Orange -- LP1 18 Substation & Gen Overdutied Panelboard Replace with adequately rated

panelboard $2,250 $1,852 $4,102

77 Orange -- ATS 4 18 Substation & Gen Overdutied ATS Replace with adequately rated

ATS $3,750 $1,852 $5,602

78 Orange -- LP2 18 Substation & Gen Overdutied Panelboard Replace with adequately rated

panelboard $2,250 $1,852 $4,102

79 Orange -- Feeder to KPD 1 Dietetics 225A CB protecting #3/0 conductors

Install larger conductors or smaller OCPD Engineering solution required

80 Orange -- Feeder to PP 1 Dietetics 200A CB protecting #1/0 conductors


81 Orange -- Feeder tp LP9C 1 Basement 115A CB protecting #2 conductors Install larger conductors or smaller OCPD Engineering solution required

82 Orange -- Feeder to EC3 1 Basement 400A CB protecting 300kcmil conductors


83 Orange -- Feeder to Panel B 5 Daycare 100A CB protecting #4 conductors Install larger conductors or smaller OCPD Engineering solution required

84 Orange -- Feeder to Power Panel 13 Regional

Office300A CB protecting #3/0 conductors


85 Orange -- Feeder to LP-1 13 Regional Office 150A CB protecting #2 conductors Install larger conductors or

smaller OCPD Engineering solution required

86 Orange -- Feeder to Panel A 13 Regional Office 150A CB protecting #2 conductors Install larger conductors or


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ITEM #



Estimated Labor

Budget Estimate


87 Orange -- Feeder to Gen Room Panel 15 Research 100A CB protecting #8 conductors Install larger conductors or


88 Orange -- Feeder taps to Panel 213 15 Research Taps exceed NEC Allowances Install larger conductors or


89 Orange -- Feeder to EDP-E 18 Substation & Gen 200A CB protecting #2 conductors Install larger conductors or


90 Yellow 27 Westinghouse DS 1 AC SHOP Obsolete trip units

Unit sub secondary breakers retrofit – Westinghouse DS, 2000AF main, two 800AF feeders

$35,000 $20,000 $55,000

91 Yellow 28,29 Trumbull Pnl 1 AC SHOP Obsolete panelboards; electrical ratings unknown

Replace old Trumbull double panel, 120Y208V, 200A per side $3,000 $3,704 $6,704

92 Yellow 32 LP2N-0 1 Floor Closet Panels

Obsolete panel, wood shims used to support cables, 3 condcutors terminated in 1 breaker

Replace panel with new, remove wood and properly support cables, re-terminate conductors in single breakers

$2,250 $1,852 $4,102

93 Yellow 39,42,43 Trumbull Pnl 1 Floor Closet Panels

Obsolete panelboards; electrical ratings unknown

Replace old Trumbull panel boards are used throughout the floor electrical closets; no visible AIC ratings; obsolete equip; cable bugs used as feed-through connection points; no ground bus, using backpanel as ground plane; approx 10 panels per floor, 8 floors; example of findings in 2 pics

$90,000 $74,080 $164,080

94 Yellow 44,45 CH Swbd 1 Clinical Addition Panel rust, degradation Replace rusted panels on CH

Pow-R-Line switchboard $1,500 $1,500

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ITEM #



Estimated Labor

Budget Estimate


95 Yellow 46 CH Panels 1 Clinical Addition Common neutral

Investigate/resolve common neutral being used between two 45kVA transformers using panels E3RP-GA and E2RP-GA

$2,500 $2,500

96 Yellow 47,48 Panels A & B 5 Daycare Obsolete panelboards; misfit covers

Replace old 480V subpanels ‘A’ and ‘B’ with new $4,500 $3,704 $8,204

97 Yellow 49 Trumbull Pnl 6Mental Patient Admin

Obsolete panelboard Replace old 100A Trumbull panel $2,250 $1,852 $4,102

98 Yellow 50-53 Trumbull Pnl 10 Engineering Obsolete panelboardReplace old/poor condition Trumbull panels, 100A, est. qty. 5

$2,250 $1,852 $4,102

99 Yellow 54 Westinghouse DS 17 Nursing Home Obsolete trip units Retrofit existing West DS main

with Digitrip or equiv $2,500 $3,000 $5,500

100 Yellow 55,56 SqD PZII 18 Substation & Gen Obsolete trip units

PZ-II DS206 breaker retrofit, Amptector II-A to Digitrip or equiv, approx 20 breakers, mostly 800AF, 42kA

$50,000 $60,000 $110,000

101 Yellow 57,58 Gen Battery Rack 18 Substation & Gen Maintenance needed Generator battery rack

maintenance $5,000 $5,000

102 Yellow 59,60 Gen Battery Rack 19&20Main

Incoming & Gen

Maintenance needed Perform battery maintenance $5,000 $5,000

103 Yellow 65 Panel C 1 Floor Closet Panels Exposed loose wires Properly terminate/insulate and

support exposed losse wires $250 $250

104 Yellow 68 LP-GP 1 Floor Closet Panels Exposed loose wires Properly terminate/insulate and

support exposed losse wires $250 $250

105 Yellow 71 RP-1D2 1 Floor Closet Panels

Copper wire used to mechanically interlock breaker handles

Remove wire and replace with 3 pole breaker $200 $500 $700

396 of 648

ITEM #



Estimated Labor

Budget Estimate


106 Yellow 72 2G 1 Floor Closet Panels

Copper wire used to mechanically interlock breaker handles

Remove wire and replace with 2 & 3 pole breaker $400 $1,000 $1,400

107 Yellow -- Zinsco Pnl 13 Regional Office Obsolete panelboard Replace old, obsolete Zinsco

panels, qty. 4, 200A ea $9,000 $7,408 $16,408

108 Green -- All building main breakers ALL Upgrade

Install power monitoring to better understand electrical system behavior during abnormal conditions.

$121,000 $100,000 $221,000

Total $1,215,589

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6.7 Assessment Photos Following are photos that illustrate some of the assessment issues found at this facility. These are identified by photo number and study bus number, as are referenced on the “Site Assessment Matrix” in the previous section.

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Photo 1 – MCC 3 in the AC Shop in Building 1. This MCC is old and obsolete with evidence of fire andarc flash incidents. The entire MCC should be replaced.

399 of 648


Photo 2 – MCC 3 in the AC Shop in Building 1. Missing breaker operation mechanism exposing energized parts.

400 of 648


Photo 3– MCC 3 in the AC Shop in Building 1. Missing deadfront covers exposing energized parts.

401 of 648


Photo 4– MCC 3 in the AC Shop in Building 1. Missing breaker deadfront covers exposing energized parts.

402 of 648


Photo 5– MCC 3 in the AC Shop in Building 1. Evidence of arc flash event.

403 of 648


Photo 6– MCC 3 in the AC Shop in Building 1. Missing cable gutter deadfront.

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Photo 7— Building 2 Main Panel. Open 2” PVC runs between panel interior and exterior ofbuilding allowing unsafe access to panel interior. There are also reports of the main breakernuisance tripping. The 2” PVC should be sealed and the main breaker replaced with a new breaker.

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Photo 8—Open 2” PVC runs between exterior of Building 2 and main panel. Seal 2” PVC to limitunsafe access to panel interior.

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Photo 9—Building 3 Main Panel. Open 2” PVC runs between panel interior and exteriorof building allowing unsafe access to panel interior. The 2” PVC should be sealed.

Photo 10—Open 2” PVC runs between exterior of Building 3 and main panel. Seal 2” PVC to limit unsafe access to panel interior.

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Photo 11— Building 5 main breaker with inadequate cable splices. Pull new line-side cable between padmount transformer and indoor main

Photo 12—Close-up of Building 5 inadequate cable splices

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Photo 13—Clinical Addition in Building 1; Substations MDSB-A, MDSB-C, and MDSB-C lack transformer tank grounds. Install ground strap to liquid filled transformertanks. Consider installing a room perimeter ground bus for reference.

Photo 14—Clinical Addition in Building 1; Substations MDSB-A, MDSB-C, and MDSB-C lack transformer tank grounds. Install ground strap to liquid filled transformertanks. Consider installing a room perimeter ground bus for reference.

409 of 648


Photo 15—Clinical Addition in Building 1; Transformer MDSB-C exhibits signs of an oil leak. Investigate oil leak.

Photo 16—Clinical Addition in Building 1; Transformer MDSB-C exhibits signs of an oil leak. Investigate oil leak.

410 of 648


Photo 18—Building 5 Subpanel has the potential for liquid leak onto panels. Install drippans between sprinkler head and panel. Install drip panels between steam valve and panel.

Photo 17—Building 5 Subpanel has the potential for liquid leak onto panels. Install drippans between sprinkler head and panel. Install drip panels between steam valve and panel.

411 of 648


Photo 19—Building 5 Westinghouse Subpanel has conduit openings allowing unsafe access to panel interior. Seal conduit openings in back of panel.

412 of 648


Photo 21—Building 7 Boiler MCC is obsolete and overdutied. Replace MCC with new equipment adequately rated for calculated fault current.

Photo 20— Building 7 Boiler MCC missing breaker operation mechanism allowingunsafe access to MCC bucket.

413 of 648


Photo 22—Building 7 main switchgear room; the ventilation fan is blocked by installation of new busway, resulting in loss of 75% of fan capacity and poor room ventilation. The fan should be relocated to provide adequate ventilation.

Photo 23—Building 7 main switchgear room; the ventilation fan is blocked by installation of new busway, resulting in loss of 75% of fan capacity and poor room ventilation. The fan should be relocated to provide adequate ventilation.

414 of 648


Photo 25—Building 17 Nursing Home Automatic Transfer Switch and Generator areimproperly grounded. No green grounding wire was found between the generator andWestinghouse Switchgear. Install proper generator ground system.

Photo 24—Building 17 Nursing Home Automatic Transfer Switch and Generator areimproperly grounded. Install proper generator ground system.

415 of 648


Photo 26—Building 18 Generator Room the door opens into the switchboard. Install a door stop or re-hinge door to modify existing setup where door can be opened other direction.

416 of 648


Photo 27—Building 1 AC Shop Westinghouse Switchgear has obsolete trip units. Retrofit existingbreakers with new trip units.

417 of 648


Photo 28—Building 1 AC Shop Trumbull panelboards are obsolete and electrical ratings are unknown. Replace old panel with new.

Photo 29—Building 1 AC Shop Trumbull panelboards are obsolete and electrical ratingsare unknown. Replace old panel with new.

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Photo 30—Building 1 Trumbull Panel PP8K is obsolete and electrical ratings are unknown. Panel has wood shims for panel and cable support. Replace old panels with new.

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Photo 31—Building 1 Trumbull Panel LP2C is obsolete and electrical ratings are unknown. Panel has wood shims for panel and cable support. Replace old panels with new.

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Photo 32—Building 1 Trumbull Panel LP2N-0 is obsolete and electrical ratings are unknown. Panel has wood shims for panel and cable support. 3 wires are terminated in one 20A breaker. Replace old panels with new.

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Photo 34—Building 1 Trumbull Panel LP2D is obsolete and electrical ratings are unknown. Panel is missing deadfront cover exposing energized bus. Replace old panels with new.

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Photo 37—Building 1 Trumbull Panel PP4K is obsolete and electrical ratings are unknown. Panel has wood shims for panel and cable support. Replace old panels with new.

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Photo 38—Building 1 Trumbull Panel PPGN-B is obsolete and electrical ratings are unknown. Panel has wood shims for panel and cable support. Panel is missing breaker covers exposing energized parts. Replace old panels with new.

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Photo 39—Building 1 Trumbull Panel PPGN is obsolete and electrical ratings are unknown. There are only 3 screws holding the cover on. Replace old panels with new.

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Photo 40—Building 1 Panel LP3B-D is obsolete. Panel is missing deadfront exposing the energized bus. Replace old panels with new.

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Photo 41—Building 1 Panel LP3B-C is obsolete. Panel is missing deadfront exposing the energized bus. Replace old panels with new.

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Photo 42—Building 1 Floor Closet Trumbull panels are obsolete and electrical ratings are unknown. Replace old panels with new.

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Photo 43—Building 1 Floor Closet Trumbull panels are obsolete and electrical ratings are unknown.Replace old panels with new.

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Photo 44—Clinical Addition Building 1 Cutler Hammer Pow-R-Line switchboard has rusted covers. Replace rusted covers.

Photo 45—Clinical Addition Building 1 Cutler Hammer Pow-R-Line switchboard has rusted covers. Replace rusted covers.

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Photo 46—Clinical Addition Building 1 Panels E3RP-GA and E2Rp-GA have a common neutral used between two 45kVA transformers. Investigate/resolve common neutral being used between the twotransformers.

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Photo 48—Building 5 Panels A & B are obsolete with poor fitting covers. Replace old panels with new.

Photo 47—Building 5 Panels A & B are obsolete with poor fitting covers. Replace old panels with new.

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Photo 49—Building 6 Trumbull panel is obsolete and ratings are unknown. Replace old panel with new.

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Photo 51—Building 10 Trumbull panels are obsolete and rating is unknown. Replace old panels with new.


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Photo 54—Building 17 Nursing Home Westinghouse breaker trip units are obsolete. Retrofit obsolete trip unit with new trip unit.

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Photo 56—Building 18 Generation and Substation Square D breaker trip units are obsolete. Retrofit obsolete trip unit with new trip unit.

Photo 55—Building 18 Generation and Substation Square D breaker trip units are obsolete. Retrofit obsolete trip unit with new trip unit.

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Photo 57—Building 18 Generation battery rack needs maintenance.

Photo 58—Building 18 Generation battery rack needs maintenance performed.

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Photo 60—Building 19 and 20 Generation battery rack needs maintenance.

Photo 59—Building 19 and 20 Generation battery rack needs maintenance.

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Photo 61—Building 1 XRAY Panel conductors have been cut and breaker is on. Turn spare breaker off, remove cable stubs from breaker terminals, and properlyterminate/insulate and support loose cable.

Photo 62—Building 1 XRAY Panel has debris in the panel. Remove debris from panel.

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Photo 63—Building 1 XRAY Panel ground conductor is laying in bottom of panel. Properly terminate ground conductor.

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Photo 64—Building 1 Panel RM 2089 Cardiac ground and neutral wire connected. Deadfront missing breaker blank covers (covered with duct tape and cardboard). Investigate grounding and neutral wire connection. Install proper breaker blank covers.

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Photo 65—Building 1 Panel C has loose exposed wires in panel. Properly terminate/insulate and support loose conductors.

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Photo 66—Building 1 Panel PP9M has loose exposed wires in panel. Properly terminate/insulate and support loose conductors. Trumbull panel is obsolete and rating is unknown. Replace old panels with new.

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Photo 67—Building 1 Panel LPGC-C the neutral and ground wires are connected. Investigate connection of neutral and ground wires.

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Photo 68—Building 1 Panel LP-GP has loose exposed wires in panel. Properly terminate/insulate and support loose conductors.

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Photo 69—Building 1 Panel LPGA does not have enough clearance to safely remove panel cover. Re-locate panel to location with adequate space. Trumbull panels are obsolete and rating is unknown. Replace old panel with new. Copper wire is mechanically interlocking 2 one pole breaker handles to create a 2 pole breaker. Remove copper wire and replace with a 2 pole breaker.

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Photo 70—Building 1 Panel LP1B Trumbull panel is obsolete and rating is unknown. Replace old panel with new. Copper wire is mechanically interlocking 3 one pole breaker handles to create a 3 pole breaker. Copper wire is mechanically interlocking 2 one pole breaker handles to create a 2 pole breaker. Remove copper wire and replace with a 2 pole and 3 pole breakers.

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Photo 71—Building 1 Panel RP-1D2 copper wire is mechanically interlocking 3 one pole breaker handles to create a 3 pole breaker. Remove copper wire and replace with a 3 pole breaker.

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Photo 72—Building 1 Panel 2G copper wire is mechanically interlocking 3 one pole breaker handles to create a 3 pole breaker. Remove copper wire and replace with a 3 pole breaker.

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November 2008

APPENDIX A: ABBREVIATIONS AND TRADEMARKS Organizations and Standards ANSI - American National Standards Institute IEEE - Institute of Electrical and Electronics Engineers ICEA - Insulated Cable Engineers Association NEC - National Electrical Code (NFPA No. 70) NEMA - National Electrical Manufacturers Association UL - Underwriters' Laboratories, Inc. Other Abbreviations A - Amperes (RMS symmetrical) AFIE - Arc Flash Incident Energy (cal/cm2) AIC - Amperes Interrupting Capacity (Three-Phase RMS sym.) ASD - Adjustable Speed ac Drive ATPV - Protective Clothing Arc Rating ATS - Automatic Transfer Switch C/B - Circuit Breaker CHP - Combined Horsepower CFLA - Combined Full Load Amperes CT - Current Transformer FLA - Full Load Amperes FPB - Flash Protection Boundary HP - Horsepower IL - Max. Demand Load Current at PCC ISC - Short-Circuit Current at PCC kVA - Kilovolt-Ampere kVAm - Kilovolt-Amperes of Motor Short Circuit contribution kW - Kilowatt L-L - Line-To-Line LRA - Locked-Rotor Amperes L.V. - Low Voltage LSIG. - L = Long Time, S = Short time, I = Instantaneous, G = Ground fault protection MCC - Motor Control Center MCS - Molded Case Switch Mohms - Milliohms M.V. - Medium Voltage OCPD - Overcurrent Protective Device O.L. - Overload PCC - Point of Common Coupling PF - Power Factor PPE - Personal Protective Equipment PWM - Pulse Width Modulated R - Resistance RMS - Root-Mean-Square SCA - Short-Circuit Amperes SCAm - Short-Circuit Amperes of Motor Contribution SCCR - Short-Circuit Current Rating S.F. - Service Factor sym. - Symmetrical TCC. - Time Current Coordination graph TCR - Trip Current Rating TDD - Total Demand Distortion THD - Total Harmonic Distortion V - Line-To-Line Volts (RMS sym.) WCR - Withstand Current Rating X - Reactance Z - Impedance %Z - Percent Impedance

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November 2008

Trademarks BOLT-LOC, ECONOPAK, EZ METER-PAK, GROUND CENSOR, I-LIMITER, I-LINE, ISO-FLEX, MAG-GARD, MICROLOGIC, MINI POWER-ZONE, OMEGAPAK, POWER-CAST, POWER STYLE, POWER ZONE, QF, QO, QWIK-GARD, SORGEL, SPEED-D, SQUARE D, VACARC and WATCHDOG are registered trademarks of Square D Company. I-75,000, METER-PAK, and PZ-8 are trademarks of Square D Company. Company Abbreviations Allen-Bradley A-B Allis-Chalmers A-C ASEA Brown Boveri ABB Automatic Switch Co ASCO Basler BAS Bussmann BUSS Challenger CHA Cooper COOP Cutler – Hammer C-H Economy Fuse ECON Federal Pacific Electric FPE G & W Electric G&W General Electric GE Gould Shawmut GS I-T-E Imperial ITE Kearney KEA Klockner KLO Littlefuse LIT McGraw Edison ME Merlin Gerin MG Powell POW Reliance REL RTE Corp. RTE Russelectric RUSS S & C Electric S&C Schweitzer Engr. Labs SEL Siemens SIE Square D SQD Thomas Betts T-B Toshiba TOS Westinghouse WEST Zenith Z

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November 2008

APPENDIX B: SHORT CIRCUIT INPUT TABULATIONS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 ------------------------------------------------------------------------------ ALL PU VALUES ARE EXPRESSED ON A 100 MVA BASE.

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= 9000 CBL-0395 404 BLDG18 CRITICAL EMERGENCY 405 ATS 1_E 1 208 145.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 22.39 + J 13.41 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 70.56 + J 33.02 PU CBL-0003 001 NEW SUBSTATION SWGR 002 MV SWITCH #1 1 12000 132.0 FEET 4/0 Copper Duct Material: Non-Magnetic Insulation Type: EPR Insulation Class: +/- Impedance: 0.0515 + J 0.0474 Ohms/1000 ft 0.0047 + J 0.0043 PU Z0 Impedance: 0.0819 + J 0.1205 Ohms/1000 ft 0.0075 + J 0.0111 PU CBL-0004 001 NEW SUBSTATION SWGR 010 MV SWITCH #7 1 12000 280.0 FEET 4/0 Copper Duct Material: Non-Magnetic Insulation Type: EPR Insulation Class: +/- Impedance: 0.0515 + J 0.0474 Ohms/1000 ft 0.0100 + J 0.0092 PU Z0 Impedance: 0.0819 + J 0.1205 Ohms/1000 ft 0.0159 + J 0.0234 PU CBL-0005 002 MV SWITCH #1 003 XFMR T-13A PRI 1 12000 123.0 FEET 2/0 Copper Duct Material: Non-Magnetic Insulation Type: EPR Insulation Class: MV +/- Impedance: 0.1020 + J 0.0420 Ohms/1000 ft 0.0087 + J 0.0036 PU Z0 Impedance: 0.4700 + J 0.3620 Ohms/1000 ft 0.0401 + J 0.0309 PU CBL-0006 002 MV SWITCH #1 004 XFMR T-13B PRI 1 12000 128.0 FEET 2/0 Copper Duct Material: Non-Magnetic Insulation Type: EPR Insulation Class: MV +/- Impedance: 0.1020 + J 0.0420 Ohms/1000 ft 0.0091 + J 0.0037 PU Z0 Impedance: 0.4700 + J 0.3620 Ohms/1000 ft 0.0418 + J 0.0322 PU CBL-0007 002 MV SWITCH #1 005 MV SWITCH #2 1 12000 630.0 FEET 4/0 Copper Duct Material: Non-Magnetic Insulation Type: EPR Insulation Class: MV +/- Impedance: 0.0640 + J 0.0390 Ohms/1000 ft 0.0280 + J 0.0171 PU Z0 Impedance: 0.4240 + J 0.3250 Ohms/1000 ft 0.1855 + J 0.1422 PU CBL-0012 005 MV SWITCH #2 006 SWITCH A7 1 12000 143.0 FEET 2/0 Copper Duct Material: Non-Magnetic Insulation Type: EPR Insulation Class: +/- Impedance: 0.0819 + J 0.0509 Ohms/1000 ft 0.0081 + J 0.0051 PU Z0 Impedance: 0.1302 + J 0.1296 Ohms/1000 ft 0.0129 + J 0.0129 PU CBL-0013 005 MV SWITCH #2 007 MV SWITCH #3 1 12000 445.0 FEET 4/0 Copper Duct Material: Non-Magnetic Insulation Type: EPR Insulation Class: +/- Impedance: 0.0515 + J 0.0474 Ohms/1000 ft 0.0159 + J 0.0146 PU Z0 Impedance: 0.0819 + J 0.1205 Ohms/1000 ft 0.0253 + J 0.0373 PU CBL-0014 007 MV SWITCH #3 008 SWITCH A4 1 12000 410.0 FEET 2/0 Copper Duct Material: Non-Magnetic Insulation Type: EPR Insulation Class: +/- Impedance: 0.0819 + J 0.0509 Ohms/1000 ft 0.0233 + J 0.0145 PU Z0 Impedance: 0.1302 + J 0.1296 Ohms/1000 ft 0.0371 + J 0.0369 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0015 007 MV SWITCH #3 009 XFMR T-15 PRI 1 12000 118.0 FEET 2/0 Copper Duct Material: Non-Magnetic Insulation Type: EPR Insulation Class: +/- Impedance: 0.0819 + J 0.0509 Ohms/1000 ft 0.0067 + J 0.0042 PU Z0 Impedance: 0.1302 + J 0.1296 Ohms/1000 ft 0.0107 + J 0.0106 PU CBL-0016 007 MV SWITCH #3 021 MV SWITCH #4 1 12000 95.0 FEET 4/0 Copper Duct Material: Non-Magnetic Insulation Type: EPR Insulation Class: +/- Impedance: 0.0515 + J 0.0474 Ohms/1000 ft 0.0034 + J 0.0031 PU Z0 Impedance: 0.0819 + J 0.1205 Ohms/1000 ft 0.0054 + J 0.0080 PU CBL-0018 010 MV SWITCH #7 011 TAP 1 12000 40.0 FEET 2/0 Copper Duct Material: Non-Magnetic Insulation Type: EPR Insulation Class: +/- Impedance: 0.0819 + J 0.0509 Ohms/1000 ft 0.0023 + J 0.0014 PU Z0 Impedance: 0.1302 + J 0.1296 Ohms/1000 ft 0.0036 + J 0.0036 PU CBL-0019 010 MV SWITCH #7 015 MV SWITCH #6 1 12000 730.0 FEET 4/0 Copper Duct Material: Non-Magnetic Insulation Type: EPR Insulation Class: +/- Impedance: 0.0515 + J 0.0474 Ohms/1000 ft 0.0261 + J 0.0240 PU Z0 Impedance: 0.0819 + J 0.1205 Ohms/1000 ft 0.0415 + J 0.0611 PU CBL-0020 015 MV SWITCH #6 016 XFMR T-7 PRI 1 12000 175.0 FEET 2/0 Copper Duct Material: Non-Magnetic Insulation Type: EPR Insulation Class: +/- Impedance: 0.0819 + J 0.0509 Ohms/1000 ft 0.0100 + J 0.0062 PU Z0 Impedance: 0.1302 + J 0.1296 Ohms/1000 ft 0.0158 + J 0.0158 PU CBL-0021 015 MV SWITCH #6 017 MV SWITCH #5 1 12000 290.0 FEET 4/0 Copper Duct Material: Non-Magnetic Insulation Type: EPR Insulation Class: +/- Impedance: 0.0515 + J 0.0474 Ohms/1000 ft 0.0104 + J 0.0095 PU Z0 Impedance: 0.0819 + J 0.1205 Ohms/1000 ft 0.0165 + J 0.0243 PU CBL-0022 017 MV SWITCH #5 019 SWITCH B6 1 12000 95.0 FEET 2/0 Copper Duct Material: Non-Magnetic Insulation Type: XLP Insulation Class: +/- Impedance: 0.0819 + J 0.0431 Ohms/1000 ft 0.0054 + J 0.0028 PU Z0 Impedance: 0.1302 + J 0.1097 Ohms/1000 ft 0.0086 + J 0.0072 PU CBL-0024 017 MV SWITCH #5 021 MV SWITCH #4 1 12000 45.0 FEET 4/0 Copper Duct Material: Non-Magnetic Insulation Type: EPR Insulation Class: +/- Impedance: 0.0515 + J 0.0474 Ohms/1000 ft 0.0016 + J 0.0015 PU Z0 Impedance: 0.0819 + J 0.1205 Ohms/1000 ft 0.0026 + J 0.0038 PU CBL-0025 011 TAP 014 XFMR T-1A-3 PRI 1 12000 40.0 FEET 2/0 Copper Duct Material: Non-Magnetic Insulation Type: EPR Insulation Class: +/- Impedance: 0.0819 + J 0.0509 Ohms/1000 ft 0.0023 + J 0.0014 PU Z0 Impedance: 0.1302 + J 0.1296 Ohms/1000 ft 0.0036 + J 0.0036 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0026 011 TAP 013 XFMR T-1A-2 PRI 1 12000 20.0 FEET 2/0 Copper Duct Material: Non-Magnetic Insulation Type: EPR Insulation Class: +/- Impedance: 0.0819 + J 0.0509 Ohms/1000 ft 0.0011 + J 0.00071 PU Z0 Impedance: 0.1302 + J 0.1296 Ohms/1000 ft 0.0018 + J 0.0018 PU CBL-0027 011 TAP 012 XFMR T-1A-1 PRI 1 12000 1.000 FEET 2/0 Copper Duct Material: Non-Magnetic Insulation Type: EPR Insulation Class: +/- Impedance: 0.0819 + J 0.0509 Ohms/1000 ft 0.00006 + J 0.00004 PU Z0 Impedance: 0.1302 + J 0.1296 Ohms/1000 ft 0.00009 + J 0.00009 PU CBL-0028 017 MV SWITCH #5 020 SWITCH A1 1 12000 75.0 FEET 2/0 Copper Duct Material: Non-Magnetic Insulation Type: XLP Insulation Class: +/- Impedance: 0.0819 + J 0.0509 Ohms/1000 ft 0.0043 + J 0.0027 PU Z0 Impedance: 0.1302 + J 0.1296 Ohms/1000 ft 0.0068 + J 0.0068 PU CBL-0029 017 MV SWITCH #5 018 SWITCH 137P19 1 12000 65.0 FEET 2/0 Copper Duct Material: Non-Magnetic Insulation Type: EPR Insulation Class: +/- Impedance: 0.0819 + J 0.0509 Ohms/1000 ft 0.0037 + J 0.0023 PU Z0 Impedance: 0.1302 + J 0.1296 Ohms/1000 ft 0.0059 + J 0.0059 PU CBL-0030 021 MV SWITCH #4 022 SWITCH B2 1 12000 350.0 FEET 2/0 Copper Duct Material: Non-Magnetic Insulation Type: EPR Insulation Class: +/- Impedance: 0.0819 + J 0.0509 Ohms/1000 ft 0.0199 + J 0.0124 PU Z0 Impedance: 0.1302 + J 0.1296 Ohms/1000 ft 0.0316 + J 0.0315 PU CBL-0031 021 MV SWITCH #4 024 SWITCH 141P26 1 12000 113.0 FEET 2/0 Copper Duct Material: Non-Magnetic Insulation Type: EPR Insulation Class: +/- Impedance: 0.0819 + J 0.0509 Ohms/1000 ft 0.0064 + J 0.0040 PU Z0 Impedance: 0.1302 + J 0.1296 Ohms/1000 ft 0.0102 + J 0.0102 PU CBL-0032 021 MV SWITCH #4 023 XFMR T-1-4 PRI 1 12000 30.0 FEET 2/0 Copper Duct Material: Non-Magnetic Insulation Type: XLP Insulation Class: +/- Impedance: 0.0819 + J 0.0509 Ohms/1000 ft 0.0017 + J 0.0011 PU Z0 Impedance: 0.1302 + J 0.1296 Ohms/1000 ft 0.0027 + J 0.0027 PU CBL-0033 021 MV SWITCH #4 025 SWITCH A6 1 12000 60.0 FEET 2/0 Copper Duct Material: Non-Magnetic Insulation Type: EPR Insulation Class: +/- Impedance: 0.0819 + J 0.0509 Ohms/1000 ft 0.0034 + J 0.0021 PU Z0 Impedance: 0.1302 + J 0.1296 Ohms/1000 ft 0.0054 + J 0.0054 PU CBL-0034 171 MAIN SG A 241 MAIN SG B 1 208 5.0 FEET 2000 Copper Duct Material: Busway Insulation Type: Epoxy Insulation Class: Class B +/- Impedance: 0.0076 + J 0.0039 Ohms/1000 ft 0.0878 + J 0.0451 PU Z0 Impedance: 0.1900 + J 0.0975 Ohms/1000 ft 2.20 + J 1.13 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0035 170 XFMR T-1-1 SEC 171 MAIN SG A 15 208 1.000 FEET 600 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0200 + J 0.0382 Ohms/1000 ft 0.0031 + J 0.0059 PU Z0 Impedance: 0.0630 + J 0.0941 Ohms/1000 ft 0.0097 + J 0.0145 PU CBL-0038 500 CRITICAL N. 502 CRITICAL SWBD BLDG #18 3 208 50.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 1.48 + J 1.51 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 4.67 + J 3.73 PU CBL-0039 101 MDSB-A 114 ATS-E2_N 1 480 45.0 FEET 600 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0200 + J 0.0382 Ohms/1000 ft 0.3906 + J 0.7461 PU Z0 Impedance: 0.0630 + J 0.0941 Ohms/1000 ft 1.23 + J 1.84 PU CBL-0040 126 ATS-E2_L 127 E2DP-GA 1 480 10.0 FEET 600 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0200 + J 0.0382 Ohms/1000 ft 0.0868 + J 0.1658 PU Z0 Impedance: 0.0630 + J 0.0941 Ohms/1000 ft 0.2736 + J 0.4083 PU CBL-0041 127 E2DP-GA 129 E2LP-GA 1 480 140.0 FEET 250 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0457 + J 0.0399 Ohms/1000 ft 2.78 + J 2.42 PU Z0 Impedance: 0.1440 + J 0.0983 Ohms/1000 ft 8.75 + J 5.97 PU CBL-0042 129 E2LP-GA 130 E2LP-1A 1 480 20.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 1.42 + J 0.3646 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 4.49 + J 0.8979 PU CBL-0043 129 E2LP-GA 132 E2LP-2C 1 480 50.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 1.16 + J 0.8529 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 3.65 + J 2.10 PU CBL-0044 101 MDSB-A 115 ATS-E3_N 2 480 50.0 FEET 600 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0200 + J 0.0382 Ohms/1000 ft 0.2170 + J 0.4145 PU Z0 Impedance: 0.0630 + J 0.0941 Ohms/1000 ft 0.6839 + J 1.02 PU CBL-0045 134 ATS-E3_L 135 E3DP-GA 2 480 10.0 FEET 600 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0200 + J 0.0382 Ohms/1000 ft 0.0434 + J 0.0829 PU Z0 Impedance: 0.0630 + J 0.0941 Ohms/1000 ft 0.1368 + J 0.2042 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0046 135 E3DP-GA 137 E3LP-GA CONTACTOR 1 480 120.0 FEET 2/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0835 + J 0.0409 Ohms/1000 ft 4.35 + J 2.13 PU Z0 Impedance: 0.2632 + J 0.1007 Ohms/1000 ft 13.71 + J 5.25 PU CBL-0055 101 MDSB-A 102 LP-GA 1 480 70.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 4.98 + J 1.28 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 15.70 + J 3.14 PU CBL-0056 150 MDSB-B 151 RP-GA 1 208 65.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 8.02 + J 5.90 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 25.28 + J 14.54 PU CBL-0057 101 MDSB-A 111 MCC-GB 1 480 50.0 FEET 600 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0200 + J 0.0382 Ohms/1000 ft 0.4340 + J 0.8290 PU Z0 Impedance: 0.0630 + J 0.0941 Ohms/1000 ft 1.37 + J 2.04 PU CBL-0058 135 E3DP-GA 139 EMCC-GB 1 480 50.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 1.16 + J 0.8529 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 3.65 + J 2.10 PU CBL-0059 101 MDSB-A 104 LP-1A 1 480 85.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 6.05 + J 1.55 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 19.07 + J 3.82 PU CBL-0060 101 MDSB-A 103 LP-GB 1 480 160.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 11.39 + J 2.92 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 35.89 + J 7.18 PU CBL-0061 101 MDSB-A 105 LP-1B 1 480 150.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 10.68 + J 2.73 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 33.65 + J 6.73 PU CBL-0062 101 MDSB-A 106 LP-2B 1 480 65.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.6884 + J 1.07 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 2.17 + J 2.63 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0063 101 MDSB-A 112 MCC-2B 1 480 80.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 1.85 + J 1.36 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 5.84 + J 3.36 PU CBL-0064 101 MDSB-A 113 ATS-E1_N 1 480 40.0 FEET 250 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0457 + J 0.0399 Ohms/1000 ft 0.7934 + J 0.6927 PU Z0 Impedance: 0.1440 + J 0.0983 Ohms/1000 ft 2.50 + J 1.71 PU CBL-0065 150 MDSB-B 152 RP-1B 1 208 150.0 FEET 350 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0333 + J 0.0388 Ohms/1000 ft 11.55 + J 13.45 PU Z0 Impedance: 0.1050 + J 0.0956 Ohms/1000 ft 36.39 + J 33.13 PU CBL-0066 150 MDSB-B 153 RP-1A 1 208 70.0 FEET 350 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0333 + J 0.0388 Ohms/1000 ft 5.39 + J 6.28 PU Z0 Impedance: 0.1050 + J 0.0956 Ohms/1000 ft 16.98 + J 15.46 PU CBL-0067 150 MDSB-B 154 RP-GB 1 208 128.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 7.22 + J 11.21 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 22.75 + J 27.62 PU CBL-0068 150 MDSB-B 155 RP-2B 1 208 70.0 FEET 350 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0333 + J 0.0388 Ohms/1000 ft 5.39 + J 6.28 PU Z0 Impedance: 0.1050 + J 0.0956 Ohms/1000 ft 16.98 + J 15.46 PU CBL-0069 160 MDSB-C 161 CHILLER #1 1 480 80.0 FEET 600 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0200 + J 0.0382 Ohms/1000 ft 0.6944 + J 1.33 PU Z0 Impedance: 0.0630 + J 0.0941 Ohms/1000 ft 2.19 + J 3.27 PU CBL-0070 160 MDSB-C 162 CHILLER #2 1 480 70.0 FEET 600 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0200 + J 0.0382 Ohms/1000 ft 0.6076 + J 1.16 PU Z0 Impedance: 0.0630 + J 0.0941 Ohms/1000 ft 1.91 + J 2.86 PU CBL-0071 121 ATS-E1_L 122 E1DP-GA 1 480 10.0 FEET 350 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0333 + J 0.0388 Ohms/1000 ft 0.1445 + J 0.1684 PU Z0 Impedance: 0.1050 + J 0.0956 Ohms/1000 ft 0.4555 + J 0.4147 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0072 135 E3DP-GA 136 OR CHILLER 1 480 195.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 2.07 + J 3.21 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 6.51 + J 7.90 PU CBL-0073 135 E3DP-GA 140 E3LP-2B 1 480 120.0 FEET 600 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0200 + J 0.0382 Ohms/1000 ft 1.04 + J 1.99 PU Z0 Impedance: 0.0630 + J 0.0941 Ohms/1000 ft 3.28 + J 4.90 PU CBL-0075 117 EDP-GA 120 ATS-E1_E 1 480 285.0 FEET 250 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0457 + J 0.0399 Ohms/1000 ft 5.65 + J 4.94 PU Z0 Impedance: 0.1440 + J 0.0983 Ohms/1000 ft 17.82 + J 12.15 PU CBL-0076 117 EDP-GA 118 ATS-E2_E 1 480 285.0 FEET 600 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0200 + J 0.0382 Ohms/1000 ft 2.47 + J 4.73 PU Z0 Impedance: 0.0630 + J 0.0941 Ohms/1000 ft 7.79 + J 11.64 PU CBL-0077 117 EDP-GA 119 ATS-E3_E 2 480 285.0 FEET 600 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0200 + J 0.0382 Ohms/1000 ft 1.24 + J 2.36 PU Z0 Impedance: 0.0630 + J 0.0941 Ohms/1000 ft 3.90 + J 5.82 PU CBL-0078 116 CLINICAL ADD EM GEN 117 EDP-GA 2 480 50.0 FEET 750 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0174 + J 0.0376 Ohms/1000 ft 0.1888 + J 0.4080 PU Z0 Impedance: 0.0548 + J 0.0926 Ohms/1000 ft 0.5951 + J 1.00 PU CBL-0079 122 E1DP-GA 123 E1LP-GB 1 480 156.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 1.65 + J 2.57 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 5.21 + J 6.32 PU CBL-0080 123 E1LP-GB 124 E1LP-1B 1 480 30.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 2.14 + J 0.5469 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 6.73 + J 1.35 PU CBL-0081 124 E1LP-1B 125 E1LP-2B 1 480 20.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 1.42 + J 0.3646 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 4.49 + J 0.8979 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0082 130 E2LP-1A 131 E2LP-2B 1 480 40.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 2.85 + J 0.7292 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 8.97 + J 1.80 PU CBL-0083 137 E3LP-GA CONTACTOR 138 E3LP-GA 1 480 7.0 FEET 2/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0835 + J 0.0409 Ohms/1000 ft 0.2537 + J 0.1243 PU Z0 Impedance: 0.2632 + J 0.1007 Ohms/1000 ft 0.7995 + J 0.3060 PU CBL-0084 140 E3LP-2B 141 CONTACTOR 1 480 10.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 0.4514 + J 0.1810 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 1.42 + J 0.4457 PU CBL-0086 106 LP-2B 107 ECB 2160 1 480 55.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 2.48 + J 0.9954 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 7.82 + J 2.45 PU CBL-0087 106 LP-2B 108 ECB 2148 1 480 75.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 3.39 + J 1.36 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 10.67 + J 3.34 PU CBL-0088 106 LP-2B 109 ECB 2149 1 480 65.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 2.93 + J 1.18 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 9.25 + J 2.90 PU CBL-0089 106 LP-2B 110 ECB 2163 1 480 40.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 1.81 + J 0.7240 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 5.69 + J 1.78 PU CBL-0091 132 E2LP-2C 133 2143 ECB 1 480 30.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 1.35 + J 0.5430 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 4.27 + J 1.34 PU CBL-0095 241 MAIN SG B 282 TAP 1 208 179.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 10.10 + J 15.68 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 31.82 + J 38.62 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0097 241 MAIN SG B 249 TAP 1 208 260.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 14.66 + J 22.78 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 46.21 + J 56.09 PU CBL-0098 249 TAP 250 LPGB 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0099 249 TAP 253 LP1D JB 1 208 14.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.7896 + J 1.23 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 2.49 + J 3.02 PU CBL-0100 250 LPGB 251 LPGP 1 208 40.0 FEET 4 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.2590 + J 0.0441 Ohms/1000 ft 23.95 + J 4.08 PU Z0 Impedance: 0.8163 + J 0.1086 Ohms/1000 ft 75.47 + J 10.04 PU CBL-0101 253 LP1D JB 254 RP-1D-1 1 208 40.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 2.26 + J 3.50 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 7.11 + J 8.63 PU CBL-0102 254 RP-1D-1 255 RP-1D-2 1 208 5.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.2820 + J 0.4380 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 0.8887 + J 1.08 PU CBL-0103 241 MAIN SG B 242 DP ECB 3 208 30.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 0.8899 + J 0.9084 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 2.80 + J 2.24 PU CBL-0104 241 MAIN SG B 256 TAP 1 208 206.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 11.62 + J 18.05 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 36.62 + J 44.44 PU CBL-0105 256 TAP 257 LP1B 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0106 256 TAP 258 TAP 1 208 12.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.6768 + J 1.05 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 2.13 + J 2.59 PU CBL-0109 258 TAP 259 LP2A 1 208 4.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.4937 + J 0.3634 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 1.56 + J 0.8949 PU CBL-0110 258 TAP 260 LP2D 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0111 241 MAIN SG B 261 TAP 1 208 215.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 12.13 + J 18.83 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 38.22 + J 46.39 PU CBL-0112 261 TAP 262 LP6C 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0113 261 TAP 263 TAP 1 208 12.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.6768 + J 1.05 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 2.13 + J 2.59 PU CBL-0114 263 TAP 264 LP7C 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0115 263 TAP 265 TAP 1 208 12.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.6768 + J 1.05 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 2.13 + J 2.59 PU CBL-0116 265 TAP 266 LP8C 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0117 265 TAP 267 TAP 1 208 12.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.6768 + J 1.05 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 2.13 + J 2.59 PU CBL-0118 267 TAP 268 LP9C1 1 208 2.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 0.7581 + J 0.1942 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 2.39 + J 0.4782 PU CBL-0119 267 TAP 269 LP9C 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0120 241 MAIN SG B 270 TAP 1 208 180.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 10.15 + J 15.77 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 31.99 + J 38.83 PU CBL-0121 271 LPGC-B 272 LPGC-C 1 208 7.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 2.65 + J 0.6795 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 8.36 + J 1.67 PU CBL-0122 270 TAP 271 LPGC-B 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0123 270 TAP 273 LPGC-A 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0124 270 TAP 277 TAP 1 208 14.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.7896 + J 1.23 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 2.49 + J 3.02 PU CBL-0125 277 TAP 279 TAP 1 208 12.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.6768 + J 1.05 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 2.13 + J 2.59 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0126 277 TAP 278 LP1C 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0127 279 TAP 280 LP2C-A 1 208 2.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 0.7581 + J 0.1942 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 2.39 + J 0.4782 PU CBL-0128 279 TAP 281 LP2C 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0129 701 XFMR T-5 SEC 702 BLDG 5 MTR PNL 2 208 50.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 2.22 + J 2.27 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 7.01 + J 5.59 PU CBL-0130 703 PNL D 704 PNL C 1 208 20.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 7.58 + J 1.94 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 23.89 + J 4.78 PU CBL-0131 703 PNL D 705 PNL B 1 208 5.0 FEET 4 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.2590 + J 0.0441 Ohms/1000 ft 2.99 + J 0.5097 PU Z0 Impedance: 0.8163 + J 0.1086 Ohms/1000 ft 9.43 + J 1.26 PU CBL-0132 703 PNL D 706 PNL IN HALL 1 208 40.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 15.16 + J 3.88 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 47.78 + J 9.56 PU CBL-0133 702 BLDG 5 MTR PNL 703 PNL D 1 208 15.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 1.33 + J 1.36 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 4.21 + J 3.36 PU CBL-0134 702 BLDG 5 MTR PNL 707 BLDG 2 1 208 390.0 FEET 1 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1303 + J 0.0427 Ohms/1000 ft 117.46 + J 38.49 PU Z0 Impedance: 0.4107 + J 0.1052 Ohms/1000 ft 370.18 + J 94.80 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0135 702 BLDG 5 MTR PNL 708 RP3 1 208 260.0 FEET 250 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0457 + J 0.0399 Ohms/1000 ft 27.46 + J 23.98 PU Z0 Impedance: 0.1440 + J 0.0983 Ohms/1000 ft 86.56 + J 59.05 PU CBL-0136 702 BLDG 5 MTR PNL 709 RP4 1 208 125.0 FEET 250 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0457 + J 0.0399 Ohms/1000 ft 13.20 + J 11.53 PU Z0 Impedance: 0.1440 + J 0.0983 Ohms/1000 ft 41.61 + J 28.39 PU CBL-0137 282 TAP 283 LP3C 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0138 282 TAP 284 TAP 1 208 12.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.6768 + J 1.05 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 2.13 + J 2.59 PU CBL-0139 284 TAP 285 LP4C 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0140 284 TAP 286 TAP 1 208 12.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.6768 + J 1.05 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 2.13 + J 2.59 PU CBL-0141 286 TAP 287 LP5C 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0142 241 MAIN SG B 288 PPGM-B AC SHOP 1 208 260.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 14.66 + J 22.78 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 46.21 + J 56.09 PU CBL-0143 241 MAIN SG B 289 TAP 1 208 30.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 1.69 + J 2.63 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 5.33 + J 6.47 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0144 289 TAP 290 PPGN-C 1 208 16.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 2.47 + J 1.48 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 7.79 + J 3.64 PU CBL-0145 289 TAP 291 PPGN-B 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0146 289 TAP 293 PPGN-A 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0147 241 MAIN SG B 294 XRAY 2FL 1 208 170.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 15.13 + J 15.44 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 47.67 + J 38.03 PU CBL-0148 241 MAIN SG B 295 TAP 1 208 212.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 18.87 + J 19.26 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 59.45 + J 47.43 PU CBL-0149 295 TAP 296 PNL C 1 208 2.0 FEET 2/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0835 + J 0.0409 Ohms/1000 ft 0.3860 + J 0.1891 PU Z0 Impedance: 0.2632 + J 0.1007 Ohms/1000 ft 1.22 + J 0.4657 PU CBL-0150 295 TAP 297 LP2L 1 208 2.0 FEET 6 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.4100 + J 0.0437 Ohms/1000 ft 1.90 + J 0.2020 PU Z0 Impedance: 1.29 + J 0.1076 Ohms/1000 ft 5.97 + J 0.4975 PU CBL-0151 295 TAP 298 PP2K 1 208 2.0 FEET 2/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0835 + J 0.0409 Ohms/1000 ft 0.3860 + J 0.1891 PU Z0 Impedance: 0.2632 + J 0.1007 Ohms/1000 ft 1.22 + J 0.4657 PU CBL-0152 295 TAP 299 TAP 1 208 24.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 2.14 + J 2.18 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 6.73 + J 5.37 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0153 299 TAP 300 PP4K 1 208 2.0 FEET 2/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0835 + J 0.0409 Ohms/1000 ft 0.3860 + J 0.1891 PU Z0 Impedance: 0.2632 + J 0.1007 Ohms/1000 ft 1.22 + J 0.4657 PU CBL-0154 299 TAP 301 PP5K 1 208 14.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 1.25 + J 1.27 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 3.93 + J 3.13 PU CBL-0156 241 MAIN SG B 302 TAP 1 208 268.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 23.85 + J 24.34 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 75.16 + J 59.96 PU CBL-0157 302 TAP 303 PP10N 1 208 14.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 1.25 + J 1.27 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 3.93 + J 3.13 PU CBL-0158 302 TAP 304 PP9M 1 208 2.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 0.4808 + J 0.1928 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 1.52 + J 0.4748 PU CBL-0160 241 MAIN SG B 305 CAPACITOR B 1 208 40.0 FEET 350 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0333 + J 0.0388 Ohms/1000 ft 3.08 + J 3.59 PU Z0 Impedance: 0.1050 + J 0.0956 Ohms/1000 ft 9.70 + J 8.83 PU CBL-0161 241 MAIN SG B 306 TAP 1 208 254.0 FEET 350 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0333 + J 0.0388 Ohms/1000 ft 19.55 + J 22.78 PU Z0 Impedance: 0.1050 + J 0.0956 Ohms/1000 ft 61.62 + J 56.10 PU CBL-0162 306 TAP 307 LP5B-LH 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0163 306 TAP 308 LP5B-RH 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0164 241 MAIN SG B 309 PPGK 1 208 200.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 30.88 + J 18.49 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 97.32 + J 45.54 PU CBL-0165 241 MAIN SG B 310 TAP 1 208 260.0 FEET 250 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0457 + J 0.0399 Ohms/1000 ft 27.46 + J 23.98 PU Z0 Impedance: 0.1440 + J 0.0983 Ohms/1000 ft 86.56 + J 59.05 PU CBL-0166 310 TAP 312 TAP 1 208 12.0 FEET 250 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0457 + J 0.0399 Ohms/1000 ft 1.27 + J 1.11 PU Z0 Impedance: 0.1440 + J 0.0983 Ohms/1000 ft 3.99 + J 2.73 PU CBL-0167 310 TAP 311 PP6K 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0168 312 TAP 313 PP8K 1 208 14.0 FEET 250 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0457 + J 0.0399 Ohms/1000 ft 1.48 + J 1.29 PU Z0 Impedance: 0.1440 + J 0.0983 Ohms/1000 ft 4.66 + J 3.18 PU CBL-0169 312 TAP 314 PP7K 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0171 171 MAIN SG A 172 PPGM-A AC SHOP 1 208 260.0 FEET 350 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0333 + J 0.0388 Ohms/1000 ft 20.01 + J 23.32 PU Z0 Impedance: 0.1050 + J 0.0956 Ohms/1000 ft 63.07 + J 57.42 PU CBL-0172 171 MAIN SG A 173 TAP 1 208 279.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 15.74 + J 24.44 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 49.59 + J 60.19 PU CBL-0173 171 MAIN SG A 177 TAP 1 208 378.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 21.32 + J 33.11 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 67.19 + J 81.55 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0174 171 MAIN SG A 182 PNL A 1 208 380.0 FEET 350 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0333 + J 0.0388 Ohms/1000 ft 29.25 + J 34.08 PU Z0 Impedance: 0.1050 + J 0.0956 Ohms/1000 ft 92.18 + J 83.92 PU CBL-0175 173 TAP 174 LP7A-1 1 208 3.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.1692 + J 0.2628 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 0.5332 + J 0.6470 PU CBL-0176 173 TAP 175 TAP 1 208 12.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.6768 + J 1.05 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 2.13 + J 2.59 PU CBL-0177 175 TAP 176 LP8B 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0178 177 TAP 178 LP7A 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0179 177 TAP 180 TAP 1 208 12.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.6768 + J 1.05 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 2.13 + J 2.59 PU CBL-0180 178 LP7A 179 LP7A1 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0181 180 TAP 181 LP8A 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0182 171 MAIN SG A 183 LP6B 1 208 266.0 FEET 250 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0457 + J 0.0399 Ohms/1000 ft 28.10 + J 24.53 PU Z0 Impedance: 0.1440 + J 0.0983 Ohms/1000 ft 88.55 + J 60.41 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0183 183 LP6B 184 LP6B2 1 208 2.0 FEET 6 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.4100 + J 0.0437 Ohms/1000 ft 1.90 + J 0.2020 PU Z0 Impedance: 1.29 + J 0.1076 Ohms/1000 ft 5.97 + J 0.4975 PU CBL-0184 171 MAIN SG A 185 TAP 1 208 354.0 FEET 350 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0333 + J 0.0388 Ohms/1000 ft 27.25 + J 31.75 PU Z0 Impedance: 0.1050 + J 0.0956 Ohms/1000 ft 85.87 + J 78.18 PU CBL-0185 185 TAP 186 LP5A-LH 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0186 185 TAP 187 LP5A-RH 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0187 185 TAP 188 LP5A2 1 208 5.0 FEET 8 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.6404 + J 0.0475 Ohms/1000 ft 7.40 + J 0.5490 PU Z0 Impedance: 2.02 + J 0.1170 Ohms/1000 ft 23.32 + J 1.35 PU CBL-0188 171 MAIN SG A 189 TAP 1 208 366.0 FEET 350 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0333 + J 0.0388 Ohms/1000 ft 28.17 + J 32.82 PU Z0 Impedance: 0.1050 + J 0.0956 Ohms/1000 ft 88.78 + J 80.83 PU CBL-0189 171 MAIN SG A 192 TAP 1 208 250.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 30.86 + J 22.71 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 97.25 + J 55.93 PU CBL-0190 171 MAIN SG A 194 PPGL 1 208 270.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 41.69 + J 24.96 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 131.38 + J 61.48 PU CBL-0191 171 MAIN SG A 195 PP2K-B 1 208 210.0 FEET 2/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0835 + J 0.0409 Ohms/1000 ft 40.53 + J 19.85 PU Z0 Impedance: 0.2632 + J 0.1007 Ohms/1000 ft 127.73 + J 48.89 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0192 171 MAIN SG A 196 ELEVATOR TAP 2 208 300.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 8.46 + J 13.14 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 26.66 + J 32.36 PU CBL-0193 189 TAP 190 LP6A-LH 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0194 189 TAP 191 LP6A-RH 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0195 192 TAP 193 PP RM1134 1 208 5.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.2820 + J 0.4380 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 0.8887 + J 1.08 PU CBL-0196 196 ELEVATOR TAP 197 ELE 1 ATS_N 1 208 5.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.6171 + J 0.4542 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 1.94 + J 1.12 PU CBL-0197 196 ELEVATOR TAP 198 ELE 2 ATS_N 1 208 5.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.6171 + J 0.4542 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 1.94 + J 1.12 PU CBL-0198 230 ELE#1 ECB 231 ELE#1 1 208 30.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 3.70 + J 2.73 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 11.67 + J 6.71 PU CBL-0199 234 ELE#2 ECB 235 ELE#2 1 208 30.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 3.70 + J 2.73 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 11.67 + J 6.71 PU CBL-0200 171 MAIN SG A 205 XRAY B 2 208 321.0 FEET 350 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0333 + J 0.0388 Ohms/1000 ft 12.35 + J 14.39 PU Z0 Impedance: 0.1050 + J 0.0956 Ohms/1000 ft 38.95 + J 35.47 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0201 171 MAIN SG A 206 2 208 300.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 8.46 + J 13.14 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 26.66 + J 32.36 PU CBL-0202 206 207 ELE 3 ATS_N 1 208 5.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.6171 + J 0.4542 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 1.94 + J 1.12 PU CBL-0204 171 MAIN SG A 210 TAP 1 208 306.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 17.26 + J 26.81 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 54.39 + J 66.02 PU CBL-0205 210 TAP 211 PPGB 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0206 210 TAP 212 LPGA 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0207 210 TAP 213 TAP 1 208 12.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.6768 + J 1.05 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 2.13 + J 2.59 PU CBL-0208 213 TAP 214 RP-1C-1 1 208 5.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.2820 + J 0.4380 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 0.8887 + J 1.08 PU CBL-0209 214 RP-1C-1 215 RP-1C-2 1 208 5.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.2820 + J 0.4380 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 0.8887 + J 1.08 PU CBL-0210 216 TAP 217 LP2A-LH 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0211 216 TAP 218 LP2A-RH 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0212 216 TAP 219 TAP 1 208 12.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.6768 + J 1.05 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 2.13 + J 2.59 PU CBL-0214 171 MAIN SG A 216 TAP 1 208 318.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 17.93 + J 27.86 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 56.52 + J 68.61 PU CBL-0215 219 TAP 220 LP3A-LH 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0216 219 TAP 221 LP3A-RH 1 208 2.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.2469 + J 0.1817 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.7780 + J 0.4474 PU CBL-0217 171 MAIN SG A 223 LP4A-1 2 208 342.0 FEET 250 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0457 + J 0.0399 Ohms/1000 ft 18.06 + J 15.77 PU Z0 Impedance: 0.1440 + J 0.0983 Ohms/1000 ft 56.93 + J 38.84 PU CBL-0218 223 LP4A-1 224 LP4A-2 2 208 5.0 FEET 250 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0457 + J 0.0399 Ohms/1000 ft 0.2641 + J 0.2306 PU Z0 Impedance: 0.1440 + J 0.0983 Ohms/1000 ft 0.8323 + J 0.5678 PU CBL-0219 171 MAIN SG A 225 TAP 1 208 218.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 12.29 + J 19.10 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 38.75 + J 47.03 PU CBL-0221 225 TAP 226 LP2B 1 208 12.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.6768 + J 1.05 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 2.13 + J 2.59 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0224 171 MAIN SG A 227 E2-4B 1 208 242.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 13.65 + J 21.20 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 43.01 + J 52.21 PU CBL-0225 171 MAIN SG A 228 CAPACITOR A 1 208 40.0 FEET 350 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0333 + J 0.0388 Ohms/1000 ft 3.08 + J 3.59 PU Z0 Impedance: 0.1050 + J 0.0956 Ohms/1000 ft 9.70 + J 8.83 PU CBL-0227 320 AC SWBD 321 LPGE 1 480 90.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 2.09 + J 1.54 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 6.57 + J 3.78 PU CBL-0229 321 LPGE 322 LP-8E 1 480 300.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 21.35 + J 5.47 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 67.30 + J 13.47 PU CBL-0230 320 AC SWBD 324 MCC IN AC ROOM 1 480 18.0 FEET 1600 Copper Duct Material: Busway Insulation Type: Epoxy Insulation Class: Class B +/- Impedance: 0.0100 + J 0.0055 Ohms/1000 ft 0.0781 + J 0.0430 PU Z0 Impedance: 0.5000 + J 0.2750 Ohms/1000 ft 3.91 + J 2.15 PU CBL-0231 229 ELE 1 ATS_L 230 ELE#1 ECB 1 208 57.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 7.04 + J 5.18 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 22.17 + J 12.75 PU CBL-0232 233 ELE 2 ATS_L 234 ELE#2 ECB 1 208 57.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 7.04 + J 5.18 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 22.17 + J 12.75 PU CBL-0235 901 BLDG 7 MN SWGR 902 BLDG 7 ATS_N 4 480 25.0 FEET 600 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0200 + J 0.0382 Ohms/1000 ft 0.0543 + J 0.1036 PU Z0 Impedance: 0.0630 + J 0.0941 Ohms/1000 ft 0.1709 + J 0.2553 PU CBL-0236 910 BLDG 7 ATS_L 911 ATS 7 ECB 1 480 10.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.1059 + J 0.1645 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 0.3338 + J 0.4051 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0237 912 MCC 913 ELEVATOR ECB 1 480 15.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 0.4349 + J 0.2604 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 1.37 + J 0.6413 PU CBL-0238 913 ELEVATOR ECB 914 ELE 1 480 155.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 4.49 + J 2.69 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 14.16 + J 6.63 PU CBL-0239 901 BLDG 7 MN SWGR 905 LOADING DOCK ECB 1 480 250.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 17.80 + J 4.56 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 56.08 + J 11.22 PU CBL-0240 901 BLDG 7 MN SWGR 906 WAREHOUSE ECB 1 480 100.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 1.67 + J 1.71 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 5.27 + J 4.20 PU CBL-0241 911 ATS 7 ECB 912 MCC 1 480 100.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 1.06 + J 1.64 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 3.34 + J 4.05 PU CBL-0242 907 BLDG 7 EMERG GEN 908 ATS BLDG 7_E 4 480 60.0 FEET 600 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0200 + J 0.0382 Ohms/1000 ft 0.1302 + J 0.2487 PU Z0 Impedance: 0.0630 + J 0.0941 Ohms/1000 ft 0.4104 + J 0.6125 PU CBL-0244 900 XFMR T-7 SEC 901 BLDG 7 MN SWGR 6 480 35.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.0618 + J 0.0960 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 0.1947 + J 0.2363 PU CBL-0245 901 BLDG 7 MN SWGR 903 BLDG 10 1 480 170.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 3.94 + J 2.90 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 12.42 + J 7.14 PU CBL-0246 901 BLDG 7 MN SWGR 904 BLDG 6 ECB 1 480 180.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 4.17 + J 3.07 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 13.15 + J 7.56 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0247 903 BLDG 10 903A 1 480 5.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.1159 + J 0.0853 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.3652 + J 0.2100 PU CBL-0249 915 916 PNL 1 1 208 5.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 1.20 + J 0.4819 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 3.79 + J 1.19 PU CBL-0251 916 PNL 1 918 PNL M 1 208 42.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 15.92 + J 4.08 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 50.17 + J 10.04 PU CBL-0252 916 PNL 1 919 PNL K 1 208 20.0 FEET 4 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.2590 + J 0.0441 Ohms/1000 ft 11.97 + J 2.04 PU Z0 Impedance: 0.8163 + J 0.1086 Ohms/1000 ft 37.73 + J 5.02 PU CBL-0253 916 PNL 1 920 PNL J 1 208 110.0 FEET 6 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.4100 + J 0.0437 Ohms/1000 ft 104.24 + J 11.11 PU Z0 Impedance: 1.29 + J 0.1076 Ohms/1000 ft 328.53 + J 27.36 PU CBL-0254 916 PNL 1 922 NEW OFFICE ECB 1 208 5.0 FEET 250 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0457 + J 0.0399 Ohms/1000 ft 0.5282 + J 0.4611 PU Z0 Impedance: 0.1440 + J 0.0983 Ohms/1000 ft 1.66 + J 1.14 PU CBL-0255 502 CRITICAL SWBD BLDG #18 505 LP1 1 208 25.0 FEET 2/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0835 + J 0.0409 Ohms/1000 ft 4.83 + J 2.36 PU Z0 Impedance: 0.2632 + J 0.1007 Ohms/1000 ft 15.21 + J 5.82 PU CBL-0257 523 ATS 4_L 524 LP2 1 208 5.0 FEET 6 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.4100 + J 0.0437 Ohms/1000 ft 4.74 + J 0.5050 PU Z0 Impedance: 1.29 + J 0.1076 Ohms/1000 ft 14.93 + J 1.24 PU CBL-0262 502 CRITICAL SWBD BLDG #18 504 ATS 3_N 1 208 135.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 7.61 + J 11.83 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 24.00 + J 29.13 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0263 521 ATS 3_L 522 ELE 4 ECB 1 208 1.000 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.0564 + J 0.0876 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 0.1777 + J 0.2157 PU CBL-0264 502 CRITICAL SWBD BLDG #18 508 ATS 6_N 1 208 25.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 6.01 + J 2.41 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 18.94 + J 5.93 PU CBL-0265 529 ATS 6_L 530 LP5-N1 "HEMO" 1 208 300.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 72.12 + J 28.92 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 227.27 + J 71.21 PU CBL-0266 417 ATS 7_L 418 EDP1 2 208 8.0 FEET 350 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0333 + J 0.0388 Ohms/1000 ft 0.3079 + J 0.3587 PU Z0 Impedance: 0.1050 + J 0.0956 Ohms/1000 ft 0.9703 + J 0.8834 PU CBL-0269 418 EDP1 419 PLGN 1 208 170.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 64.44 + J 16.50 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 203.09 + J 40.65 PU CBL-0270 418 EDP1 425 PL3N 1 208 206.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 78.09 + J 20.00 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 246.10 + J 49.25 PU CBL-0272 418 EDP1 427 PL4N 1 208 218.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 82.64 + J 21.16 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 260.43 + J 52.12 PU CBL-0273 418 EDP1 420 PL5N 1 208 230.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 87.19 + J 22.33 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 274.77 + J 54.99 PU CBL-0276 418 EDP1 422 PL6N 1 208 242.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 91.73 + J 23.49 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 289.10 + J 57.86 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0278 418 EDP1 424 PL7N 1 208 254.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 96.28 + J 24.66 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 303.44 + J 60.73 PU CBL-0280 418 EDP1 426 PL8N 1 208 266.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 100.83 + J 25.82 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 317.77 + J 63.60 PU CBL-0282 434 ATS 8_L 435 EDP 1 208 4.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.4937 + J 0.3634 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 1.56 + J 0.8949 PU CBL-0283 435 EDP 436 LPGN-N 1 208 170.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 64.44 + J 16.50 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 203.09 + J 40.65 PU CBL-0286 435 EDP 437 LP1N-N 1 208 182.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 68.99 + J 17.67 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 217.42 + J 43.51 PU CBL-0287 435 EDP 438 LP2N-N 1 208 194.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 73.54 + J 18.83 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 231.76 + J 46.38 PU CBL-0290 435 EDP 439 LP3N-N 1 208 206.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 78.09 + J 20.00 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 246.10 + J 49.25 PU CBL-0291 435 EDP 440 LP4N-N 1 208 218.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 82.64 + J 21.16 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 260.43 + J 52.12 PU CBL-0294 435 EDP 441 LP5N-N 1 208 230.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 87.19 + J 22.33 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 274.77 + J 54.99 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0295 435 EDP 442 LP6N-N 1 208 242.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 91.73 + J 23.49 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 289.10 + J 57.86 PU CBL-0298 435 EDP 443 LP7N-N 1 208 254.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 96.28 + J 24.66 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 303.44 + J 60.73 PU CBL-0299 435 EDP 444 LP8N-N 1 208 266.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 100.83 + J 25.82 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 317.77 + J 63.60 PU CBL-0301 432 ATS 9_L 433 LP9C 1 208 220.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 83.39 + J 21.36 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 262.80 + J 52.58 PU CBL-0302 509 ATS 1_L 510 EDP-E 1 208 15.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 5.69 + J 1.46 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 17.92 + J 3.59 PU CBL-0303 510 EDP-E 511 EDPA 1 208 5.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 1.90 + J 0.4854 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 5.97 + J 1.20 PU CBL-0304 510 EDP-E 512A TAP 1 208 145.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 34.86 + J 13.98 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 109.86 + J 34.42 PU CBL-0305 512A TAP 513 LPGN-0 1 208 12.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 2.88 + J 1.16 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 9.09 + J 2.85 PU CBL-0306 512A TAP 514A TAP 1 208 12.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 2.88 + J 1.16 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 9.09 + J 2.85 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0307 514A TAP 515 LP3N-0 1 208 12.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 2.88 + J 1.16 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 9.09 + J 2.85 PU CBL-0309 510 EDP-E 516A TAP 1 208 181.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 68.61 + J 17.57 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 216.23 + J 43.28 PU CBL-0310 516A TAP 517A TAP 1 208 12.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 4.55 + J 1.16 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 14.34 + J 2.87 PU CBL-0311 517A TAP 518A TAP 1 208 12.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 4.55 + J 1.16 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 14.34 + J 2.87 PU CBL-0312 518A TAP 519A TAP 1 208 12.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 4.55 + J 1.16 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 14.34 + J 2.87 PU CBL-0313 519A TAP 520 LP8N-0 1 208 12.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 4.55 + J 1.16 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 14.34 + J 2.87 PU CBL-0318 453 UNMARKED PANEL 454 POWER PANEL 1 208 5.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.6171 + J 0.4542 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 1.94 + J 1.12 PU CBL-0319 453 UNMARKED PANEL 456 LP-1 1 208 4.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 1.52 + J 0.3883 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 4.78 + J 0.9564 PU CBL-0320 453 UNMARKED PANEL 457 PNL A (LP-2) 1 208 160.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 60.65 + J 15.53 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 191.14 + J 38.25 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0321 453 UNMARKED PANEL 459 PNL B (OL) 1 208 160.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 60.65 + J 15.53 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 191.14 + J 38.25 PU CBL-0322 450 XFMR T-13A SEC 451 BUG 2 208 35.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.9870 + J 1.53 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 3.11 + J 3.78 PU CBL-0324 453 UNMARKED PANEL 458 NEW EQ CTR 1 208 60.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 22.74 + J 5.82 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 71.68 + J 14.35 PU CBL-0328 832 BLDG 15 EMERG GEN 833 2 208 16.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.4512 + J 0.7008 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 1.42 + J 1.73 PU CBL-0330 834 ATS 15_L 835 EMER DISTRIBUTION PANEL 2 208 8.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 0.6176 + J 0.3698 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 1.95 + J 0.9108 PU CBL-0332 835 EMER DISTRIBUTION PANEL 837 KENNEL (K-EP BLDG 10) 1 208 120.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 45.49 + J 11.65 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 143.36 + J 28.69 PU CBL-0334 835 EMER DISTRIBUTION PANEL 839 GEN RM PNL 1 208 8.0 FEET 8 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.6404 + J 0.0475 Ohms/1000 ft 11.84 + J 0.8783 PU Z0 Impedance: 2.02 + J 0.1170 Ohms/1000 ft 37.32 + J 2.16 PU CBL-0335 834 ATS 15_L 840 DATA CENTER 2 208 30.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.8460 + J 1.31 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 2.67 + J 3.24 PU CBL-0337 830 ATS 15 ECB 831 ATS 15_N 2 208 30.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.8460 + J 1.31 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 2.67 + J 3.24 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0338 802 MN TAP 830 ATS 15 ECB 2 208 8.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.2256 + J 0.3504 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 0.7110 + J 0.8630 PU CBL-0339 801 XFMR T-15 SEC 802 MN TAP 4 208 20.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.2820 + J 0.4380 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 0.8887 + J 1.08 PU CBL-0340 802 MN TAP 803 BLDG 15 SWGR 4 208 0.100 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.0014 + J 0.0022 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 0.0044 + J 0.0054 PU CBL-0354 827 J BOX 828 PNL G 4 208 5.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 0.1930 + J 0.1156 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 0.6082 + J 0.2846 PU CBL-0355 827 J BOX 829 PNL H 4 208 10.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 0.3860 + J 0.2311 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 1.22 + J 0.5692 PU CBL-0356 824 J BOX 825 PNL I 1 208 5.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 0.7720 + J 0.4623 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 2.43 + J 1.14 PU CBL-0357 824 J BOX 826 PNL J 1 208 10.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 1.54 + J 0.9246 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 4.87 + J 2.28 PU CBL-0358 816 J BOX 817 PNL K 1 208 5.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 0.7720 + J 0.4623 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 2.43 + J 1.14 PU CBL-0362 805 J BOX 806 2LP 1 208 15.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 5.69 + J 1.46 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 17.92 + J 3.59 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0365 821 J BOX 822 PNL E 1 208 5.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 0.7720 + J 0.4623 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 2.43 + J 1.14 PU CBL-0366 821 J BOX 823 PNL F 1 208 10.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 1.54 + J 0.9246 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 4.87 + J 2.28 PU CBL-0367 819 J BOX 820 PNL D 1 208 10.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 1.54 + J 0.9246 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 4.87 + J 2.28 PU CBL-0368 803 BLDG 15 SWGR 808 J BOX 1 208 75.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 11.58 + J 6.93 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 36.49 + J 17.08 PU CBL-0369 816 J BOX 818 PNL M 1 208 10.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 1.54 + J 0.9246 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 4.87 + J 2.28 PU CBL-0370 840 DATA CENTER 841 MAIN PANEL 2 208 80.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 2.26 + J 3.50 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 7.11 + J 8.63 PU CBL-0371 841 MAIN PANEL 842 RP1 1 208 20.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 4.81 + J 1.93 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 15.15 + J 4.75 PU CBL-0372 841 MAIN PANEL 843 RDU 1 208 60.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 7.41 + J 5.45 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 23.34 + J 13.42 PU CBL-0373 841 MAIN PANEL 844 CRAC 2-1 1 208 30.0 FEET 3 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.2050 + J 0.0430 Ohms/1000 ft 14.22 + J 2.98 PU Z0 Impedance: 0.6461 + J 0.1059 Ohms/1000 ft 44.80 + J 7.34 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0374 841 MAIN PANEL 845 CRAC 2-2 1 208 60.0 FEET 3 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.2050 + J 0.0430 Ohms/1000 ft 28.43 + J 5.96 PU Z0 Impedance: 0.6461 + J 0.1059 Ohms/1000 ft 89.60 + J 14.69 PU CBL-0375 841 MAIN PANEL 846 CRAC 2-3 1 208 80.0 FEET 3 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.2050 + J 0.0430 Ohms/1000 ft 37.91 + J 7.95 PU Z0 Impedance: 0.6461 + J 0.1059 Ohms/1000 ft 119.47 + J 19.58 PU CBL-0376 810 SPLICE BOX ON WALL 811 RM 213 1 208 40.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 15.16 + J 3.88 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 47.79 + J 9.56 PU CBL-0377 803 BLDG 15 SWGR 816 J BOX 1 208 90.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 13.90 + J 8.32 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 43.79 + J 20.49 PU CBL-0378 803 BLDG 15 SWGR 824 J BOX 1 208 110.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 16.98 + J 10.17 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 53.53 + J 25.05 PU CBL-0379 803 BLDG 15 SWGR 827 J BOX 1 208 130.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 20.07 + J 12.02 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 63.26 + J 29.60 PU CBL-0380 460 XFMR T-13B SEC 461 NON-FUSED DISCONNECT 1 208 20.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 1.78 + J 1.82 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 5.61 + J 4.47 PU CBL-0381 461 NON-FUSED DISCONNECT 462 CP1 1 208 70.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 6.23 + J 6.36 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 19.63 + J 15.66 PU CBL-0382 453 UNMARKED PANEL 455 400A DISCONNECT 1 208 140.0 FEET 250 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0457 + J 0.0399 Ohms/1000 ft 14.79 + J 12.91 PU Z0 Impedance: 0.1440 + J 0.0983 Ohms/1000 ft 46.60 + J 31.81 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0383 502 CRITICAL SWBD BLDG #18 503 ATS 1_N 1 208 145.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 22.39 + J 13.41 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 70.56 + J 33.02 PU CBL-0384 242 DP ECB 243 PANEL DP 3 208 6.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 0.1780 + J 0.1817 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 0.5609 + J 0.4474 PU CBL-0385 243 PANEL DP 246 ATS 8_N 1 208 43.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 5.31 + J 3.91 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 16.73 + J 9.62 PU CBL-0386 243 PANEL DP 244 ATS 7_N 2 208 43.0 FEET 350 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0333 + J 0.0388 Ohms/1000 ft 1.65 + J 1.93 PU Z0 Impedance: 0.1050 + J 0.0956 Ohms/1000 ft 5.22 + J 4.75 PU CBL-0387 243 PANEL DP 245 ATS 9_N 1 208 43.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 5.31 + J 3.91 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 16.73 + J 9.62 PU CBL-0389 243 PANEL DP 247 ATS 10_N 1 208 6.0 FEET 250 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0457 + J 0.0399 Ohms/1000 ft 0.6338 + J 0.5533 PU Z0 Impedance: 0.1440 + J 0.0983 Ohms/1000 ft 2.00 + J 1.36 PU CBL-0390 243 PANEL DP 248 LP3 1 208 210.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 50.48 + J 20.24 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 159.09 + J 49.85 PU CBL-0391 401 BLDG 18 EMERG GEN 402 MAIN BRKR 5 208 20.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 0.3560 + J 0.3634 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 1.12 + J 0.8949 PU CBL-0392 402 MAIN BRKR 403 CRITICAL BRKR 3 208 5.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 0.1483 + J 0.1514 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 0.4674 + J 0.3729 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0393 402 MAIN BRKR 410 DPE BRKR 3 208 25.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 0.7416 + J 0.7570 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 2.34 + J 1.86 PU CBL-0394 403 CRITICAL BRKR 404 BLDG18 CRITICAL EMERGENCY 3 208 30.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 0.8899 + J 0.9084 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 2.80 + J 2.24 PU CBL-0396 404 BLDG18 CRITICAL EMERGENCY 406 ATS 3_E 1 208 130.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 7.33 + J 11.39 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 23.11 + J 28.05 PU CBL-0397 404 BLDG18 CRITICAL EMERGENCY 409 ATS 6_E 1 208 20.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 4.81 + J 1.93 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 15.15 + J 4.75 PU CBL-0398 404 BLDG18 CRITICAL EMERGENCY 407 ATS 4_E 1 208 20.0 FEET 6 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.4100 + J 0.0437 Ohms/1000 ft 18.95 + J 2.02 PU Z0 Impedance: 1.29 + J 0.1076 Ohms/1000 ft 59.73 + J 4.98 PU CBL-0399 502 CRITICAL SWBD BLDG #18 507 ATS 2_N 1 208 25.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 1.41 + J 2.19 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 4.44 + J 5.39 PU CBL-0400 525 ATS 2_L 526 AOV 1 208 140.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 7.90 + J 12.26 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 24.88 + J 30.20 PU CBL-0401 404 BLDG18 CRITICAL EMERGENCY 408 ATS 2_E 1 208 20.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 1.13 + J 1.75 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 3.55 + J 4.31 PU CBL-0402 505 LP1 506 ATS 4_N 1 208 5.0 FEET 6 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.4100 + J 0.0437 Ohms/1000 ft 4.74 + J 0.5050 PU Z0 Impedance: 1.29 + J 0.1076 Ohms/1000 ft 14.93 + J 1.24 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0403 526 AOV 527 KP ECB 1 208 5.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 1.20 + J 0.4819 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 3.79 + J 1.19 PU CBL-0404 527 KP ECB 528 KP 1 208 20.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 4.81 + J 1.93 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 15.15 + J 4.75 PU CBL-0406 410 DPE BRKR 411 DPE 3 208 150.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 4.45 + J 4.54 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 14.02 + J 11.19 PU CBL-0407 411 DPE 412 ATS 7_E 2 208 10.0 FEET 350 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0333 + J 0.0388 Ohms/1000 ft 0.3848 + J 0.4484 PU Z0 Impedance: 0.1050 + J 0.0956 Ohms/1000 ft 1.21 + J 1.10 PU CBL-0408 411 DPE 413 ATS 9_E 1 208 4.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.4937 + J 0.3634 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 1.56 + J 0.8949 PU CBL-0409 411 DPE 415 ATS 8_E 1 208 8.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.9874 + J 0.7267 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 3.11 + J 1.79 PU CBL-0410 411 DPE 416 ATS 10_E 1 208 43.0 FEET 250 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0457 + J 0.0399 Ohms/1000 ft 4.54 + J 3.97 PU Z0 Impedance: 0.1440 + J 0.0983 Ohms/1000 ft 14.32 + J 9.77 PU CBL-0411 418 EDP1 429 E2-4W SEC#1 1 208 290.0 FEET 250 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0457 + J 0.0399 Ohms/1000 ft 30.63 + J 26.75 PU Z0 Impedance: 0.1440 + J 0.0983 Ohms/1000 ft 96.54 + J 65.86 PU CBL-0412 922 NEW OFFICE ECB 923 NEW OFFICE PANEL (Panel A) 1 208 80.0 FEET 250 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0457 + J 0.0399 Ohms/1000 ft 8.45 + J 7.38 PU Z0 Impedance: 0.1440 + J 0.0983 Ohms/1000 ft 26.63 + J 18.17 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0414 803 BLDG 15 SWGR 819 J BOX 1 208 90.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 13.90 + J 8.32 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 43.79 + J 20.49 PU CBL-0415 803 BLDG 15 SWGR 821 J BOX 1 208 110.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 16.98 + J 10.17 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 53.53 + J 25.05 PU CBL-0416 808 J BOX 809 PNL A 1 208 5.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 0.7720 + J 0.4623 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 2.43 + J 1.14 PU CBL-0417 808 J BOX 810 SPLICE BOX ON WALL 1 208 120.0 FEET 2/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0835 + J 0.0409 Ohms/1000 ft 23.16 + J 11.34 PU Z0 Impedance: 0.2632 + J 0.1007 Ohms/1000 ft 72.99 + J 27.94 PU CBL-0418 803 BLDG 15 SWGR 815 ELE DISC 1 208 38.0 FEET 1 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1303 + J 0.0427 Ohms/1000 ft 11.44 + J 3.75 PU Z0 Impedance: 0.4107 + J 0.1052 Ohms/1000 ft 36.07 + J 9.24 PU CBL-0420 330 XFMR T-1-4 SEC 331 DIETETICS ECB 2 208 70.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 1.97 + J 3.07 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 6.22 + J 7.55 PU CBL-0422 418 EDP1 421 PL1N 1 208 182.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 68.99 + J 17.67 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 217.42 + J 43.51 PU CBL-0423 418 EDP1 423 PL2N 1 208 194.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 73.54 + J 18.83 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 231.76 + J 46.38 PU CBL-0424 418 EDP1 428 EC3 1 208 250.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 22.25 + J 22.71 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 70.11 + J 55.93 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0426 418 EDP1 430 CB3W 1 208 280.0 FEET 250 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0457 + J 0.0399 Ohms/1000 ft 29.58 + J 25.82 PU Z0 Impedance: 0.1440 + J 0.0983 Ohms/1000 ft 93.21 + J 63.59 PU CBL-0427 430 CB3W 431 CBME 1 208 4.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 1.52 + J 0.3883 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 4.78 + J 0.9564 PU CBL-0428 803 BLDG 15 SWGR 805 J BOX 1 208 111.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 42.08 + J 10.78 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 132.61 + J 26.54 PU CBL-0430 805 J BOX 807 LP1 (ILD) 1 208 1.000 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 0.3791 + J 0.0971 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 1.19 + J 0.2390 PU CBL-0432 803 BLDG 15 SWGR 813 BLDG 10 GARAGE 1 208 127.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 15.68 + J 11.54 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 49.40 + J 28.41 PU CBL-0433 340 XRAY SUBSTATION 341 PANEL A 3 480 321.0 FEET 350 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0333 + J 0.0388 Ohms/1000 ft 1.55 + J 1.80 PU Z0 Impedance: 0.1050 + J 0.0956 Ohms/1000 ft 4.88 + J 4.44 PU CBL-0437 331 DIETETICS ECB 332 KDP 2 208 8.0 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.2256 + J 0.3504 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 0.7110 + J 0.8630 PU CBL-0438 332 KDP 333 FOOD TRAY 1 208 110.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 26.44 + J 10.60 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 83.33 + J 26.11 PU CBL-0439 332 KDP 334 KPA 1 208 110.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 16.98 + J 10.17 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 53.53 + J 25.05 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0440 332 KDP 335 KPD 1 208 110.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 16.98 + J 10.17 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 53.53 + J 25.05 PU CBL-0441 332 KDP 336 KLP 1 208 70.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 16.83 + J 6.75 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 53.03 + J 16.62 PU CBL-0442 332 KDP 337 UTIL DIST 1 208 90.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 21.63 + J 8.67 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 68.18 + J 21.36 PU CBL-0443 332 KDP 338 PP 1 208 40.0 FEET 3/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0668 + J 0.0400 Ohms/1000 ft 6.18 + J 3.70 PU Z0 Impedance: 0.2105 + J 0.0985 Ohms/1000 ft 19.46 + J 9.11 PU CBL-0445 601 BLDG 17 MN 605 PNL C 1 208 128.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THW Insulation Class: +/- Impedance: 0.0534 + J 0.0414 Ohms/1000 ft 15.80 + J 12.25 PU Z0 Impedance: 0.1683 + J 0.1020 Ohms/1000 ft 49.79 + J 30.17 PU CBL-0446 601 BLDG 17 MN 603 PNL A 1 208 240.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 29.62 + J 21.80 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 93.36 + J 53.69 PU CBL-0447 601 BLDG 17 MN 604 PNL B 1 208 232.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 28.64 + J 21.07 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 90.24 + J 51.90 PU CBL-0448 611 612 BLDG 17 EM CB 2 208 18.0 FEET 350 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0333 + J 0.0388 Ohms/1000 ft 0.6927 + J 0.8071 PU Z0 Impedance: 0.1050 + J 0.0956 Ohms/1000 ft 2.18 + J 1.99 PU CBL-0449 612 BLDG 17 EM CB 613 2 208 8.0 FEET 350 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0333 + J 0.0388 Ohms/1000 ft 0.3079 + J 0.3587 PU Z0 Impedance: 0.1050 + J 0.0956 Ohms/1000 ft 0.9703 + J 0.8834 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0451 620 EM MAIN 621 EM 1 208 20.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 7.58 + J 1.94 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 23.89 + J 4.78 PU CBL-0453 616 AE 617 CONTACTOR AE 1 208 8.0 FEET 6 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.4100 + J 0.0437 Ohms/1000 ft 7.58 + J 0.8081 PU Z0 Impedance: 1.29 + J 0.1076 Ohms/1000 ft 23.89 + J 1.99 PU CBL-0456 606 RPB 607 RPA 1 208 4.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 0.3560 + J 0.3634 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 1.12 + J 0.8949 PU CBL-0457 601 BLDG 17 MN 606 RPB 1 208 85.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 7.56 + J 7.72 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 23.84 + J 19.02 PU CBL-0458 614 ATS BLDG 17_L 620 EM MAIN 1 208 10.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 3.79 + J 0.9708 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 11.95 + J 2.39 PU CBL-0459 614 ATS BLDG 17_L 615 EDP (BLDG 17) 2 208 5.0 FEET 350 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0333 + J 0.0388 Ohms/1000 ft 0.1924 + J 0.2242 PU Z0 Impedance: 0.1050 + J 0.0956 Ohms/1000 ft 0.6065 + J 0.5521 PU CBL-0460 451 BUG 453 UNMARKED PANEL 2 208 0.100 FEET 500 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0244 + J 0.0379 Ohms/1000 ft 0.0028 + J 0.0044 PU Z0 Impedance: 0.0769 + J 0.0933 Ohms/1000 ft 0.0089 + J 0.0108 PU CBL-0461 452 EMG PANEL 451 BUG 1 208 5.0 FEET 4 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.2590 + J 0.0441 Ohms/1000 ft 2.99 + J 0.5097 PU Z0 Impedance: 0.8163 + J 0.1086 Ohms/1000 ft 9.43 + J 1.26 PU CBL-0462 601 BLDG 17 MN 608 MDS (ICEHOUSE) 2 208 150.0 FEET 350 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0333 + J 0.0388 Ohms/1000 ft 5.77 + J 6.73 PU Z0 Impedance: 0.1050 + J 0.0956 Ohms/1000 ft 18.19 + J 16.56 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0463 608 MDS (ICEHOUSE) 609 21-LP 1 208 30.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 11.37 + J 2.91 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 35.84 + J 7.17 PU CBL-0464 609 21-LP 610 UNLABELED PNL 1 208 5.0 FEET 3 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.2050 + J 0.0430 Ohms/1000 ft 2.37 + J 0.4969 PU Z0 Impedance: 0.6461 + J 0.1059 Ohms/1000 ft 7.47 + J 1.22 PU CBL-0465 127 E2DP-GA 128 ECB 1 480 325.0 FEET 1 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1303 + J 0.0427 Ohms/1000 ft 18.38 + J 6.02 PU Z0 Impedance: 0.4107 + J 0.1052 Ohms/1000 ft 57.93 + J 14.83 PU CBL-0466 916 PNL 1 917 PANEL PP02 1 208 20.0 FEET 4 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.2590 + J 0.0441 Ohms/1000 ft 11.97 + J 2.04 PU Z0 Impedance: 0.8163 + J 0.1086 Ohms/1000 ft 37.73 + J 5.02 PU CBL-0467 601 BLDG 17 MN 602 ATS BLDG 17_N 2 208 38.0 FEET 350 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0333 + J 0.0388 Ohms/1000 ft 1.46 + J 1.70 PU Z0 Impedance: 0.1050 + J 0.0956 Ohms/1000 ft 4.61 + J 4.20 PU CBL-0469 916 PNL 1 921 GARAGE PANEL 1 208 150.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 56.86 + J 14.56 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 179.20 + J 35.86 PU CBL-0470 615 EDP (BLDG 17) 616 AE 1 208 240.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 90.98 + J 23.30 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 286.71 + J 57.38 PU CBL-0471 615 EDP (BLDG 17) 618 BE 1 208 232.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 87.94 + J 22.52 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 277.16 + J 55.47 PU CBL-0472 615 EDP (BLDG 17) 619 CE 1 208 128.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 48.52 + J 12.43 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 152.91 + J 30.60 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0476 445 ATS 10_L 446 EE3 1 208 210.0 FEET 250 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0457 + J 0.0399 Ohms/1000 ft 22.18 + J 19.37 PU Z0 Impedance: 0.1440 + J 0.0983 Ohms/1000 ft 69.91 + J 47.69 PU CBL-0477 320 AC SWBD 323 HP-9M 1 480 320.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 7.42 + J 5.46 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 23.38 + J 13.44 PU CBL-0478 803 BLDG 15 SWGR 812 ACP 2 208 25.0 FEET 250 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0457 + J 0.0399 Ohms/1000 ft 1.32 + J 1.15 PU Z0 Impedance: 0.1440 + J 0.0983 Ohms/1000 ft 4.16 + J 2.84 PU CBL-0479 812 ACP 812A CHILLER 1 208 50.0 FEET 300 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0385 + J 0.0393 Ohms/1000 ft 4.45 + J 4.54 PU Z0 Impedance: 0.1213 + J 0.0968 Ohms/1000 ft 14.02 + J 11.19 PU CBL-0480 251 LPGP 252 LP-GP 1 208 70.0 FEET 4 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.2590 + J 0.0441 Ohms/1000 ft 41.91 + J 7.14 PU Z0 Impedance: 0.8163 + J 0.1086 Ohms/1000 ft 132.07 + J 17.57 PU CBL-0481 237 ELE#3 ECB 238 ELE#3 1 208 30.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 3.70 + J 2.73 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 11.67 + J 6.71 PU CBL-0482 236 ELE 3 ATS_L 237 ELE#3 ECB 1 208 57.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 7.04 + J 5.18 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 22.17 + J 12.75 PU CBL-0484 205 XRAY B 205D RP2K 1 208 60.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 14.42 + J 5.78 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 45.46 + J 14.24 PU CBL-0486 205 XRAY B 205A RP2G 1 208 50.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 12.02 + J 4.82 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 37.88 + J 11.87 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0487 205 XRAY B 205B 2H 1 208 60.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 14.42 + J 5.78 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 45.46 + J 14.24 PU CBL-0488 205 XRAY B 205C 2J 1 208 60.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 14.42 + J 5.78 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 45.46 + J 14.24 PU CBL-0490 912 MCC 912A PNL LP 1 480 5.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.1159 + J 0.0853 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.3652 + J 0.2101 PU CBL-0496 912 MCC BUS-0531 4 480 25.0 FEET 4/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0534 + J 0.0393 Ohms/1000 ft 0.1449 + J 0.1066 PU Z0 Impedance: 0.1683 + J 0.0968 Ohms/1000 ft 0.4565 + J 0.2626 PU CBL-0499 617 CONTACTOR AE 617A PNL AE1 1 208 4.0 FEET 6 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.4100 + J 0.0437 Ohms/1000 ft 3.79 + J 0.4040 PU Z0 Impedance: 1.29 + J 0.1076 Ohms/1000 ft 11.95 + J 0.9948 PU CBL-0501 195 PP2K-B 195A CONTACTOR 1 208 3.0 FEET 2/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0835 + J 0.0409 Ohms/1000 ft 0.5790 + J 0.2836 PU Z0 Impedance: 0.2632 + J 0.1007 Ohms/1000 ft 1.83 + J 0.6983 PU CBL-0502 195A CONTACTOR 195B PANEL 1 208 3.0 FEET 2/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.0835 + J 0.0409 Ohms/1000 ft 0.5790 + J 0.2836 PU Z0 Impedance: 0.2632 + J 0.1007 Ohms/1000 ft 1.83 + J 0.6983 PU CBL-0505 512A TAP 512 LP1N-0 1 208 2.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 0.4808 + J 0.1928 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 1.52 + J 0.4748 PU CBL-0506 514A TAP 514 LP2N-0 1 208 2.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 0.4808 + J 0.1928 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 1.52 + J 0.4748 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 FEEDER INPUT DATA ========================================================================================================================================= CABLE FEEDER FROM FEEDER TO QTY VOLTS LENGTH FEEDER NAME NAME NAME /PH L-L SIZE TYPE ========================================================================================================================================= CBL-0507 519A TAP 519 LP7N-0 1 208 2.0 FEET 6 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.4100 + J 0.0437 Ohms/1000 ft 1.90 + J 0.2020 PU Z0 Impedance: 1.29 + J 0.1076 Ohms/1000 ft 5.97 + J 0.4974 PU CBL-0508 518A TAP 518 LP6N-0 1 208 2.0 FEET 2 Aluminum Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.2660 + J 0.0420 Ohms/1000 ft 1.23 + J 0.1942 PU Z0 Impedance: 0.8383 + J 0.1034 Ohms/1000 ft 3.88 + J 0.4780 PU CBL-0509 517A TAP 517 LP5N-0 1 208 2.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 0.7581 + J 0.1942 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 2.39 + J 0.4780 PU CBL-0510 516A TAP 516 LP4N-0 1 208 2.0 FEET 2 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1640 + J 0.0420 Ohms/1000 ft 0.7581 + J 0.1942 PU Z0 Impedance: 0.5168 + J 0.1034 Ohms/1000 ft 2.39 + J 0.4780 PU CBL-0511 111 MCC-GB 111A 1 480 25.0 FEET 4 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.2590 + J 0.0441 Ohms/1000 ft 2.81 + J 0.4785 PU Z0 Impedance: 0.8163 + J 0.1086 Ohms/1000 ft 8.86 + J 1.18 PU CBL-0512 111 MCC-GB 111B 1 480 25.0 FEET 4 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.2590 + J 0.0441 Ohms/1000 ft 2.81 + J 0.4785 PU Z0 Impedance: 0.8163 + J 0.1086 Ohms/1000 ft 8.86 + J 1.18 PU CBL-0520 332 KDP BUS-0553 1 208 25.0 FEET 1/0 Copper Duct Material: Magnetic Insulation Type: THHN Insulation Class: +/- Impedance: 0.1040 + J 0.0417 Ohms/1000 ft 6.01 + J 2.41 PU Z0 Impedance: 0.3278 + J 0.1027 Ohms/1000 ft 18.94 + J 5.93 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 TRANSFORMER INPUT DATA ============================================================================================================================================= TRANSFORMER PRIMARY RECORD VOLTS * SECONDARY RECORD VOLTS FULL-LOAD NOMINAL NAME NO NAME L-L NO NAME L-L KVA KVA ============================================================================================================================================= T-1-1 024 SWITCH 141P26 D 12000.0 170 XFMR T-1-1 SEC YG 208.00 750.00 750.00 Pos. Seq. Z%: 1.15 + J 6.05 (Zpu 1.54 + j 8.07 ) Shell Type Zero Seq. Z%: 1.15 + J 6.05 (Sec 1.54 + j 8.07 Pri Open) Taps Pri. 0.000 % Sec. 0.000 % Phase Shift (Pri. Leading Sec.): 30.00 Deg. T-1-2 018 SWITCH 137P19 D 12000.0 240 XFMR T-1-2 SEC YG 208.00 750.00 750.00 Pos. Seq. Z%: 1.16 + J 6.09 (Zpu 1.55 + j 8.12 ) Shell Type Zero Seq. Z%: 1.16 + J 6.09 (Sec 1.55 + j 8.12 Pri Open) Taps Pri. 0.000 % Sec. 0.000 % Phase Shift (Pri. Leading Sec.): 30.00 Deg. T-1-3 020 SWITCH A1 D 12180.0 340 XRAY SUBSTATION YG 480.00 1000.00 750.00 Pos. Seq. Z%: 1.17 + J 6.12 (Zpu 1.56 + j 8.16 ) Shell Type Zero Seq. Z%: 1.17 + J 6.12 (Sec 1.56 + j 8.16 Pri Open) Taps Pri. 0.000 % Sec. 0.000 % Phase Shift (Pri. Leading Sec.): 30.00 Deg. T-1-4 023 XFMR T-1-4 PRI D 12470.0 330 XFMR T-1-4 SEC YG 208.00 300.00 300.00 Pos. Seq. Z%: 1.05 + J 4.37 (Zpu 3.51 + j 14.58 ) Shell Type Zero Seq. Z%: 1.05 + J 4.37 (Sec 3.51 + j 14.58 Pri Open) Taps Pri. 0.000 % Sec. 0.000 % Phase Shift (Pri. Leading Sec.): 30.00 Deg. T-1-5 022 SWITCH B2 D 12000.0 320 AC SWBD YG 480.00 1500.00 1500.00 Pos. Seq. Z%: 0.855 + J 5.59 (Zpu 0.570 + j 3.73 ) Shell Type Zero Seq. Z%: 0.855 + J 5.59 (Sec 0.570 + j 3.73 Pri Open) Taps Pri. 0.000 % Sec. 0.000 % Phase Shift (Pri. Leading Sec.): 30.00 Deg. T-13A 003 XFMR T-13A PRI D 12000.0 450 XFMR T-13A SEC YG 208.00 225.00 225.00 Pos. Seq. Z%: 0.994 + J 3.87 (Zpu 4.42 + j 17.22 ) Shell Type Zero Seq. Z%: 0.994 + J 3.87 (Sec 4.42 + j 17.22 Pri Open) Taps Pri. 0.000 % Sec. 0.000 % Phase Shift (Pri. Leading Sec.): 30.00 Deg.

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 TRANSFORMER INPUT DATA ============================================================================================================================================= TRANSFORMER PRIMARY RECORD VOLTS * SECONDARY RECORD VOLTS FULL-LOAD NOMINAL NAME NO NAME L-L NO NAME L-L KVA KVA ============================================================================================================================================= T-13B 004 XFMR T-13B PRI D 12000.0 460 XFMR T-13B SEC YG 208.00 112.50 112.50 Pos. Seq. Z%: 0.847 + J 2.88 (Zpu 7.54 + j 25.58 ) Shell Type Zero Seq. Z%: 0.847 + J 2.88 (Sec 7.54 + j 25.58 Pri Open) Taps Pri. 0.000 % Sec. 0.000 % Phase Shift (Pri. Leading Sec.): 30.00 Deg. T-15 009 XFMR T-15 PRI D 12540.0 801 XFMR T-15 SEC YG 208.00 750.00 750.00 Pos. Seq. Z%: 1.11 + J 5.80 (Zpu 1.47 + j 7.73 ) Shell Type Zero Seq. Z%: 1.11 + J 5.80 (Sec 1.47 + j 7.73 Pri Open) Taps Pri. 0.000 % Sec. 0.000 % Phase Shift (Pri. Leading Sec.): 30.00 Deg. T-17 006 SWITCH A7 D 12000.0 601 BLDG 17 MN YG 208.00 500.00 500.00 Pos. Seq. Z%: 1.10 + J 5.15 (Zpu 2.20 + j 10.31 ) Shell Type Zero Seq. Z%: 1.10 + J 5.15 (Sec 2.20 + j 10.31 Pri Open) Taps Pri. 0.000 % Sec. 0.000 % Phase Shift (Pri. Leading Sec.): 30.00 Deg. T-19A 025 SWITCH A6 D 12470.0 501 SEC. CRIT. N YG 208.00 225.00 225.00 Pos. Seq. Z%: 0.671 + J 2.62 (Zpu 2.98 + j 11.62 ) Shell Type Zero Seq. Z%: 0.671 + J 2.62 (Sec 2.98 + j 11.62 Pri Open) Taps Pri. 0.000 % Sec. 0.000 % Phase Shift (Pri. Leading Sec.): 30.00 Deg. T-19B 019 SWITCH B6 D 12470.0 500 CRITICAL N. YG 208.00 225.00 225.00 Pos. Seq. Z%: 0.671 + J 2.62 (Zpu 2.98 + j 11.62 ) Shell Type Zero Seq. Z%: 0.671 + J 2.62 (Sec 2.98 + j 11.62 Pri Open) Taps Pri. 0.000 % Sec. 0.000 % Phase Shift (Pri. Leading Sec.): 30.00 Deg. T-1A-1 012 XFMR T-1A-1 PRI D 12000.0 101 MDSB-A YG 480.00 1000.00 1000.00 Pos. Seq. Z%: 0.960 + J 5.49 (Zpu 0.960 + j 5.49 ) Shell Type Zero Seq. Z%: 0.960 + J 5.49 (Sec 0.960 + j 5.49 Pri Open) Taps Pri. 0.000 % Sec. 0.000 % Phase Shift (Pri. Leading Sec.): 30.00 Deg.

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 TRANSFORMER INPUT DATA ============================================================================================================================================= TRANSFORMER PRIMARY RECORD VOLTS * SECONDARY RECORD VOLTS FULL-LOAD NOMINAL NAME NO NAME L-L NO NAME L-L KVA KVA ============================================================================================================================================= T-1A-2 013 XFMR T-1A-2 PRI D 12000.0 150 MDSB-B YG 208.00 500.00 500.00 Pos. Seq. Z%: 0.950 + J 4.46 (Zpu 1.90 + j 8.92 ) Shell Type Zero Seq. Z%: 0.950 + J 4.46 (Sec 1.90 + j 8.92 Pri Open) Taps Pri. 0.000 % Sec. 0.000 % Phase Shift (Pri. Leading Sec.): 30.00 Deg. T-1A-3 014 XFMR T-1A-3 PRI D 12000.0 160 MDSB-C YG 480.00 750.00 750.00 Pos. Seq. Z%: 0.976 + J 5.12 (Zpu 1.30 + j 6.82 ) Shell Type Zero Seq. Z%: 0.976 + J 5.12 (Sec 1.30 + j 6.82 Pri Open) Taps Pri. 0.000 % Sec. 0.000 % Phase Shift (Pri. Leading Sec.): 30.00 Deg. T-5 008 SWITCH A4 D 12000.0 701 XFMR T-5 SEC YG 208.00 150.00 150.00 Pos. Seq. Z%: 0.668 + J 2.40 (Zpu 4.46 + j 15.99 ) Shell Type Zero Seq. Z%: 0.668 + J 2.40 (Sec 4.46 + j 15.99 Pri Open) Taps Pri. 0.000 % Sec. 0.000 % Phase Shift (Pri. Leading Sec.): 30.00 Deg. T-7 016 XFMR T-7 PRI D 12000.0 900 XFMR T-7 SEC YG 480.00 1500.00 1500.00 Pos. Seq. Z%: 0.869 + J 5.68 (Zpu 0.579 + j 3.79 ) Shell Type Zero Seq. Z%: 0.869 + J 5.68 (Sec 0.579 + j 3.79 Pri Open) Taps Pri. 0.000 % Sec. 0.000 % Phase Shift (Pri. Leading Sec.): 30.00 Deg. T-BLDG-10 903A D 480.00 915 YG 208.00 150.00 150.00 Pos. Seq. Z%: 1.37 + J 4.91 (Zpu 9.13 + j 32.75 ) Shell Type Zero Seq. Z%: 1.37 + J 4.91 (Sec 9.13 + j 32.75 Pri Open) Taps Pri. 0.000 % Sec. 0.000 % Phase Shift (Pri. Leading Sec.): 30.00 Deg.

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 GENERATION CONTRIBUTION DATA ===================================================================================== BUS CONTRIBUTION VOLTAGE NAME NAME L-L MVA X"d X/R ===================================================================================== 001 NEW SUBSTATION SWGR UTIL-#141 FDR 12000.0 90.95 Three Phase Contribution: 4376.00 AMPS 3.43 Single Line to Ground Contribution: 2900.00 AMPS 3.43 Pos Sequence Impedance (100 MVA Base) 0.3077 + J 1.06 PU Zero Sequence Impedance (100 MVA Base) 0.7776 + J 2.67 PU 116 CLINICAL ADD EM GEN CLINICAL ADDITION 480.00 0.750 0.1000 20.00 KG: 0.9434 xdsat: 2.92 Excitation Limit: 1.30 Ik - ON Pos Sequence Impedance (100 MVA Base) 0.6667 + J 13.33 PU 401 BLDG 18 EMERG GEN BLDG 18 208.00 0.488 0.1500 20.00 KG: 0.9386 xdsat: 1.60 Excitation Limit: 1.30 Ik - ON Pos Sequence Impedance (100 MVA Base) 1.53 + J 30.68 PU 611 GEN BLDG 17 208.00 0.187 0.1300 20.00 KG: 0.9464 xdsat: 2.34 Excitation Limit: 1.30 Ik - ON Pos Sequence Impedance (100 MVA Base) 3.48 + J 69.52 PU 832 BLDG 15 EMERG GEN BLDG 15 GEN 208.00 0.200 0.1500 20.00 KG: 0.9386 xdsat: 1.60 Excitation Limit: 1.30 Ik - ON Pos Sequence Impedance (100 MVA Base) 3.75 + J 75.00 PU 907 BLDG 7 EMERG GEN BLDG 7 480.00 1.25 0.1520 20.00 KG: 0.9164 xdsat: 1.60 Excitation Limit: 1.30 Ik - ON Pos Sequence Impedance (100 MVA Base) 0.6080 + J 12.16 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 MOTOR CONTRIBUTION DATA ===================================================================================== BUS CONTRIBUTION VOLTAGE BASE Motor NAME NAME L-L kVA X"d X/R Number ===================================================================================== 111 MCC-GB MCC-GB 480 7.00 0.25 10.0 13.0 Pos Sequence Impedance (100 MVA Base) 27.47 + j 274.73 PU 111A 1-SF10 480 50.00 0.25 10.0 1.00 Pos Sequence Impedance (100 MVA Base) 50.00 + j 500.00 PU 111B 1-SF9 480 25.00 0.25 10.0 1.00 Pos Sequence Impedance (100 MVA Base) 100.00 + j 1000.00 PU 112 MCC-2B MCC-2B 480 4.00 0.25 10.0 3.00 Pos Sequence Impedance (100 MVA Base) 208.33 + j 2083.33 PU 136 OR CHILLER OR CHILLER 480 5.00 0.136 10.0 6.00 Pos Sequence Impedance (100 MVA Base) 41.63 + j 416.34 PU 139 EMCC-GB MTRI-0003 480 2.50 0.25 10.0 12.0 Pos Sequence Impedance (100 MVA Base) 83.33 + j 833.33 PU 161 CHILLER #1 CHILLER #1 480 18.00 0.214 10.0 3.00 Pos Sequence Impedance (100 MVA Base) 36.40 + j 363.96 PU 162 CHILLER #2 CHILLER #2 480 18.00 0.214 10.0 3.00 Pos Sequence Impedance (100 MVA Base) 36.40 + j 363.96 PU 231 ELE#1 ELE #1 208 50.00 0.25 10.0 1.00 Pos Sequence Impedance (100 MVA Base) 50.00 + j 500.00 PU 235 ELE#2 ELE #2 208 50.00 0.25 10.0 1.00 Pos Sequence Impedance (100 MVA Base) 50.00 + j 500.00 PU

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 MOTOR CONTRIBUTION DATA ===================================================================================== BUS CONTRIBUTION VOLTAGE BASE Motor NAME NAME L-L kVA X"d X/R Number ===================================================================================== 238 ELE#3 ELE #3 208 50.00 0.25 10.0 1.00 Pos Sequence Impedance (100 MVA Base) 50.00 + j 500.00 PU 324 MCC IN AC ROOM AC MCC 480 40.00 0.25 10.0 26.0 Pos Sequence Impedance (100 MVA Base) 2.21 + j 22.08 PU 455 400A DISCONNECT BLDG #13 CHILLER 208 75.00 0.2 7.10 1.00 Pos Sequence Impedance (100 MVA Base) 37.54 + j 266.67 PU 601 BLDG 17 MN ACRU1 208 100.00 0.2 8.56 1.00 Pos Sequence Impedance (100 MVA Base) 23.37 + j 200.00 PU 812A CHILLER CHILLER 208 48.00 0.1773 10.0 1.00 Pos Sequence Impedance (100 MVA Base) 36.94 + j 369.38 PU 912 MCC BLDG 7 MCC MTR 480 13.00 0.25 10.0 17.0 Pos Sequence Impedance (100 MVA Base) 11.31 + j 113.12 PU BUS-0531 WATER PUMP #3 480 30.00 0.25 10.0 1.00 Pos Sequence Impedance (100 MVA Base) 83.33 + j 833.33 PU BUS-0553 CENT REFRIG 208 46.63 0.25 10.0 1.00 Pos Sequence Impedance (100 MVA Base) 53.62 + j 536.19 PU

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November 2008

APPENDIX C: SHORT CIRCUIT OUTPUT TABULATIONS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== 101 MDSB-A FAULT: 19.500 KA AT -79.44 DEG ( 16.21 MVA) X/R: 5.55 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0026 + J 0.0140 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 19.500 KA MOLDED CASE CIRCUIT BREAKER > 20KA 20.025 KA CBL-0063 112 MCC-2B 0.057 KA ANG: 95.76 T-1A-1 012 XFMR T-1A-1 PRI 18.230 KA ANG: -259.12 CBL-0044 115 ATS-E3_N 0.428 KA ANG: 95.93 CBL-0057 111 MCC-GB 0.790 KA ANG: 95.96 102 LP-GA FAULT: 12.592 KA AT -50.21 DEG ( 10.47 MVA) X/R: 1.21 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0141 + J 0.0169 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 12.592 KA MOLDED CASE CIRCUIT BREAKER < 20KA 12.592 KA MOLDED CASE CIRCUIT BREAKER > 20KA 12.592 KA CBL-0055 101 MDSB-A 12.592 KA ANG: -50.21 103 LP-GB FAULT: 7.807 KA AT -35.65 DEG ( 6.49 MVA) X/R: 0.72 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0288 + J 0.0207 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.807 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.807 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.807 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.807 KA CBL-0060 101 MDSB-A 7.807 KA ANG: -35.65 104 LP-1A FAULT: 11.493 KA AT -46.68 DEG ( 9.56 MVA) X/R: 1.07 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0165 + J 0.0175 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 11.493 KA MOLDED CASE CIRCUIT BREAKER < 20KA 11.493 KA MOLDED CASE CIRCUIT BREAKER > 20KA 11.493 KA CBL-0059 101 MDSB-A 11.493 KA ANG: -46.68 105 LP-1B FAULT: 8.169 KA AT -36.69 DEG ( 6.79 MVA) X/R: 0.75 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0272 + J 0.0203 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 8.169 KA MOLDED CASE CIRCUIT BREAKER < 10KA 8.169 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.169 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.169 KA CBL-0061 101 MDSB-A 8.169 KA ANG: -36.69 106 LP-2B FAULT: 16.340 KA AT -75.70 DEG ( 13.58 MVA) X/R: 4.00 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0042 + J 0.0164 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 16.340 KA MOLDED CASE CIRCUIT BREAKER < 20KA 17.340 KA MOLDED CASE CIRCUIT BREAKER > 20KA 16.340 KA CBL-0062 101 MDSB-A 16.340 KA ANG: -75.70 107 ECB 2160 FAULT: 13.079 KA AT -62.11 DEG ( 10.87 MVA) X/R: 1.91 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0099 + J 0.0187 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 13.079 KA MOLDED CASE CIRCUIT BREAKER < 20KA 13.079 KA MOLDED CASE CIRCUIT BREAKER > 20KA 13.079 KA CBL-0086 106 LP-2B 13.079 KA ANG: -62.11 108 ECB 2148 FAULT: 12.078 KA AT -58.50 DEG ( 10.04 MVA) X/R: 1.64 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0120 + J 0.0196 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 12.078 KA MOLDED CASE CIRCUIT BREAKER < 20KA 12.078 KA MOLDED CASE CIRCUIT BREAKER > 20KA 12.078 KA CBL-0087 106 LP-2B 12.078 KA ANG: -58.50 109 ECB 2149 FAULT: 12.565 KA AT -60.23 DEG ( 10.45 MVA) X/R: 1.76 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0109 + J 0.0191 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 12.565 KA MOLDED CASE CIRCUIT BREAKER < 20KA 12.565 KA MOLDED CASE CIRCUIT BREAKER > 20KA 12.565 KA CBL-0088 106 LP-2B 12.565 KA ANG: -60.23 110 ECB 2163 FAULT: 13.901 KA AT -65.24 DEG ( 11.56 MVA) X/R: 2.19 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0083 + J 0.0181 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 13.901 KA MOLDED CASE CIRCUIT BREAKER < 20KA 13.901 KA MOLDED CASE CIRCUIT BREAKER > 20KA 13.901 KA CBL-0089 106 LP-2B 13.901 KA ANG: -65.24 111 MCC-GB FAULT: 17.202 KA AT -77.45 DEG ( 14.30 MVA) X/R: 4.69 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0035 + J 0.0157 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 17.202 KA MOLDED CASE CIRCUIT BREAKER < 20KA 18.946 KA MOLDED CASE CIRCUIT BREAKER > 20KA 17.202 KA CONTRIBUTIONS: MCC-GB 0.436 KA ANG: -84.29 CBL-0511 111A 0.239 KA ANG: 96.02 CBL-0512 111B 0.120 KA ANG: 95.87 CBL-0057 101 MDSB-A 16.414 KA ANG: -77.12 112 MCC-2B FAULT: 15.046 KA AT -68.19 DEG ( 12.51 MVA) X/R: 2.55

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0068 + J 0.0171 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 15.046 KA MOLDED CASE CIRCUIT BREAKER < 20KA 15.046 KA MOLDED CASE CIRCUIT BREAKER > 20KA 15.046 KA CONTRIBUTIONS: MCC-2B 0.057 KA ANG: -84.29 CBL-0063 101 MDSB-A 14.991 KA ANG: -68.13 117 EDP-GA FAULT: 8.736 KA AT -86.44 DEG ( 7.26 MVA) X/R: 16.06 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0020 + J 0.0317 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.822 KA MOLDED CASE CIRCUIT BREAKER < 20KA 11.601 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.429 KA CBL-0078 116 CLINICAL ADD EM GEN 8.736 KA ANG: 93.56 121 ATS-E1_L FAULT: 17.122 KA AT -74.11 DEG ( 14.23 MVA) X/R: 3.58 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0044 + J 0.0156 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 17.122 KA MOLDED CASE CIRCUIT BREAKER < 20KA 17.666 KA MOLDED CASE CIRCUIT BREAKER > 20KA 17.122 KA ATS-E1 113 ATS-E1_N 17.122 KA ANG: -74.11 122 E1DP-GA FAULT: 16.643 KA AT -73.37 DEG ( 13.84 MVA) X/R: 3.41 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0048 + J 0.0160 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 16.643 KA MOLDED CASE CIRCUIT BREAKER < 20KA 16.953 KA MOLDED CASE CIRCUIT BREAKER > 20KA 16.643 KA CBL-0071 121 ATS-E1_L 16.643 KA ANG: -73.37 123 E1LP-GB FAULT: 11.799 KA AT -68.60 DEG ( 9.81 MVA) X/R: 2.58 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0086 + J 0.0219 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 11.799 KA MOLDED CASE CIRCUIT BREAKER < 20KA 11.799 KA MOLDED CASE CIRCUIT BREAKER > 20KA 11.799 KA CBL-0079 122 E1DP-GA 11.799 KA ANG: -68.60 124 E1LP-1B FAULT: 10.350 KA AT -59.74 DEG ( 8.61 MVA) X/R: 1.72 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0135 + J 0.0231 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 10.350 KA MOLDED CASE CIRCUIT BREAKER < 20KA 10.350 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.350 KA CBL-0080 123 E1LP-GB 10.350 KA ANG: -59.74 125 E1LP-2B FAULT: 9.474 KA AT -55.02 DEG ( 7.88 MVA) X/R: 1.44 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0168 + J 0.0240 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 9.474 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.474 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.474 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.474 KA CBL-0081 124 E1LP-1B 9.474 KA ANG: -55.02 126 ATS-E2_L FAULT: 17.238 KA AT -77.41 DEG ( 14.33 MVA) X/R: 4.59 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0035 + J 0.0157 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 17.238 KA MOLDED CASE CIRCUIT BREAKER < 20KA 18.897 KA MOLDED CASE CIRCUIT BREAKER > 20KA 17.238 KA ATS-E2 114 ATS-E2_N 17.238 KA ANG: -77.41 127 E2DP-GA FAULT: 16.803 KA AT -77.02 DEG ( 13.97 MVA) X/R: 4.44 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0037 + J 0.0161 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 16.803 KA MOLDED CASE CIRCUIT BREAKER < 20KA 18.280 KA MOLDED CASE CIRCUIT BREAKER > 20KA 16.803 KA CBL-0040 126 ATS-E2_L 16.803 KA ANG: -77.02 128 ECB FAULT: 5.045 KA AT -33.04 DEG ( 4.19 MVA) X/R: 0.65 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0461 + J 0.0299 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.045 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.045 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.045 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.045 KA CBL-0465 127 E2DP-GA 5.045 KA ANG: -33.04 129 E2LP-GA FAULT: 11.596 KA AT -64.99 DEG ( 9.64 MVA) X/R: 2.16 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0101 + J 0.0217 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 11.596 KA MOLDED CASE CIRCUIT BREAKER < 20KA 11.596 KA MOLDED CASE CIRCUIT BREAKER > 20KA 11.596 KA CBL-0041 127 E2DP-GA 11.596 KA ANG: -64.99 130 E2LP-1A FAULT: 10.587 KA AT -59.26 DEG ( 8.80 MVA) X/R: 1.69 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0134 + J 0.0225 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 10.587 KA MOLDED CASE CIRCUIT BREAKER < 20KA 10.587 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.587 KA CBL-0042 129 E2LP-GA 10.587 KA ANG: -59.26 131 E2LP-2B FAULT: 8.842 KA AT -50.48 DEG ( 7.35 MVA) X/R: 1.22 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0199 + J 0.0242 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 8.842 KA MOLDED CASE CIRCUIT BREAKER < 10KA 8.842 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.842 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.842 KA CBL-0082 130 E2LP-1A 8.842 KA ANG: -50.48 132 E2LP-2C FAULT: 10.320 KA AT -61.60 DEG ( 8.58 MVA) X/R: 1.86 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0128 + J 0.0236 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 10.320 KA MOLDED CASE CIRCUIT BREAKER < 20KA 10.320 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.320 KA CBL-0043 129 E2LP-GA 10.320 KA ANG: -61.60 133 2143 ECB FAULT: 9.389 KA AT -57.43 DEG ( 7.81 MVA) X/R: 1.57 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0159 + J 0.0249 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.389 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.389 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.389 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.389 KA CBL-0091 132 E2LP-2C 9.389 KA ANG: -57.43 134 ATS-E3_L FAULT: 18.233 KA AT -78.32 DEG ( 15.16 MVA) X/R: 5.00 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0031 + J 0.0149 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 18.233 KA MOLDED CASE CIRCUIT BREAKER > 20KA 18.314 KA CBL-0045 135 E3DP-GA 0.428 KA ANG: 95.90 ATS-E3 115 ATS-E3_N 17.806 KA ANG: -78.18 135 E3DP-GA FAULT: 17.998 KA AT -78.11 DEG ( 14.96 MVA) X/R: 4.91 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0032 + J 0.0151 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 17.998 KA MOLDED CASE CIRCUIT BREAKER > 20KA 18.008 KA CBL-0058 139 EMCC-GB 0.143 KA ANG: 95.78 CBL-0072 136 OR CHILLER 0.285 KA ANG: 95.95 CBL-0045 134 ATS-E3_L 17.572 KA ANG: -77.97 136 OR CHILLER FAULT: 11.796 KA AT -70.90 DEG ( 9.81 MVA) X/R: 3.03 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0077 + J 0.0222 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 11.796 KA MOLDED CASE CIRCUIT BREAKER < 20KA 11.796 KA MOLDED CASE CIRCUIT BREAKER > 20KA 11.796 KA CONTRIBUTIONS: OR CHILLER 0.287 KA ANG: -84.29 CBL-0072 135 E3DP-GA 11.516 KA ANG: -70.57

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== 137 E3LP-GA CONTACTOR FAULT: 11.577 KA AT -56.56 DEG ( 9.62 MVA) X/R: 1.53 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0132 + J 0.0200 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 11.577 KA MOLDED CASE CIRCUIT BREAKER < 20KA 11.577 KA MOLDED CASE CIRCUIT BREAKER > 20KA 11.577 KA CBL-0046 135 E3DP-GA 11.577 KA ANG: -56.56 138 E3LP-GA FAULT: 11.311 KA AT -55.79 DEG ( 9.40 MVA) X/R: 1.48 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0138 + J 0.0203 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 11.311 KA MOLDED CASE CIRCUIT BREAKER < 20KA 11.311 KA MOLDED CASE CIRCUIT BREAKER > 20KA 11.311 KA CBL-0083 137 E3LP-GA CONTACTOR 11.311 KA ANG: 124.21 139 EMCC-GB FAULT: 15.426 KA AT -71.20 DEG ( 12.82 MVA) X/R: 3.02 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0058 + J 0.0170 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 15.426 KA MOLDED CASE CIRCUIT BREAKER < 20KA 15.426 KA MOLDED CASE CIRCUIT BREAKER > 20KA 15.426 KA CONTRIBUTIONS: MTRI-0003 0.144 KA ANG: -84.29 CBL-0058 135 E3DP-GA 15.286 KA ANG: -71.08 140 E3LP-2B FAULT: 13.567 KA AT -74.17 DEG ( 11.28 MVA) X/R: 3.59 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0056 + J 0.0197 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 13.567 KA MOLDED CASE CIRCUIT BREAKER < 20KA 14.010 KA MOLDED CASE CIRCUIT BREAKER > 20KA 13.567 KA CBL-0073 135 E3DP-GA 13.567 KA ANG: -74.17 141 CONTACTOR FAULT: 13.116 KA AT -71.77 DEG ( 10.90 MVA) X/R: 3.08 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0066 + J 0.0201 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 13.116 KA MOLDED CASE CIRCUIT BREAKER < 20KA 13.116 KA MOLDED CASE CIRCUIT BREAKER > 20KA 13.116 KA CBL-0084 140 E3LP-2B 13.116 KA ANG: -71.77 150 MDSB-B FAULT: 27.370 KA AT -77.58 DEG ( 9.86 MVA) X/R: 4.58 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0009 + J 0.0043 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 27.370 KA MOLDED CASE CIRCUIT BREAKER > 20KA 27.370 KA T-1A-2 013 XFMR T-1A-2 PRI 27.370 KA ANG: -257.58 151 RP-GA FAULT: 14.752 KA AT -57.16 DEG ( 5.31 MVA) X/R: 1.55

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0044 + J 0.0068 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 14.752 KA MOLDED CASE CIRCUIT BREAKER < 20KA 14.752 KA MOLDED CASE CIRCUIT BREAKER > 20KA 14.752 KA CBL-0056 150 MDSB-B 14.752 KA ANG: -57.16 152 RP-1B FAULT: 10.246 KA AT -59.56 DEG ( 3.69 MVA) X/R: 1.70 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0059 + J 0.0101 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 10.246 KA MOLDED CASE CIRCUIT BREAKER < 20KA 10.246 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.246 KA CBL-0065 150 MDSB-B 10.246 KA ANG: -59.56 153 RP-1A FAULT: 15.538 KA AT -64.93 DEG ( 5.60 MVA) X/R: 2.14 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0033 + J 0.0070 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 15.538 KA MOLDED CASE CIRCUIT BREAKER < 20KA 15.538 KA MOLDED CASE CIRCUIT BREAKER > 20KA 15.538 KA CBL-0066 150 MDSB-B 15.538 KA ANG: -64.93 154 RP-GB FAULT: 12.008 KA AT -66.00 DEG ( 4.33 MVA) X/R: 2.25 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0041 + J 0.0091 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 12.008 KA MOLDED CASE CIRCUIT BREAKER < 20KA 12.008 KA MOLDED CASE CIRCUIT BREAKER > 20KA 12.008 KA CBL-0067 150 MDSB-B 12.008 KA ANG: -66.00 155 RP-2B FAULT: 15.538 KA AT -64.93 DEG ( 5.60 MVA) X/R: 2.14 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0033 + J 0.0070 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 15.538 KA MOLDED CASE CIRCUIT BREAKER < 20KA 15.538 KA MOLDED CASE CIRCUIT BREAKER > 20KA 15.538 KA CBL-0068 150 MDSB-B 15.538 KA ANG: -64.93 160 MDSB-C FAULT: 15.739 KA AT -78.76 DEG ( 13.08 MVA) X/R: 5.17 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0034 + J 0.0173 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 15.739 KA MOLDED CASE CIRCUIT BREAKER < 20KA 17.718 KA MOLDED CASE CIRCUIT BREAKER > 20KA 15.927 KA CBL-0070 162 CHILLER #2 0.328 KA ANG: 95.79 CBL-0069 161 CHILLER #1 0.328 KA ANG: 95.80 T-1A-3 014 XFMR T-1A-3 PRI 15.086 KA ANG: -258.52 161 CHILLER #1 FAULT: 13.328 KA AT -76.24 DEG ( 11.08 MVA) X/R: 4.22

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0049 + J 0.0202 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 13.328 KA MOLDED CASE CIRCUIT BREAKER < 20KA 14.325 KA MOLDED CASE CIRCUIT BREAKER > 20KA 13.328 KA CONTRIBUTIONS: CHILLER #1 0.329 KA ANG: -84.29 CBL-0069 160 MDSB-C 13.002 KA ANG: -76.04 162 CHILLER #2 FAULT: 13.588 KA AT -76.51 DEG ( 11.30 MVA) X/R: 4.30 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0048 + J 0.0198 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 13.588 KA MOLDED CASE CIRCUIT BREAKER < 20KA 14.674 KA MOLDED CASE CIRCUIT BREAKER > 20KA 13.588 KA CONTRIBUTIONS: CHILLER #2 0.329 KA ANG: -84.29 CBL-0070 160 MDSB-C 13.263 KA ANG: -76.32 170 XFMR T-1-1 SEC FAULT: 31.544 KA AT -78.70 DEG ( 11.36 MVA) X/R: 5.08 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0007 + J 0.0037 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 31.544 KA MOLDED CASE CIRCUIT BREAKER > 20KA 31.799 KA T-1-1 024 SWITCH 141P26 29.991 KA ANG: -258.53 CBL-0035 171 MAIN SG A 1.555 KA ANG: 98.09 171 MAIN SG A FAULT: 31.523 KA AT -78.69 DEG ( 11.36 MVA) X/R: 5.08 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0007 + J 0.0037 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 31.523 KA MOLDED CASE CIRCUIT BREAKER > 20KA 31.771 KA CBL-0201 206 0.528 KA ANG: 97.63 CBL-0035 170 XFMR T-1-1 SEC 29.971 KA ANG: -78.52 CBL-0192 196 ELEVATOR TAP 1.027 KA ANG: 98.33 172 PPGM-A AC SHOP FAULT: 7.182 KA AT -55.77 DEG ( 2.59 MVA) X/R: 1.47 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0094 + J 0.0138 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.182 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.182 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.182 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.182 KA CBL-0171 171 MAIN SG A 7.182 KA ANG: -55.77 173 TAP FAULT: 7.421 KA AT -62.17 DEG ( 2.67 MVA) X/R: 1.90 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0076 + J 0.0143 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.421 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.599 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.421 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.421 KA

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== CONTRIBUTIONS TO 173 TAP (CONTINUED) CBL-0172 171 MAIN SG A 7.421 KA ANG: -62.17 174 LP7A-1 FAULT: 7.360 KA AT -62.13 DEG ( 2.65 MVA) X/R: 1.89 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0076 + J 0.0144 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.360 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.533 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.360 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.360 KA CBL-0175 173 TAP 7.360 KA ANG: -62.13 175 TAP FAULT: 7.182 KA AT -62.01 DEG ( 2.59 MVA) X/R: 1.88 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0078 + J 0.0148 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.182 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.341 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.182 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.182 KA CBL-0176 173 TAP 7.182 KA ANG: -62.01 176 LP8B FAULT: 7.131 KA AT -61.81 DEG ( 2.57 MVA) X/R: 1.87 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0080 + J 0.0148 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.131 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.273 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.131 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.131 KA CBL-0177 175 TAP 7.131 KA ANG: -61.81 177 TAP FAULT: 5.821 KA AT -61.10 DEG ( 2.10 MVA) X/R: 1.81 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0100 + J 0.0181 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.821 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.890 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.821 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.821 KA CBL-0173 171 MAIN SG A 5.821 KA ANG: -61.10 178 LP7A FAULT: 5.787 KA AT -60.95 DEG ( 2.08 MVA) X/R: 1.80 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0101 + J 0.0181 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.787 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.846 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.787 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.787 KA CBL-0178 177 TAP 5.787 KA ANG: -60.95 179 LP7A1 FAULT: 5.754 KA AT -60.80 DEG ( 2.07 MVA) X/R: 1.79

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0102 + J 0.0182 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.754 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.803 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.754 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.754 KA CBL-0180 178 LP7A 5.754 KA ANG: -60.80 180 TAP FAULT: 5.672 KA AT -61.00 DEG ( 2.04 MVA) X/R: 1.81 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0103 + J 0.0185 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.672 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.734 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.672 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.672 KA CBL-0179 177 TAP 5.672 KA ANG: -61.00 181 LP8A FAULT: 5.640 KA AT -60.85 DEG ( 2.03 MVA) X/R: 1.80 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0104 + J 0.0186 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.640 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.692 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.640 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.640 KA CBL-0181 180 TAP 5.640 KA ANG: -240.85 182 PNL A FAULT: 5.261 KA AT -54.05 DEG ( 1.90 MVA) X/R: 1.38 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0134 + J 0.0185 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.261 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.261 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.261 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.261 KA CBL-0174 171 MAIN SG A 5.261 KA ANG: -54.05 183 LP6B FAULT: 6.223 KA AT -48.04 DEG ( 2.24 MVA) X/R: 1.11 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0129 + J 0.0143 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.223 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.223 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.223 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.223 KA CBL-0182 171 MAIN SG A 6.223 KA ANG: -48.04 184 LP6B2 FAULT: 6.029 KA AT -46.45 DEG ( 2.17 MVA) X/R: 1.05 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0137 + J 0.0144 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 6.029 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.029 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.029 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.029 KA CBL-0183 183 LP6B 6.029 KA ANG: -46.45 185 TAP FAULT: 5.585 KA AT -54.34 DEG ( 2.01 MVA) X/R: 1.39 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0125 + J 0.0175 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.585 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.585 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.585 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.585 KA CBL-0184 171 MAIN SG A 5.585 KA ANG: -54.34 186 LP5A-LH FAULT: 5.552 KA AT -54.23 DEG ( 2.00 MVA) X/R: 1.39 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0126 + J 0.0175 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.552 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.552 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.552 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.552 KA CBL-0185 185 TAP 5.552 KA ANG: -54.23 187 LP5A-RH FAULT: 5.552 KA AT -54.23 DEG ( 2.00 MVA) X/R: 1.39 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0126 + J 0.0175 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.552 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.552 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.552 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.552 KA CBL-0186 185 TAP 5.552 KA ANG: -54.23 188 LP5A2 FAULT: 5.069 KA AT -48.37 DEG ( 1.83 MVA) X/R: 1.13 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0157 + J 0.0177 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.069 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.069 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.069 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.069 KA CBL-0187 185 TAP 5.069 KA ANG: -48.37 189 TAP FAULT: 5.430 KA AT -54.20 DEG ( 1.96 MVA) X/R: 1.39 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0129 + J 0.0179 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.430 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.430 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.430 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.430 KA

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== CONTRIBUTIONS TO 189 TAP (CONTINUED) CBL-0188 171 MAIN SG A 5.430 KA ANG: -54.20 190 LP6A-LH FAULT: 5.400 KA AT -54.10 DEG ( 1.95 MVA) X/R: 1.38 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0130 + J 0.0180 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.400 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.400 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.400 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.400 KA CBL-0193 189 TAP 5.400 KA ANG: -54.10 191 LP6A-RH FAULT: 5.400 KA AT -54.10 DEG ( 1.95 MVA) X/R: 1.38 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0130 + J 0.0180 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.400 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.400 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.400 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.400 KA CBL-0194 189 TAP 5.400 KA ANG: -54.10 192 TAP FAULT: 6.139 KA AT -43.89 DEG ( 2.21 MVA) X/R: 0.96 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0141 + J 0.0136 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.139 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.139 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.139 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.139 KA CBL-0189 171 MAIN SG A 6.139 KA ANG: -43.89 193 PP RM1134 FAULT: 6.071 KA AT -44.04 DEG ( 2.19 MVA) X/R: 0.97 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0142 + J 0.0138 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.071 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.071 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.071 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.071 KA CBL-0195 192 TAP 6.071 KA ANG: -44.04 194 PPGL FAULT: 5.056 KA AT -37.73 DEG ( 1.82 MVA) X/R: 0.77 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0188 + J 0.0145 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.056 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.056 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.056 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.056 KA CBL-0190 171 MAIN SG A 5.056 KA ANG: -37.73 195 PP2K-B FAULT: 5.447 KA AT -33.99 DEG ( 1.96 MVA) X/R: 0.67

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0183 + J 0.0123 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.447 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.447 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.447 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.447 KA CBL-0191 171 MAIN SG A 5.447 KA ANG: -33.99 195A CONTACTOR FAULT: 5.379 KA AT -33.89 DEG ( 1.94 MVA) X/R: 0.67 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0185 + J 0.0124 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.379 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.379 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.379 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.379 KA CBL-0501 195 PP2K-B 5.379 KA ANG: -33.89 195B PANEL FAULT: 5.313 KA AT -33.79 DEG ( 1.91 MVA) X/R: 0.67 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0188 + J 0.0126 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.313 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.313 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.313 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.313 KA CBL-0502 195A CONTACTOR 5.313 KA ANG: -33.79 196 ELEVATOR TAP FAULT: 12.443 KA AT -66.61 DEG ( 4.48 MVA) X/R: 2.64 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0038 + J 0.0089 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 12.443 KA MOLDED CASE CIRCUIT BREAKER < 20KA 12.443 KA MOLDED CASE CIRCUIT BREAKER > 20KA 12.443 KA CBL-0196 197 ELE 1 ATS_N 0.542 KA ANG: 96.88 CBL-0197 198 ELE 2 ATS_N 0.542 KA ANG: 96.88 CBL-0192 171 MAIN SG A 11.408 KA ANG: -65.06 205 XRAY B FAULT: 10.284 KA AT -58.56 DEG ( 3.70 MVA) X/R: 1.64 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0061 + J 0.0100 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 10.284 KA MOLDED CASE CIRCUIT BREAKER < 20KA 10.284 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.284 KA CBL-0200 171 MAIN SG A 10.284 KA ANG: -58.56 205A RP2G FAULT: 7.273 KA AT -46.86 DEG ( 2.62 MVA) X/R: 1.07 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0113 + J 0.0120 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 7.273 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.273 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.273 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.273 KA CBL-0486 205 XRAY B 7.273 KA ANG: -46.86 205B 2H FAULT: 6.849 KA AT -45.31 DEG ( 2.47 MVA) X/R: 1.01 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0123 + J 0.0125 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.849 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.849 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.849 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.849 KA CBL-0487 205 XRAY B 6.849 KA ANG: -45.31 205C 2J FAULT: 6.849 KA AT -45.31 DEG ( 2.47 MVA) X/R: 1.01 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0123 + J 0.0125 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.849 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.849 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.849 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.849 KA CBL-0488 205 XRAY B 6.849 KA ANG: -45.31 205D RP2K FAULT: 6.849 KA AT -45.31 DEG ( 2.47 MVA) X/R: 1.01 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0123 + J 0.0125 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.849 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.849 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.849 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.849 KA CBL-0484 205 XRAY B 6.849 KA ANG: -45.31 210 TAP FAULT: 6.904 KA AT -61.82 DEG ( 2.49 MVA) X/R: 1.87 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0082 + J 0.0153 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.904 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.042 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.904 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.904 KA CBL-0204 171 MAIN SG A 6.904 KA ANG: -61.82 211 PPGB FAULT: 6.857 KA AT -61.64 DEG ( 2.47 MVA) X/R: 1.85 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0083 + J 0.0154 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.857 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.979 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.857 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.857 KA

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== CONTRIBUTIONS TO 211 PPGB (CONTINUED) CBL-0205 210 TAP 6.857 KA ANG: -61.64 212 LPGA FAULT: 6.857 KA AT -61.64 DEG ( 2.47 MVA) X/R: 1.85 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0083 + J 0.0154 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.857 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.979 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.857 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.857 KA CBL-0206 210 TAP 6.857 KA ANG: -61.64 213 TAP FAULT: 6.696 KA AT -61.68 DEG ( 2.41 MVA) X/R: 1.86 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0085 + J 0.0158 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.696 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.819 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.696 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.696 KA CBL-0207 210 TAP 6.696 KA ANG: -61.68 214 RP-1C-1 FAULT: 6.613 KA AT -61.63 DEG ( 2.38 MVA) X/R: 1.85 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0086 + J 0.0160 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.613 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.731 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.613 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.613 KA CBL-0208 213 TAP 6.613 KA ANG: -61.63 215 RP-1C-2 FAULT: 6.533 KA AT -61.58 DEG ( 2.35 MVA) X/R: 1.85 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0088 + J 0.0162 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.533 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.645 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.533 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.533 KA CBL-0209 214 RP-1C-1 6.533 KA ANG: -61.58 216 TAP FAULT: 6.696 KA AT -61.68 DEG ( 2.41 MVA) X/R: 1.86 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0085 + J 0.0158 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.696 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.819 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.696 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.696 KA CBL-0214 171 MAIN SG A 6.696 KA ANG: -61.68 217 LP2A-LH FAULT: 6.652 KA AT -61.50 DEG ( 2.40 MVA) X/R: 1.84

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0086 + J 0.0159 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.652 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.761 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.652 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.652 KA CBL-0210 216 TAP 6.652 KA ANG: -61.50 218 LP2A-RH FAULT: 6.652 KA AT -61.50 DEG ( 2.40 MVA) X/R: 1.84 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0086 + J 0.0159 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.652 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.761 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.652 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.652 KA CBL-0211 216 TAP 6.652 KA ANG: -61.50 219 TAP FAULT: 6.501 KA AT -61.55 DEG ( 2.34 MVA) X/R: 1.85 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0088 + J 0.0162 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.501 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.611 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.501 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.501 KA CBL-0212 216 TAP 6.501 KA ANG: -61.55 220 LP3A-LH FAULT: 6.459 KA AT -61.38 DEG ( 2.33 MVA) X/R: 1.83 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0089 + J 0.0163 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.459 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.556 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.459 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.459 KA CBL-0215 219 TAP 6.459 KA ANG: -61.38 221 LP3A-RH FAULT: 6.459 KA AT -61.38 DEG ( 2.33 MVA) X/R: 1.83 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0089 + J 0.0163 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.459 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.556 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.459 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.459 KA CBL-0216 219 TAP 6.459 KA ANG: -61.38 223 LP4A-1 FAULT: 8.834 KA AT -50.96 DEG ( 3.18 MVA) X/R: 1.23 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0086 + J 0.0106 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 8.834 KA MOLDED CASE CIRCUIT BREAKER < 10KA 8.834 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.834 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.834 KA CBL-0217 171 MAIN SG A 8.834 KA ANG: -50.96 224 LP4A-2 FAULT: 8.738 KA AT -50.85 DEG ( 3.15 MVA) X/R: 1.23 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0087 + J 0.0107 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 8.738 KA MOLDED CASE CIRCUIT BREAKER < 10KA 8.738 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.738 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.738 KA CBL-0218 223 LP4A-1 8.738 KA ANG: -50.85 225 TAP FAULT: 8.932 KA AT -63.18 DEG ( 3.22 MVA) X/R: 1.98 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0061 + J 0.0120 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 8.932 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.253 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.932 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.932 KA CBL-0219 171 MAIN SG A 8.932 KA ANG: -63.18 226 LP2B FAULT: 8.589 KA AT -62.95 DEG ( 3.09 MVA) X/R: 1.96 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0064 + J 0.0125 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 8.589 KA MOLDED CASE CIRCUIT BREAKER < 10KA 8.873 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.589 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.589 KA CBL-0221 225 TAP 8.589 KA ANG: -62.95 227 E2-4B FAULT: 8.270 KA AT -62.73 DEG ( 2.98 MVA) X/R: 1.94 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0067 + J 0.0129 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 8.270 KA MOLDED CASE CIRCUIT BREAKER < 10KA 8.523 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.270 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.270 KA CBL-0224 171 MAIN SG A 8.270 KA ANG: -62.73 228 CAPACITOR A FAULT: 21.136 KA AT -68.53 DEG ( 7.61 MVA) X/R: 2.56 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0021 + J 0.0053 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 21.136 KA MOLDED CASE CIRCUIT BREAKER > 20KA 21.136 KA CBL-0225 171 MAIN SG A 21.136 KA ANG: -68.53

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== 229 ELE 1 ATS_L FAULT: 12.108 KA AT -65.76 DEG ( 4.36 MVA) X/R: 2.55 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0041 + J 0.0090 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 12.108 KA MOLDED CASE CIRCUIT BREAKER < 20KA 12.108 KA MOLDED CASE CIRCUIT BREAKER > 20KA 12.108 KA CBL-0231 230 ELE#1 ECB 0.543 KA ANG: 96.82 ELE 1 ATS 197 ELE 1 ATS_N 11.591 KA ANG: -64.96 230 ELE#1 ECB FAULT: 9.198 KA AT -58.95 DEG ( 3.31 MVA) X/R: 2.02 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0067 + J 0.0112 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.198 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.580 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.198 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.198 KA CBL-0198 231 ELE#1 0.549 KA ANG: -83.90 CBL-0231 229 ELE 1 ATS_L 8.704 KA ANG: -57.43 233 ELE 2 ATS_L FAULT: 12.108 KA AT -65.76 DEG ( 4.36 MVA) X/R: 2.55 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0041 + J 0.0090 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 12.108 KA MOLDED CASE CIRCUIT BREAKER < 20KA 12.108 KA MOLDED CASE CIRCUIT BREAKER > 20KA 12.108 KA CBL-0232 234 ELE#2 ECB 0.543 KA ANG: 96.82 ELE 2 ATS 198 ELE 2 ATS_N 11.591 KA ANG: -64.96 234 ELE#2 ECB FAULT: 9.198 KA AT -58.95 DEG ( 3.31 MVA) X/R: 2.02 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0067 + J 0.0112 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.198 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.580 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.198 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.198 KA CBL-0199 235 ELE#2 0.549 KA ANG: -83.90 CBL-0232 233 ELE 2 ATS_L 8.704 KA ANG: -57.43 236 ELE 3 ATS_L FAULT: 11.679 KA AT -65.01 DEG ( 4.21 MVA) X/R: 2.33 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0043 + J 0.0093 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 11.679 KA MOLDED CASE CIRCUIT BREAKER < 20KA 11.679 KA MOLDED CASE CIRCUIT BREAKER > 20KA 11.679 KA CBL-0482 237 ELE#3 ECB 0.543 KA ANG: 96.82 ELE 3 ATS 207 ELE 3 ATS_N 11.164 KA ANG: -64.14 237 ELE#3 ECB FAULT: 8.944 KA AT -58.61 DEG ( 3.22 MVA) X/R: 1.95

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0070 + J 0.0115 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 8.944 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.225 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.944 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.944 KA CBL-0481 238 ELE#3 0.549 KA ANG: -83.90 CBL-0482 236 ELE 3 ATS_L 8.451 KA ANG: -57.02 240 XFMR T-1-2 SEC FAULT: 29.844 KA AT -78.56 DEG ( 10.75 MVA) X/R: 4.99 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0008 + J 0.0039 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 29.844 KA MOLDED CASE CIRCUIT BREAKER > 20KA 29.971 KA T-1-2 018 SWITCH 137P19 29.844 KA ANG: 101.44 241 MAIN SG B FAULT: 31.304 KA AT -78.19 DEG ( 11.28 MVA) X/R: 4.85 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0008 + J 0.0038 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 31.304 KA MOLDED CASE CIRCUIT BREAKER > 20KA 31.304 KA CBL-0034 171 MAIN SG A 31.304 KA ANG: -78.19 242 DP ECB FAULT: 27.863 KA AT -74.25 DEG ( 10.04 MVA) X/R: 3.58 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0012 + J 0.0041 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 27.863 KA MOLDED CASE CIRCUIT BREAKER > 20KA 27.863 KA CBL-0103 241 MAIN SG B 27.863 KA ANG: -74.25 243 PANEL DP FAULT: 27.251 KA AT -73.56 DEG ( 9.82 MVA) X/R: 3.42 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0012 + J 0.0042 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 27.251 KA MOLDED CASE CIRCUIT BREAKER > 20KA 27.251 KA CBL-0384 242 DP ECB 27.251 KA ANG: -73.56 248 LP3 FAULT: 4.534 KA AT -29.35 DEG ( 1.63 MVA) X/R: 0.56 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0231 + J 0.0130 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 4.534 KA MOLDED CASE CIRCUIT BREAKER < 10KA 4.534 KA MOLDED CASE CIRCUIT BREAKER < 20KA 4.534 KA MOLDED CASE CIRCUIT BREAKER > 20KA 4.534 KA CBL-0390 243 PANEL DP 4.534 KA ANG: -29.35 249 TAP FAULT: 7.817 KA AT -62.35 DEG ( 2.82 MVA) X/R: 1.91 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0071 + J 0.0136 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 7.817 KA MOLDED CASE CIRCUIT BREAKER < 10KA 8.020 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.817 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.817 KA CBL-0097 241 MAIN SG B 7.817 KA ANG: -62.35 250 LPGB FAULT: 7.756 KA AT -62.14 DEG ( 2.79 MVA) X/R: 1.89 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0072 + J 0.0137 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.756 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.939 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.756 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.756 KA CBL-0098 249 TAP 7.756 KA ANG: -62.14 251 LPGP FAULT: 5.128 KA AT -41.29 DEG ( 1.85 MVA) X/R: 0.88 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0176 + J 0.0155 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.128 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.128 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.128 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.128 KA CBL-0100 250 LPGB 5.128 KA ANG: -41.29 252 LP-GP FAULT: 2.984 KA AT -27.43 DEG ( 1.07 MVA) X/R: 0.52 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0357 + J 0.0185 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.984 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.984 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.984 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.984 KA CBL-0480 251 LPGP 2.984 KA ANG: -27.43 253 LP1D JB FAULT: 7.509 KA AT -62.15 DEG ( 2.71 MVA) X/R: 1.90 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0075 + J 0.0141 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.509 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.687 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.509 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.509 KA CBL-0099 249 TAP 7.509 KA ANG: -62.15 254 RP-1D-1 FAULT: 6.751 KA AT -61.65 DEG ( 2.43 MVA) X/R: 1.86 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0084 + J 0.0157 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.751 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.872 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.751 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.751 KA

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== CONTRIBUTIONS TO 254 RP-1D-1 (CONTINUED) CBL-0101 253 LP1D JB 6.751 KA ANG: -241.65 255 RP-1D-2 FAULT: 6.667 KA AT -61.60 DEG ( 2.40 MVA) X/R: 1.85 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0086 + J 0.0158 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.667 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.783 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.667 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.667 KA CBL-0102 254 RP-1D-1 6.667 KA ANG: -241.60 256 TAP FAULT: 9.280 KA AT -63.31 DEG ( 3.34 MVA) X/R: 1.99 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0058 + J 0.0116 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.280 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.629 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.280 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.280 KA CBL-0104 241 MAIN SG B 9.280 KA ANG: -63.31 257 LP1B FAULT: 9.196 KA AT -63.05 DEG ( 3.31 MVA) X/R: 1.97 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0059 + J 0.0116 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.196 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.512 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.196 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.196 KA CBL-0105 256 TAP 9.196 KA ANG: -63.05 258 TAP FAULT: 8.909 KA AT -63.07 DEG ( 3.21 MVA) X/R: 1.97 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0061 + J 0.0120 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 8.909 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.218 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.909 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.909 KA CBL-0106 256 TAP 8.909 KA ANG: -63.07 259 LP2A FAULT: 8.755 KA AT -62.57 DEG ( 3.15 MVA) X/R: 1.93 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0063 + J 0.0122 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 8.755 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.007 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.755 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.755 KA CBL-0109 258 TAP 8.755 KA ANG: -242.57 260 LP2D FAULT: 8.832 KA AT -62.82 DEG ( 3.18 MVA) X/R: 1.95

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0062 + J 0.0121 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 8.832 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.111 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.832 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.832 KA CBL-0110 258 TAP 8.832 KA ANG: -62.82 261 TAP FAULT: 8.999 KA AT -63.13 DEG ( 3.24 MVA) X/R: 1.98 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0060 + J 0.0119 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 8.999 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.317 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.999 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.999 KA CBL-0111 241 MAIN SG B 8.999 KA ANG: -63.13 262 LP6C FAULT: 8.920 KA AT -62.88 DEG ( 3.21 MVA) X/R: 1.96 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0061 + J 0.0120 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 8.920 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.208 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.920 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.920 KA CBL-0112 261 TAP 8.920 KA ANG: -62.88 263 TAP FAULT: 8.650 KA AT -62.90 DEG ( 3.12 MVA) X/R: 1.96 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0063 + J 0.0124 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 8.650 KA MOLDED CASE CIRCUIT BREAKER < 10KA 8.932 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.650 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.650 KA CBL-0113 261 TAP 8.650 KA ANG: -62.90 264 LP7C FAULT: 8.577 KA AT -62.66 DEG ( 3.09 MVA) X/R: 1.94 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0064 + J 0.0124 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 8.577 KA MOLDED CASE CIRCUIT BREAKER < 10KA 8.832 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.577 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.577 KA CBL-0114 263 TAP 8.577 KA ANG: -62.66 265 TAP FAULT: 8.327 KA AT -62.69 DEG ( 3.00 MVA) X/R: 1.94 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0066 + J 0.0128 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 8.327 KA MOLDED CASE CIRCUIT BREAKER < 10KA 8.578 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.327 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.327 KA CBL-0115 263 TAP 8.327 KA ANG: -62.69 266 LP8C FAULT: 8.259 KA AT -62.46 DEG ( 2.98 MVA) X/R: 1.92 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0067 + J 0.0129 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 8.259 KA MOLDED CASE CIRCUIT BREAKER < 10KA 8.485 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.259 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.259 KA CBL-0116 265 TAP 8.259 KA ANG: -62.46 267 TAP FAULT: 8.028 KA AT -62.49 DEG ( 2.89 MVA) X/R: 1.92 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0069 + J 0.0133 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 8.028 KA MOLDED CASE CIRCUIT BREAKER < 10KA 8.250 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.028 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.028 KA CBL-0117 265 TAP 8.028 KA ANG: -62.49 268 LP9C1 FAULT: 7.907 KA AT -61.54 DEG ( 2.85 MVA) X/R: 1.85 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0072 + J 0.0134 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.907 KA MOLDED CASE CIRCUIT BREAKER < 10KA 8.040 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.907 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.907 KA CBL-0118 267 TAP 7.907 KA ANG: -61.54 269 LP9C FAULT: 7.964 KA AT -62.27 DEG ( 2.87 MVA) X/R: 1.91 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0070 + J 0.0133 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.964 KA MOLDED CASE CIRCUIT BREAKER < 10KA 8.164 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.964 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.964 KA CBL-0119 267 TAP 7.964 KA ANG: -62.27 270 TAP FAULT: 10.198 KA AT -63.92 DEG ( 3.67 MVA) X/R: 2.05 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0052 + J 0.0106 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 10.198 KA MOLDED CASE CIRCUIT BREAKER < 20KA 10.198 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.198 KA CBL-0120 241 MAIN SG B 10.198 KA ANG: -63.92

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== 271 LPGC-B FAULT: 10.097 KA AT -63.62 DEG ( 3.64 MVA) X/R: 2.02 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0053 + J 0.0107 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 10.097 KA MOLDED CASE CIRCUIT BREAKER < 20KA 10.097 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.097 KA CBL-0122 270 TAP 10.097 KA ANG: -63.62 272 LPGC-C FAULT: 9.457 KA AT -59.57 DEG ( 3.41 MVA) X/R: 1.71 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0064 + J 0.0109 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.457 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.457 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.457 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.457 KA CBL-0121 271 LPGC-B 9.457 KA ANG: -239.57 273 LPGC-A FAULT: 10.097 KA AT -63.62 DEG ( 3.64 MVA) X/R: 2.02 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0053 + J 0.0107 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 10.097 KA MOLDED CASE CIRCUIT BREAKER < 20KA 10.097 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.097 KA CBL-0123 270 TAP 10.097 KA ANG: -63.62 277 TAP FAULT: 9.682 KA AT -63.58 DEG ( 3.49 MVA) X/R: 2.02 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0055 + J 0.0111 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.682 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.682 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.682 KA CBL-0124 270 TAP 9.682 KA ANG: -63.58 278 LP1C FAULT: 9.591 KA AT -63.30 DEG ( 3.46 MVA) X/R: 1.99 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0056 + J 0.0112 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.591 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.950 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.591 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.591 KA CBL-0126 277 TAP 9.591 KA ANG: -63.30 279 TAP FAULT: 9.280 KA AT -63.31 DEG ( 3.34 MVA) X/R: 1.99 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0058 + J 0.0116 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.280 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.629 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.280 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.280 KA

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== CONTRIBUTIONS TO 279 TAP (CONTINUED) CBL-0125 277 TAP 9.280 KA ANG: -63.31 280 LP2C-A FAULT: 9.121 KA AT -62.20 DEG ( 3.29 MVA) X/R: 1.90 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0061 + J 0.0116 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.121 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.344 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.121 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.121 KA CBL-0127 279 TAP 9.121 KA ANG: -62.20 281 LP2C FAULT: 9.196 KA AT -63.05 DEG ( 3.31 MVA) X/R: 1.97 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0059 + J 0.0116 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.196 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.512 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.196 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.196 KA CBL-0128 279 TAP 9.196 KA ANG: -63.05 282 TAP FAULT: 10.237 KA AT -63.94 DEG ( 3.69 MVA) X/R: 2.05 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0052 + J 0.0105 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 10.237 KA MOLDED CASE CIRCUIT BREAKER < 20KA 10.237 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.237 KA CBL-0095 241 MAIN SG B 10.237 KA ANG: -63.94 283 LP3C FAULT: 10.135 KA AT -63.65 DEG ( 3.65 MVA) X/R: 2.02 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0053 + J 0.0106 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 10.135 KA MOLDED CASE CIRCUIT BREAKER < 20KA 10.135 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.135 KA CBL-0137 282 TAP 10.135 KA ANG: -63.65 284 TAP FAULT: 9.788 KA AT -63.65 DEG ( 3.53 MVA) X/R: 2.02 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0054 + J 0.0110 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.788 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.788 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.788 KA CBL-0138 282 TAP 9.788 KA ANG: -63.65 285 LP4C FAULT: 9.695 KA AT -63.37 DEG ( 3.49 MVA) X/R: 2.00 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0056 + J 0.0111 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 9.695 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.695 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.695 KA CBL-0139 284 TAP 9.695 KA ANG: -63.37 286 TAP FAULT: 9.377 KA AT -63.38 DEG ( 3.38 MVA) X/R: 2.00 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0057 + J 0.0114 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.377 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.737 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.377 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.377 KA CBL-0140 284 TAP 9.377 KA ANG: -63.38 287 LP5C FAULT: 9.291 KA AT -63.11 DEG ( 3.35 MVA) X/R: 1.98 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0058 + J 0.0115 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.291 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.618 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.291 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.291 KA CBL-0141 286 TAP 9.291 KA ANG: -63.11 288 PPGM-B AC SHOP FAULT: 7.817 KA AT -62.35 DEG ( 2.82 MVA) X/R: 1.91 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0071 + J 0.0136 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.817 KA MOLDED CASE CIRCUIT BREAKER < 10KA 8.020 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.817 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.817 KA CBL-0142 241 MAIN SG B 7.817 KA ANG: -62.35 289 TAP FAULT: 23.446 KA AT -72.77 DEG ( 8.45 MVA) X/R: 3.25 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0015 + J 0.0049 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 23.446 KA MOLDED CASE CIRCUIT BREAKER > 20KA 23.446 KA CBL-0143 241 MAIN SG B 23.446 KA ANG: -72.77 290 PPGN-C FAULT: 19.665 KA AT -64.95 DEG ( 7.08 MVA) X/R: 2.15 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0026 + J 0.0055 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 19.665 KA MOLDED CASE CIRCUIT BREAKER < 20KA 19.665 KA MOLDED CASE CIRCUIT BREAKER > 20KA 19.665 KA CBL-0144 289 TAP 19.665 KA ANG: -64.95 291 PPGN-B FAULT: 22.965 KA AT -71.91 DEG ( 8.27 MVA) X/R: 3.08 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0016 + J 0.0050 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 22.965 KA MOLDED CASE CIRCUIT BREAKER > 20KA 22.965 KA CBL-0145 289 TAP 22.965 KA ANG: -71.91 293 PPGN-A FAULT: 22.965 KA AT -71.91 DEG ( 8.27 MVA) X/R: 3.08 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0016 + J 0.0050 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 22.965 KA MOLDED CASE CIRCUIT BREAKER > 20KA 22.965 KA CBL-0146 289 TAP 22.965 KA ANG: -71.91 294 XRAY 2FL FAULT: 9.416 KA AT -54.92 DEG ( 3.39 MVA) X/R: 1.43 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0073 + J 0.0104 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.416 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.416 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.416 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.416 KA CBL-0147 241 MAIN SG B 9.416 KA ANG: -54.92 295 TAP FAULT: 7.986 KA AT -53.49 DEG ( 2.88 MVA) X/R: 1.35 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0089 + J 0.0121 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.986 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.986 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.986 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.986 KA CBL-0148 241 MAIN SG B 7.986 KA ANG: -53.49 296 PNL C FAULT: 7.899 KA AT -53.17 DEG ( 2.85 MVA) X/R: 1.34 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0091 + J 0.0122 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.899 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.899 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.899 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.899 KA CBL-0149 295 TAP 7.899 KA ANG: -53.17 297 LP2L FAULT: 7.694 KA AT -51.26 DEG ( 2.77 MVA) X/R: 1.25 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0098 + J 0.0122 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.694 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.694 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.694 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.694 KA CBL-0150 295 TAP 7.694 KA ANG: -51.26 298 PP2K FAULT: 7.899 KA AT -53.17 DEG ( 2.85 MVA) X/R: 1.34 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0091 + J 0.0122 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 7.899 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.899 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.899 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.899 KA CBL-0151 295 TAP 7.899 KA ANG: -53.17 299 TAP FAULT: 7.346 KA AT -52.85 DEG ( 2.65 MVA) X/R: 1.32 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0099 + J 0.0130 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.346 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.346 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.346 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.346 KA CBL-0152 295 TAP 7.346 KA ANG: -52.85 300 PP4K FAULT: 7.272 KA AT -52.56 DEG ( 2.62 MVA) X/R: 1.31 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0100 + J 0.0131 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.272 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.272 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.272 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.272 KA CBL-0153 299 TAP 7.272 KA ANG: -52.56 301 PP5K FAULT: 7.018 KA AT -52.53 DEG ( 2.53 MVA) X/R: 1.31 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0104 + J 0.0136 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.018 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.018 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.018 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.018 KA CBL-0154 299 TAP 7.018 KA ANG: -52.53 302 TAP FAULT: 6.637 KA AT -52.15 DEG ( 2.39 MVA) X/R: 1.29 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0111 + J 0.0143 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.637 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.637 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.637 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.637 KA CBL-0156 241 MAIN SG B 6.637 KA ANG: -52.15 303 PP10N FAULT: 6.367 KA AT -51.88 DEG ( 2.29 MVA) X/R: 1.28 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0116 + J 0.0148 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.367 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.367 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.367 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.367 KA

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== CONTRIBUTIONS TO 303 PP10N (CONTINUED) CBL-0157 302 TAP 6.367 KA ANG: -51.88 304 PP9M FAULT: 6.566 KA AT -51.79 DEG ( 2.37 MVA) X/R: 1.27 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0113 + J 0.0144 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.566 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.566 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.566 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.566 KA CBL-0158 302 TAP 6.566 KA ANG: -51.79 305 CAPACITOR B FAULT: 21.017 KA AT -68.25 DEG ( 7.57 MVA) X/R: 2.52 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0021 + J 0.0053 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 21.017 KA MOLDED CASE CIRCUIT BREAKER > 20KA 21.017 KA CBL-0160 241 MAIN SG B 21.017 KA ANG: -68.25 306 TAP FAULT: 7.299 KA AT -55.82 DEG ( 2.63 MVA) X/R: 1.47 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0092 + J 0.0136 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.299 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.299 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.299 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.299 KA CBL-0161 241 MAIN SG B 7.299 KA ANG: -55.82 307 LP5B-LH FAULT: 7.244 KA AT -55.66 DEG ( 2.61 MVA) X/R: 1.47 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0094 + J 0.0137 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.244 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.244 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.244 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.244 KA CBL-0162 306 TAP 7.244 KA ANG: -55.66 308 LP5B-RH FAULT: 7.244 KA AT -55.66 DEG ( 2.61 MVA) X/R: 1.47 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0094 + J 0.0137 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.244 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.244 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.244 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.244 KA CBL-0163 306 TAP 7.244 KA ANG: -55.66 309 PPGK FAULT: 6.529 KA AT -39.73 DEG ( 2.35 MVA) X/R: 0.83 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0141 + J 0.0118 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 6.529 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.529 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.529 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.529 KA CBL-0164 241 MAIN SG B 6.529 KA ANG: -39.73 310 TAP FAULT: 6.328 KA AT -48.12 DEG ( 2.28 MVA) X/R: 1.12 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0127 + J 0.0141 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.328 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.328 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.328 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.328 KA CBL-0165 241 MAIN SG B 6.328 KA ANG: -48.12 311 PP6K FAULT: 6.285 KA AT -48.04 DEG ( 2.26 MVA) X/R: 1.11 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0128 + J 0.0142 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.285 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.285 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.285 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.285 KA CBL-0167 310 TAP 6.285 KA ANG: -48.04 312 TAP FAULT: 6.096 KA AT -47.86 DEG ( 2.20 MVA) X/R: 1.11 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0132 + J 0.0146 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.096 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.096 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.096 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.096 KA CBL-0166 310 TAP 6.096 KA ANG: -47.86 313 PP8K FAULT: 5.846 KA AT -47.59 DEG ( 2.11 MVA) X/R: 1.10 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0139 + J 0.0152 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.846 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.846 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.846 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.846 KA CBL-0168 312 TAP 5.846 KA ANG: -47.59 314 PP7K FAULT: 6.056 KA AT -47.79 DEG ( 2.18 MVA) X/R: 1.10 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0133 + J 0.0147 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.056 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.056 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.056 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.056 KA

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== CONTRIBUTIONS TO 314 PP7K (CONTINUED) CBL-0169 312 TAP 6.056 KA ANG: -47.79 320 AC SWBD FAULT: 30.151 KA AT -80.17 DEG ( 25.07 MVA) X/R: 6.13 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0016 + J 0.0091 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 30.151 KA MOLDED CASE CIRCUIT BREAKER > 20KA 31.579 KA CBL-0230 324 MCC IN AC ROOM 5.409 KA ANG: 95.90 T-1-5 022 SWITCH B2 24.758 KA ANG: -259.31 321 LPGE FAULT: 19.634 KA AT -63.15 DEG ( 16.32 MVA) X/R: 2.00 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0064 + J 0.0126 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 19.634 KA MOLDED CASE CIRCUIT BREAKER < 20KA 19.634 KA MOLDED CASE CIRCUIT BREAKER > 20KA 19.634 KA CBL-0227 320 AC SWBD 19.634 KA ANG: -63.15 322 LP-8E FAULT: 4.542 KA AT -24.39 DEG ( 3.78 MVA) X/R: 0.45 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0556 + J 0.0252 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 4.542 KA MOLDED CASE CIRCUIT BREAKER < 10KA 4.542 KA MOLDED CASE CIRCUIT BREAKER < 20KA 4.542 KA MOLDED CASE CIRCUIT BREAKER > 20KA 4.542 KA CBL-0229 321 LPGE 4.542 KA ANG: -24.39 323 HP-9M FAULT: 9.701 KA AT -49.22 DEG ( 8.07 MVA) X/R: 1.16 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0187 + J 0.0216 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.701 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.701 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.701 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.701 KA CBL-0477 320 AC SWBD 9.701 KA ANG: -49.22 324 MCC IN AC ROOM FAULT: 29.869 KA AT -79.56 DEG ( 24.83 MVA) X/R: 5.87 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0017 + J 0.0091 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 29.869 KA MOLDED CASE CIRCUIT BREAKER > 20KA 31.026 KA CONTRIBUTIONS: AC MCC 5.421 KA ANG: -84.29 CBL-0230 320 AC SWBD 24.470 KA ANG: -78.51 330 XFMR T-1-4 SEC FAULT: 17.896 KA AT -76.48 DEG ( 6.45 MVA) X/R: 4.24 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0016 + J 0.0065 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 17.896 KA MOLDED CASE CIRCUIT BREAKER < 20KA 19.261 KA MOLDED CASE CIRCUIT BREAKER > 20KA 17.896 KA T-1-4 023 XFMR T-1-4 PRI 17.391 KA ANG: -256.28 CBL-0420 331 DIETETICS ECB 0.509 KA ANG: 96.51 331 DIETETICS ECB FAULT: 14.779 KA AT -73.14 DEG ( 5.32 MVA) X/R: 3.43 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0024 + J 0.0078 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 14.779 KA MOLDED CASE CIRCUIT BREAKER < 20KA 15.074 KA MOLDED CASE CIRCUIT BREAKER > 20KA 14.779 KA CBL-0420 330 XFMR T-1-4 SEC 14.276 KA ANG: -72.77 CBL-0437 332 KDP 0.512 KA ANG: -83.66 332 KDP FAULT: 14.489 KA AT -72.84 DEG ( 5.22 MVA) X/R: 3.37 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0024 + J 0.0079 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 14.489 KA MOLDED CASE CIRCUIT BREAKER < 20KA 14.714 KA MOLDED CASE CIRCUIT BREAKER > 20KA 14.489 KA CBL-0520 BUS-0553 0.512 KA ANG: 96.32 CBL-0437 331 DIETETICS ECB 13.987 KA ANG: -252.45 333 FOOD TRAY FAULT: 6.426 KA AT -42.01 DEG ( 2.32 MVA) X/R: 0.91 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0139 + J 0.0125 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.426 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.426 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.426 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.426 KA CBL-0438 332 KDP 6.426 KA ANG: -42.01 334 KPA FAULT: 7.631 KA AT -51.52 DEG ( 2.75 MVA) X/R: 1.27 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0098 + J 0.0123 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.631 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.631 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.631 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.631 KA CBL-0439 332 KDP 7.631 KA ANG: -51.52 335 KPD FAULT: 7.631 KA AT -51.52 DEG ( 2.75 MVA) X/R: 1.27 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0098 + J 0.0123 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.631 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.631 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.631 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.631 KA

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== CONTRIBUTIONS TO 335 KPD (CONTINUED) CBL-0440 332 KDP 7.631 KA ANG: -51.52 336 KLP FAULT: 8.247 KA AT -48.10 DEG ( 2.97 MVA) X/R: 1.12 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0097 + J 0.0108 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 8.247 KA MOLDED CASE CIRCUIT BREAKER < 10KA 8.247 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.247 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.247 KA CBL-0441 332 KDP 8.247 KA ANG: -48.10 337 UTIL DIST FAULT: 7.234 KA AT -44.68 DEG ( 2.61 MVA) X/R: 1.00 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0118 + J 0.0117 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.234 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.234 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.234 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.234 KA CBL-0442 332 KDP 7.234 KA ANG: -44.68 338 PP FAULT: 11.112 KA AT -61.74 DEG ( 4.00 MVA) X/R: 1.89 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0051 + J 0.0095 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 11.112 KA MOLDED CASE CIRCUIT BREAKER < 20KA 11.112 KA MOLDED CASE CIRCUIT BREAKER > 20KA 11.112 KA CBL-0443 332 KDP 11.112 KA ANG: -61.74 340 XRAY SUBSTATION FAULT: 12.918 KA AT -78.58 DEG ( 10.74 MVA) X/R: 5.00 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0042 + J 0.0210 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 12.918 KA MOLDED CASE CIRCUIT BREAKER < 20KA 14.436 KA MOLDED CASE CIRCUIT BREAKER > 20KA 12.977 KA T-1-3 020 SWITCH A1 12.918 KA ANG: 101.42 341 PANEL A FAULT: 10.512 KA AT -72.76 DEG ( 8.74 MVA) X/R: 3.24 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0078 + J 0.0252 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 10.512 KA MOLDED CASE CIRCUIT BREAKER < 20KA 10.566 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.512 KA CBL-0433 340 XRAY SUBSTATION 10.512 KA ANG: -72.76 402 MAIN BRKR FAULT: 8.924 KA AT -86.52 DEG ( 3.22 MVA) X/R: 16.43 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0008 + J 0.0134 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 10.053 KA MOLDED CASE CIRCUIT BREAKER < 20KA 11.874 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.674 KA CBL-0391 401 BLDG 18 EMERG GEN 8.924 KA ANG: -86.52 403 CRITICAL BRKR FAULT: 8.879 KA AT -86.26 DEG ( 3.20 MVA) X/R: 15.30 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0009 + J 0.0135 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.939 KA MOLDED CASE CIRCUIT BREAKER < 20KA 11.739 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.552 KA CBL-0392 402 MAIN BRKR 8.879 KA ANG: -86.26 404 BLDG18 CRITICAL EMERGENCY FAULT: 8.610 KA AT -84.79 DEG ( 3.10 MVA) X/R: 10.96 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0013 + J 0.0139 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.301 KA MOLDED CASE CIRCUIT BREAKER < 20KA 10.985 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.875 KA CBL-0394 403 CRITICAL BRKR 8.610 KA ANG: -84.79 410 DPE BRKR FAULT: 8.698 KA AT -85.27 DEG ( 3.13 MVA) X/R: 12.08 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0011 + J 0.0138 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.504 KA MOLDED CASE CIRCUIT BREAKER < 20KA 11.226 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.091 KA CBL-0393 402 MAIN BRKR 8.698 KA ANG: -85.27 411 DPE FAULT: 7.496 KA AT -78.97 DEG ( 2.70 MVA) X/R: 5.13 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0031 + J 0.0157 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.496 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.940 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.424 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.573 KA CBL-0406 410 DPE BRKR 7.496 KA ANG: -78.97 417 ATS 7_L FAULT: 22.123 KA AT -68.80 DEG ( 7.97 MVA) X/R: 2.59 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0020 + J 0.0051 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 22.123 KA MOLDED CASE CIRCUIT BREAKER > 20KA 22.123 KA ATS 7 244 ATS 7_N 22.123 KA ANG: 111.20 418 EDP1 FAULT: 21.362 KA AT -68.10 DEG ( 7.70 MVA) X/R: 2.50 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0021 + J 0.0052 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 21.362 KA MOLDED CASE CIRCUIT BREAKER > 20KA 21.362 KA CBL-0266 417 ATS 7_L 21.362 KA ANG: -68.10 419 PLGN FAULT: 3.704 KA AT -22.40 DEG ( 1.33 MVA) X/R: 0.41 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0300 + J 0.0124 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 3.704 KA MOLDED CASE CIRCUIT BREAKER < 10KA 3.704 KA MOLDED CASE CIRCUIT BREAKER < 20KA 3.704 KA MOLDED CASE CIRCUIT BREAKER > 20KA 3.704 KA CBL-0269 418 EDP1 3.704 KA ANG: -22.40 420 PL5N FAULT: 2.825 KA AT -20.49 DEG ( 1.02 MVA) X/R: 0.37 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0398 + J 0.0149 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.825 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.825 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.825 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.825 KA CBL-0273 418 EDP1 2.825 KA ANG: -20.49 421 PL1N FAULT: 3.487 KA AT -21.93 DEG ( 1.26 MVA) X/R: 0.40 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0319 + J 0.0129 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 3.487 KA MOLDED CASE CIRCUIT BREAKER < 10KA 3.487 KA MOLDED CASE CIRCUIT BREAKER < 20KA 3.487 KA MOLDED CASE CIRCUIT BREAKER > 20KA 3.487 KA CBL-0422 418 EDP1 3.487 KA ANG: -21.93 422 PL6N FAULT: 2.697 KA AT -20.21 DEG ( 0.97 MVA) X/R: 0.37 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0418 + J 0.0154 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.697 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.697 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.697 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.697 KA CBL-0276 418 EDP1 2.697 KA ANG: -20.21 423 PL2N FAULT: 3.295 KA AT -21.51 DEG ( 1.19 MVA) X/R: 0.39 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0339 + J 0.0134 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 3.295 KA MOLDED CASE CIRCUIT BREAKER < 10KA 3.295 KA MOLDED CASE CIRCUIT BREAKER < 20KA 3.295 KA MOLDED CASE CIRCUIT BREAKER > 20KA 3.295 KA CBL-0423 418 EDP1 3.295 KA ANG: -21.51

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== 424 PL7N FAULT: 2.580 KA AT -19.95 DEG ( 0.93 MVA) X/R: 0.36 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0438 + J 0.0159 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.580 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.580 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.580 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.580 KA CBL-0278 418 EDP1 2.580 KA ANG: -19.95 425 PL3N FAULT: 3.122 KA AT -21.13 DEG ( 1.12 MVA) X/R: 0.39 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0359 + J 0.0139 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 3.122 KA MOLDED CASE CIRCUIT BREAKER < 10KA 3.122 KA MOLDED CASE CIRCUIT BREAKER < 20KA 3.122 KA MOLDED CASE CIRCUIT BREAKER > 20KA 3.122 KA CBL-0270 418 EDP1 3.122 KA ANG: -21.13 426 PL8N FAULT: 2.473 KA AT -19.72 DEG ( 0.89 MVA) X/R: 0.36 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0457 + J 0.0164 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.473 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.473 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.473 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.473 KA CBL-0280 418 EDP1 2.473 KA ANG: -19.72 427 PL4N FAULT: 2.966 KA AT -20.79 DEG ( 1.07 MVA) X/R: 0.38 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0378 + J 0.0144 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.966 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.966 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.966 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.966 KA CBL-0272 418 EDP1 2.966 KA ANG: -20.79 428 EC3 FAULT: 6.298 KA AT -52.07 DEG ( 2.27 MVA) X/R: 1.28 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0117 + J 0.0150 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.298 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.298 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.298 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.298 KA CBL-0424 418 EDP1 6.298 KA ANG: -52.07 429 E2-4W SEC#1 FAULT: 5.279 KA AT -47.56 DEG ( 1.90 MVA) X/R: 1.09 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0153 + J 0.0168 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 5.279 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.279 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.279 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.279 KA CBL-0411 418 EDP1 5.279 KA ANG: -47.56 430 CB3W FAULT: 5.423 KA AT -47.74 DEG ( 1.95 MVA) X/R: 1.10 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0149 + J 0.0164 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.423 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.423 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.423 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.423 KA CBL-0426 418 EDP1 5.423 KA ANG: -47.74 431 CBME FAULT: 5.287 KA AT -46.80 DEG ( 1.90 MVA) X/R: 1.07 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0155 + J 0.0166 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.287 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.287 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.287 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.287 KA CBL-0427 430 CB3W 5.287 KA ANG: -46.80 432 ATS 9_L FAULT: 17.413 KA AT -59.08 DEG ( 6.27 MVA) X/R: 1.67 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0035 + J 0.0059 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 17.413 KA MOLDED CASE CIRCUIT BREAKER < 20KA 17.413 KA MOLDED CASE CIRCUIT BREAKER > 20KA 17.413 KA ATS 9 245 ATS 9_N 17.413 KA ANG: 120.92 433 LP9C FAULT: 2.831 KA AT -20.93 DEG ( 1.02 MVA) X/R: 0.38 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0396 + J 0.0152 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.831 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.831 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.831 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.831 KA CBL-0301 432 ATS 9_L 2.831 KA ANG: -20.93 434 ATS 8_L FAULT: 17.413 KA AT -59.08 DEG ( 6.27 MVA) X/R: 1.67 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0035 + J 0.0059 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 17.413 KA MOLDED CASE CIRCUIT BREAKER < 20KA 17.413 KA MOLDED CASE CIRCUIT BREAKER > 20KA 17.413 KA ATS 8 246 ATS 8_N 17.413 KA ANG: 120.92

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== 435 EDP FAULT: 16.815 KA AT -58.26 DEG ( 6.06 MVA) X/R: 1.62 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0038 + J 0.0061 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 16.815 KA MOLDED CASE CIRCUIT BREAKER < 20KA 16.815 KA MOLDED CASE CIRCUIT BREAKER > 20KA 16.815 KA CBL-0282 434 ATS 8_L 16.815 KA ANG: -58.26 436 LPGN-N FAULT: 3.503 KA AT -22.67 DEG ( 1.26 MVA) X/R: 0.42 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0316 + J 0.0132 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 3.503 KA MOLDED CASE CIRCUIT BREAKER < 10KA 3.503 KA MOLDED CASE CIRCUIT BREAKER < 20KA 3.503 KA MOLDED CASE CIRCUIT BREAKER > 20KA 3.503 KA CBL-0283 435 EDP 3.503 KA ANG: -22.67 437 LP1N-N FAULT: 3.309 KA AT -22.21 DEG ( 1.19 MVA) X/R: 0.41 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0336 + J 0.0137 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 3.309 KA MOLDED CASE CIRCUIT BREAKER < 10KA 3.309 KA MOLDED CASE CIRCUIT BREAKER < 20KA 3.309 KA MOLDED CASE CIRCUIT BREAKER > 20KA 3.309 KA CBL-0286 435 EDP 3.309 KA ANG: -22.21 438 LP2N-N FAULT: 3.135 KA AT -21.79 DEG ( 1.13 MVA) X/R: 0.40 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0356 + J 0.0142 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 3.135 KA MOLDED CASE CIRCUIT BREAKER < 10KA 3.135 KA MOLDED CASE CIRCUIT BREAKER < 20KA 3.135 KA MOLDED CASE CIRCUIT BREAKER > 20KA 3.135 KA CBL-0287 435 EDP 3.135 KA ANG: -21.79 439 LP3N-N FAULT: 2.978 KA AT -21.42 DEG ( 1.07 MVA) X/R: 0.39 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0375 + J 0.0147 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.978 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.978 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.978 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.978 KA CBL-0290 435 EDP 2.978 KA ANG: -21.42 440 LP4N-N FAULT: 2.836 KA AT -21.08 DEG ( 1.02 MVA) X/R: 0.39 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0395 + J 0.0152 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 2.836 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.836 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.836 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.836 KA CBL-0291 435 EDP 2.836 KA ANG: -21.08 441 LP5N-N FAULT: 2.707 KA AT -20.77 DEG ( 0.98 MVA) X/R: 0.38 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0415 + J 0.0157 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.707 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.707 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.707 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.707 KA CBL-0294 435 EDP 2.707 KA ANG: -20.77 442 LP6N-N FAULT: 2.589 KA AT -20.49 DEG ( 0.93 MVA) X/R: 0.37 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0434 + J 0.0162 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.589 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.589 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.589 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.589 KA CBL-0295 435 EDP 2.589 KA ANG: -20.49 443 LP7N-N FAULT: 2.481 KA AT -20.24 DEG ( 0.89 MVA) X/R: 0.37 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0454 + J 0.0167 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.481 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.481 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.481 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.481 KA CBL-0298 435 EDP 2.481 KA ANG: -20.24 444 LP8N-N FAULT: 2.382 KA AT -20.00 DEG ( 0.86 MVA) X/R: 0.36 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0474 + J 0.0172 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.382 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.382 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.382 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.382 KA CBL-0299 435 EDP 2.382 KA ANG: -20.00 445 ATS 10_L FAULT: 25.453 KA AT -71.19 DEG ( 9.17 MVA) X/R: 2.96 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0015 + J 0.0045 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 25.453 KA MOLDED CASE CIRCUIT BREAKER > 20KA 25.453 KA ATS 10 EE3 IN ICU 247 ATS 10_N 25.453 KA ANG: -71.19

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== 446 EE3 FAULT: 7.069 KA AT -49.12 DEG ( 2.55 MVA) X/R: 1.16 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0111 + J 0.0128 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.069 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.069 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.069 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.069 KA CBL-0476 445 ATS 10_L 7.069 KA ANG: -49.12 450 XFMR T-13A SEC FAULT: 15.731 KA AT -75.74 DEG ( 5.67 MVA) X/R: 3.97 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0019 + J 0.0074 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 15.731 KA MOLDED CASE CIRCUIT BREAKER < 20KA 16.656 KA MOLDED CASE CIRCUIT BREAKER > 20KA 15.731 KA T-13A 003 XFMR T-13A PRI 14.762 KA ANG: -255.51 CBL-0322 451 BUG 0.970 KA ANG: 100.74 451 BUG FAULT: 14.484 KA AT -74.28 DEG ( 5.22 MVA) X/R: 3.60 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0022 + J 0.0080 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 14.484 KA MOLDED CASE CIRCUIT BREAKER < 20KA 14.966 KA MOLDED CASE CIRCUIT BREAKER > 20KA 14.484 KA CBL-0322 450 XFMR T-13A SEC 13.513 KA ANG: -73.92 CBL-0460 453 UNMARKED PANEL 0.976 KA ANG: -79.40 452 EMG PANEL FAULT: 13.443 KA AT -66.65 DEG ( 4.84 MVA) X/R: 2.34 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0035 + J 0.0082 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 13.443 KA MOLDED CASE CIRCUIT BREAKER < 20KA 13.443 KA MOLDED CASE CIRCUIT BREAKER > 20KA 13.443 KA CBL-0461 451 BUG 13.443 KA ANG: -246.65 453 UNMARKED PANEL FAULT: 14.481 KA AT -74.28 DEG ( 5.22 MVA) X/R: 3.60 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0022 + J 0.0080 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 14.481 KA MOLDED CASE CIRCUIT BREAKER < 20KA 14.961 KA MOLDED CASE CIRCUIT BREAKER > 20KA 14.481 KA CBL-0382 455 400A DISCONNECT 0.976 KA ANG: 100.60 CBL-0460 451 BUG 13.509 KA ANG: -253.91 454 POWER PANEL FAULT: 14.034 KA AT -72.92 DEG ( 5.06 MVA) X/R: 3.29 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0025 + J 0.0082 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 14.034 KA MOLDED CASE CIRCUIT BREAKER < 20KA 14.165 KA MOLDED CASE CIRCUIT BREAKER > 20KA 14.034 KA CBL-0318 453 UNMARKED PANEL 14.034 KA ANG: -72.92 455 400A DISCONNECT FAULT: 8.153 KA AT -60.86 DEG ( 2.94 MVA) X/R: 2.20 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0072 + J 0.0129 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 8.153 KA MOLDED CASE CIRCUIT BREAKER < 10KA 8.687 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.153 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.153 KA CONTRIBUTIONS: BLDG #13 CHILLER 1.031 KA ANG: -81.99 CBL-0382 453 UNMARKED PANEL 7.201 KA ANG: -57.90 456 LP-1 FAULT: 13.880 KA AT -70.40 DEG ( 5.00 MVA) X/R: 2.84 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0029 + J 0.0082 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 13.880 KA MOLDED CASE CIRCUIT BREAKER < 20KA 13.880 KA MOLDED CASE CIRCUIT BREAKER > 20KA 13.880 KA CBL-0319 453 UNMARKED PANEL 13.880 KA ANG: -70.40 457 PNL A (LP-2) FAULT: 3.746 KA AT -27.30 DEG ( 1.35 MVA) X/R: 0.52 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0285 + J 0.0147 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 3.746 KA MOLDED CASE CIRCUIT BREAKER < 10KA 3.746 KA MOLDED CASE CIRCUIT BREAKER < 20KA 3.746 KA MOLDED CASE CIRCUIT BREAKER > 20KA 3.746 KA CBL-0320 453 UNMARKED PANEL 3.746 KA ANG: -27.30 458 NEW EQ CTR FAULT: 7.500 KA AT -40.99 DEG ( 2.70 MVA) X/R: 0.87 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0121 + J 0.0105 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.500 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.500 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.500 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.500 KA CBL-0324 453 UNMARKED PANEL 7.500 KA ANG: -40.99 459 PNL B (OL) FAULT: 3.746 KA AT -27.30 DEG ( 1.35 MVA) X/R: 0.52 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0285 + J 0.0147 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 3.746 KA MOLDED CASE CIRCUIT BREAKER < 10KA 3.746 KA MOLDED CASE CIRCUIT BREAKER < 20KA 3.746 KA MOLDED CASE CIRCUIT BREAKER > 20KA 3.746 KA CBL-0321 453 UNMARKED PANEL 3.746 KA ANG: -27.30

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== 460 XFMR T-13B SEC FAULT: 10.025 KA AT -73.60 DEG ( 3.61 MVA) X/R: 3.40 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0034 + J 0.0115 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 10.025 KA MOLDED CASE CIRCUIT BREAKER < 20KA 10.207 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.025 KA T-13B 004 XFMR T-13B PRI 10.025 KA ANG: 106.40 461 NON-FUSED DISCONNECT FAULT: 9.265 KA AT -71.31 DEG ( 3.34 MVA) X/R: 2.96 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0042 + J 0.0123 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.265 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.265 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.265 KA CBL-0380 460 XFMR T-13B SEC 9.265 KA ANG: -71.31 462 CP1 FAULT: 7.271 KA AT -65.50 DEG ( 2.62 MVA) X/R: 2.20 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0068 + J 0.0150 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.271 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.748 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.271 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.271 KA CBL-0381 461 NON-FUSED DISCONNECT 7.271 KA ANG: -65.50 500 XFMR T-19B SEC FAULT: 21.414 KA AT -75.44 DEG ( 7.71 MVA) X/R: 3.87 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0014 + J 0.0054 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 21.414 KA MOLDED CASE CIRCUIT BREAKER > 20KA 21.414 KA T-19B 019 SWITCH B6 21.414 KA ANG: 104.56 501 XFMR T-19A SEC FAULT: 21.416 KA AT -75.45 DEG ( 7.72 MVA) X/R: 3.87 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0014 + J 0.0054 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 21.416 KA MOLDED CASE CIRCUIT BREAKER > 20KA 21.416 KA T-19A 025 SWITCH A6 21.416 KA ANG: -255.45 502 CRITICAL SWBD BLDG #18 FAULT: 18.707 KA AT -71.36 DEG ( 6.74 MVA) X/R: 2.98 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0021 + J 0.0061 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 18.707 KA MOLDED CASE CIRCUIT BREAKER < 20KA 18.707 KA MOLDED CASE CIRCUIT BREAKER > 20KA 18.707 KA CBL-0038 500 XFMR T-19B SEC 18.707 KA ANG: -71.36 505 LP1 FAULT: 14.604 KA AT -59.78 DEG ( 5.26 MVA) X/R: 1.72 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0041 + J 0.0071 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 14.604 KA MOLDED CASE CIRCUIT BREAKER < 20KA 14.604 KA MOLDED CASE CIRCUIT BREAKER > 20KA 14.604 KA CBL-0255 502 CRITICAL SWBD BLDG #18 14.604 KA ANG: -59.78 509 ATS 1_L FAULT: 7.190 KA AT -45.35 DEG ( 2.59 MVA) X/R: 1.01 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0117 + J 0.0119 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.190 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.190 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.190 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.190 KA ATS 1 EDP-E 503 ATS 1_N 7.190 KA ANG: 134.65 510 EDP-E FAULT: 6.346 KA AT -41.39 DEG ( 2.29 MVA) X/R: 0.88 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0142 + J 0.0125 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.346 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.346 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.346 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.346 KA CBL-0302 509 ATS 1_L 6.346 KA ANG: -41.39 511 EDPA FAULT: 6.101 KA AT -40.27 DEG ( 2.20 MVA) X/R: 0.85 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0150 + J 0.0127 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.101 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.101 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.101 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.101 KA CBL-0303 510 EDP-E 6.101 KA ANG: -40.27 512 LP1N-0 FAULT: 3.442 KA AT -32.30 DEG ( 1.24 MVA) X/R: 0.63 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0295 + J 0.0186 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 3.442 KA MOLDED CASE CIRCUIT BREAKER < 10KA 3.442 KA MOLDED CASE CIRCUIT BREAKER < 20KA 3.442 KA MOLDED CASE CIRCUIT BREAKER > 20KA 3.442 KA CBL-0505 512A TAP 3.442 KA ANG: -212.30 512A TAP FAULT: 3.464 KA AT -32.37 DEG ( 1.25 MVA) X/R: 0.63 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0293 + J 0.0186 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 3.464 KA MOLDED CASE CIRCUIT BREAKER < 10KA 3.464 KA MOLDED CASE CIRCUIT BREAKER < 20KA 3.464 KA MOLDED CASE CIRCUIT BREAKER > 20KA 3.464 KA CBL-0304 510 EDP-E 3.464 KA ANG: -32.37

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== 513 LPGN-0 FAULT: 3.337 KA AT -31.98 DEG ( 1.20 MVA) X/R: 0.62 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0305 + J 0.0191 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 3.337 KA MOLDED CASE CIRCUIT BREAKER < 10KA 3.337 KA MOLDED CASE CIRCUIT BREAKER < 20KA 3.337 KA MOLDED CASE CIRCUIT BREAKER > 20KA 3.337 KA CBL-0305 512A TAP 3.337 KA ANG: 148.02 514 LP2N-0 FAULT: 3.317 KA AT -31.92 DEG ( 1.19 MVA) X/R: 0.62 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0307 + J 0.0191 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 3.317 KA MOLDED CASE CIRCUIT BREAKER < 10KA 3.317 KA MOLDED CASE CIRCUIT BREAKER < 20KA 3.317 KA MOLDED CASE CIRCUIT BREAKER > 20KA 3.317 KA CBL-0506 514A TAP 3.317 KA ANG: -211.92 514A TAP FAULT: 3.337 KA AT -31.98 DEG ( 1.20 MVA) X/R: 0.62 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0305 + J 0.0191 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 3.337 KA MOLDED CASE CIRCUIT BREAKER < 10KA 3.337 KA MOLDED CASE CIRCUIT BREAKER < 20KA 3.337 KA MOLDED CASE CIRCUIT BREAKER > 20KA 3.337 KA CBL-0306 512A TAP 3.337 KA ANG: -31.98 515 LP3N-0 FAULT: 3.219 KA AT -31.62 DEG ( 1.16 MVA) X/R: 0.62 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0318 + J 0.0196 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 3.219 KA MOLDED CASE CIRCUIT BREAKER < 10KA 3.219 KA MOLDED CASE CIRCUIT BREAKER < 20KA 3.219 KA MOLDED CASE CIRCUIT BREAKER > 20KA 3.219 KA CBL-0307 514A TAP 3.219 KA ANG: 148.38 516 LP4N-0 FAULT: 2.471 KA AT -24.56 DEG ( 0.89 MVA) X/R: 0.46 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0442 + J 0.0202 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.471 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.471 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.471 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.471 KA CBL-0510 516A TAP 2.471 KA ANG: -204.56 516A TAP FAULT: 2.488 KA AT -24.63 DEG ( 0.90 MVA) X/R: 0.46 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0439 + J 0.0201 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 2.488 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.488 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.488 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.488 KA CBL-0309 510 EDP-E 2.488 KA ANG: -24.63 517 LP5N-0 FAULT: 2.373 KA AT -24.15 DEG ( 0.85 MVA) X/R: 0.45 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0462 + J 0.0207 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.373 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.373 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.373 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.373 KA CBL-0509 517A TAP 2.373 KA ANG: -204.15 517A TAP FAULT: 2.389 KA AT -24.21 DEG ( 0.86 MVA) X/R: 0.45 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0458 + J 0.0206 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.389 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.389 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.389 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.389 KA CBL-0310 516A TAP 2.389 KA ANG: -204.21 518 LP6N-0 FAULT: 2.275 KA AT -23.68 DEG ( 0.82 MVA) X/R: 0.44 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0483 + J 0.0212 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.275 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.275 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.275 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.275 KA CBL-0508 518A TAP 2.275 KA ANG: 156.32 518A TAP FAULT: 2.297 KA AT -23.83 DEG ( 0.83 MVA) X/R: 0.44 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0478 + J 0.0211 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.297 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.297 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.297 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.297 KA CBL-0311 517A TAP 2.297 KA ANG: 156.17 519 LP7N-0 FAULT: 2.181 KA AT -23.22 DEG ( 0.79 MVA) X/R: 0.43 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0506 + J 0.0217 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.181 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.181 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.181 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.181 KA

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== CONTRIBUTIONS TO 519 LP7N-0 (CONTINUED) CBL-0507 519A TAP 2.181 KA ANG: 156.78 519A TAP FAULT: 2.212 KA AT -23.48 DEG ( 0.80 MVA) X/R: 0.43 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0498 + J 0.0216 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.212 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.212 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.212 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.212 KA CBL-0312 518A TAP 2.212 KA ANG: 156.52 520 LP8N-0 FAULT: 2.134 KA AT -23.15 DEG ( 0.77 MVA) X/R: 0.43 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0518 + J 0.0221 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.134 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.134 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.134 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.134 KA CBL-0313 519A TAP 2.134 KA ANG: 156.85 521 ATS 3_L FAULT: 9.677 KA AT -64.48 DEG ( 3.49 MVA) X/R: 2.10 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0053 + J 0.0112 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.677 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.677 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.677 KA ATS 3 ELE #4 504 ATS 3_N 9.677 KA ANG: -64.48 522 ELE 4 ECB FAULT: 9.642 KA AT -64.46 DEG ( 3.47 MVA) X/R: 2.10 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0054 + J 0.0112 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.642 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.642 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.642 KA CBL-0263 521 ATS 3_L 9.642 KA ANG: -64.46 523 ATS 4_L FAULT: 12.524 KA AT -49.80 DEG ( 4.51 MVA) X/R: 1.18 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0062 + J 0.0073 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 12.524 KA MOLDED CASE CIRCUIT BREAKER < 20KA 12.524 KA MOLDED CASE CIRCUIT BREAKER > 20KA 12.524 KA ATS 4 LP2 506 ATS 4_N 12.524 KA ANG: -49.80 524 LP2 FAULT: 10.751 KA AT -42.47 DEG ( 3.87 MVA) X/R: 0.92 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0082 + J 0.0075 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 10.751 KA MOLDED CASE CIRCUIT BREAKER < 20KA 10.751 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.751 KA CBL-0257 523 ATS 4_L 10.751 KA ANG: -222.47 525 ATS 2_L FAULT: 15.975 KA AT -69.26 DEG ( 5.76 MVA) X/R: 2.65 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0027 + J 0.0070 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 15.975 KA MOLDED CASE CIRCUIT BREAKER < 20KA 15.975 KA MOLDED CASE CIRCUIT BREAKER > 20KA 15.975 KA ATS 2 CENTRAL VAC/DIETECTICS 507 ATS 2_N 15.975 KA ANG: -69.26 526 AOV FAULT: 8.732 KA AT -63.77 DEG ( 3.15 MVA) X/R: 2.03 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0061 + J 0.0123 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 8.732 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.109 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.732 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.732 KA CBL-0400 525 ATS 2_L 8.732 KA ANG: -63.77 527 KP ECB FAULT: 8.473 KA AT -62.26 DEG ( 3.05 MVA) X/R: 1.90 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0066 + J 0.0125 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 8.473 KA MOLDED CASE CIRCUIT BREAKER < 10KA 8.683 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.473 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.473 KA CBL-0403 526 AOV 8.473 KA ANG: -62.26 528 KP FAULT: 7.531 KA AT -57.03 DEG ( 2.71 MVA) X/R: 1.54 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0087 + J 0.0134 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.531 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.531 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.531 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.531 KA CBL-0404 527 KP ECB 7.531 KA ANG: -57.03 529 ATS 6_L FAULT: 14.113 KA AT -56.86 DEG ( 5.08 MVA) X/R: 1.53 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0047 + J 0.0071 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 14.113 KA MOLDED CASE CIRCUIT BREAKER < 20KA 14.113 KA MOLDED CASE CIRCUIT BREAKER > 20KA 14.113 KA ATS 6 HEMO 508 ATS 6_N 14.113 KA ANG: -56.86 530 LP5-N1 "HEMO" FAULT: 2.938 KA AT -28.71 DEG ( 1.06 MVA) X/R: 0.55

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0359 + J 0.0196 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.938 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.938 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.938 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.938 KA CBL-0265 529 ATS 6_L 2.938 KA ANG: -28.71 601 BLDG 17 MN FAULT: 25.342 KA AT -77.87 DEG ( 9.13 MVA) X/R: 4.78 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0010 + J 0.0046 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 25.342 KA MOLDED CASE CIRCUIT BREAKER > 20KA 25.342 KA CONTRIBUTIONS: ACRU1 1.378 KA ANG: -83.34 T-17 006 SWITCH A7 23.970 KA ANG: -257.55 603 PNL A FAULT: 6.092 KA AT -45.52 DEG ( 2.19 MVA) X/R: 1.02 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0138 + J 0.0141 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.092 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.092 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.092 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.092 KA CBL-0446 601 BLDG 17 MN 6.092 KA ANG: -45.52 604 PNL B FAULT: 6.258 KA AT -45.77 DEG ( 2.25 MVA) X/R: 1.03 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0134 + J 0.0138 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.258 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.258 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.258 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.258 KA CBL-0447 601 BLDG 17 MN 6.258 KA ANG: -45.77 605 PNL C FAULT: 9.495 KA AT -51.74 DEG ( 3.42 MVA) X/R: 1.27 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0078 + J 0.0099 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.495 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.495 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.495 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.495 KA CBL-0445 601 BLDG 17 MN 9.495 KA ANG: -51.74 606 RPB FAULT: 13.278 KA AT -61.84 DEG ( 4.78 MVA) X/R: 1.88 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0043 + J 0.0080 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 13.278 KA MOLDED CASE CIRCUIT BREAKER < 20KA 13.278 KA MOLDED CASE CIRCUIT BREAKER > 20KA 13.278 KA CBL-0457 601 BLDG 17 MN 13.278 KA ANG: -61.84

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== 607 RPA FAULT: 12.975 KA AT -61.46 DEG ( 4.67 MVA) X/R: 1.85 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0044 + J 0.0081 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 12.975 KA MOLDED CASE CIRCUIT BREAKER < 20KA 12.975 KA MOLDED CASE CIRCUIT BREAKER > 20KA 12.975 KA CBL-0456 606 RPB 12.975 KA ANG: 118.54 608 MDS (ICEHOUSE) FAULT: 14.446 KA AT -65.15 DEG ( 5.20 MVA) X/R: 2.17 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0035 + J 0.0075 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 14.446 KA MOLDED CASE CIRCUIT BREAKER < 20KA 14.446 KA MOLDED CASE CIRCUIT BREAKER > 20KA 14.446 KA CBL-0462 601 BLDG 17 MN 14.446 KA ANG: -65.15 609 21-LP FAULT: 9.862 KA AT -46.30 DEG ( 3.55 MVA) X/R: 1.05 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0084 + J 0.0088 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.862 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.862 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.862 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.862 KA CBL-0463 608 MDS (ICEHOUSE) 9.862 KA ANG: -46.30 610 UNLABELED PNL FAULT: 9.199 KA AT -43.69 DEG ( 3.31 MVA) X/R: 0.96 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0094 + J 0.0090 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.199 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.199 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.199 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.199 KA CBL-0464 609 21-LP 9.199 KA ANG: -43.69 612 BLDG 17 EM CB FAULT: 3.940 KA AT -86.61 DEG ( 1.42 MVA) X/R: 16.87 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0018 + J 0.0304 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 4.449 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.200 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.254 KA MOLDED CASE CIRCUIT BREAKER > 20KA 4.723 KA CBL-0448 611 3.940 KA ANG: -86.61 614 ATS BLDG 17_L FAULT: 21.400 KA AT -73.13 DEG ( 7.71 MVA) X/R: 3.35 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0016 + J 0.0054 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 21.400 KA MOLDED CASE CIRCUIT BREAKER > 20KA 21.400 KA ATS BLDG 17 602 ATS BLDG 17_N 21.400 KA ANG: -73.13 615 EDP (BLDG 17) FAULT: 20.962 KA AT -72.61 DEG ( 7.55 MVA) X/R: 3.24 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0017 + J 0.0055 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 20.962 KA MOLDED CASE CIRCUIT BREAKER > 20KA 20.962 KA CBL-0459 614 ATS BLDG 17_L 20.962 KA ANG: -252.61 616 AE FAULT: 2.735 KA AT -20.73 DEG ( 0.99 MVA) X/R: 0.38 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0411 + J 0.0155 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.735 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.735 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.735 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.735 KA CBL-0470 615 EDP (BLDG 17) 2.735 KA ANG: 159.27 617 CONTACTOR AE FAULT: 2.549 KA AT -19.72 DEG ( 0.92 MVA) X/R: 0.36 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0444 + J 0.0159 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.549 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.549 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.549 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.549 KA CBL-0453 616 AE 2.549 KA ANG: -199.72 617A PNL AE1 FAULT: 2.465 KA AT -19.26 DEG ( 0.89 MVA) X/R: 0.35 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0460 + J 0.0161 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.465 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.465 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.465 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.465 KA CBL-0499 617 CONTACTOR AE 2.465 KA ANG: -19.26 618 BE FAULT: 2.821 KA AT -20.94 DEG ( 1.02 MVA) X/R: 0.38 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0398 + J 0.0152 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.821 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.821 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.821 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.821 KA CBL-0471 615 EDP (BLDG 17) 2.821 KA ANG: -200.94 619 CE FAULT: 4.773 KA AT -25.53 DEG ( 1.72 MVA) X/R: 0.48 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0227 + J 0.0108 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 4.773 KA MOLDED CASE CIRCUIT BREAKER < 10KA 4.773 KA MOLDED CASE CIRCUIT BREAKER < 20KA 4.773 KA MOLDED CASE CIRCUIT BREAKER > 20KA 4.773 KA CBL-0472 615 EDP (BLDG 17) 4.773 KA ANG: -205.53 620 EM MAIN FAULT: 18.061 KA AT -60.55 DEG ( 6.51 MVA) X/R: 1.78 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0033 + J 0.0058 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 18.061 KA MOLDED CASE CIRCUIT BREAKER < 20KA 18.061 KA MOLDED CASE CIRCUIT BREAKER > 20KA 18.061 KA CBL-0458 614 ATS BLDG 17_L 18.061 KA ANG: 119.45 621 EM FAULT: 12.886 KA AT -45.35 DEG ( 4.64 MVA) X/R: 1.02 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0065 + J 0.0066 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 12.886 KA MOLDED CASE CIRCUIT BREAKER < 20KA 12.886 KA MOLDED CASE CIRCUIT BREAKER > 20KA 12.886 KA CBL-0451 620 EM MAIN 12.886 KA ANG: -45.35 701 XFMR T-5 SEC FAULT: 15.722 KA AT -74.31 DEG ( 5.66 MVA) X/R: 3.57 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0021 + J 0.0074 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 15.722 KA MOLDED CASE CIRCUIT BREAKER < 20KA 16.213 KA MOLDED CASE CIRCUIT BREAKER > 20KA 15.722 KA T-5 008 SWITCH A4 15.722 KA ANG: -254.31 702 BLDG 5 MTR PNL FAULT: 13.540 KA AT -70.04 DEG ( 4.88 MVA) X/R: 2.76 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0030 + J 0.0083 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 13.540 KA MOLDED CASE CIRCUIT BREAKER < 20KA 13.540 KA MOLDED CASE CIRCUIT BREAKER > 20KA 13.540 KA CBL-0129 701 XFMR T-5 SEC 13.540 KA ANG: -70.04 703 PNL D FAULT: 12.475 KA AT -68.00 DEG ( 4.49 MVA) X/R: 2.48 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0036 + J 0.0089 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 12.475 KA MOLDED CASE CIRCUIT BREAKER < 20KA 12.475 KA MOLDED CASE CIRCUIT BREAKER > 20KA 12.475 KA CBL-0133 702 BLDG 5 MTR PNL 12.475 KA ANG: -68.00 704 PNL C FAULT: 10.050 KA AT -54.81 DEG ( 3.62 MVA) X/R: 1.42 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0069 + J 0.0098 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 10.050 KA MOLDED CASE CIRCUIT BREAKER < 20KA 10.050 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.050 KA CBL-0130 703 PNL D 10.050 KA ANG: 125.19 705 PNL B FAULT: 11.573 KA AT -61.82 DEG ( 4.17 MVA) X/R: 1.87 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0049 + J 0.0091 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 11.573 KA MOLDED CASE CIRCUIT BREAKER < 20KA 11.573 KA MOLDED CASE CIRCUIT BREAKER > 20KA 11.573 KA CBL-0131 703 PNL D 11.573 KA ANG: -241.82 706 PNL IN HALL FAULT: 8.174 KA AT -46.21 DEG ( 2.94 MVA) X/R: 1.04 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0102 + J 0.0106 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 8.174 KA MOLDED CASE CIRCUIT BREAKER < 10KA 8.174 KA MOLDED CASE CIRCUIT BREAKER < 20KA 8.174 KA MOLDED CASE CIRCUIT BREAKER > 20KA 8.174 KA CBL-0132 703 PNL D 8.174 KA ANG: 133.79 707 BLDG 2 FAULT: 2.023 KA AT -24.90 DEG ( 0.73 MVA) X/R: 0.46 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0538 + J 0.0250 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.023 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.023 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.023 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.023 KA CBL-0134 702 BLDG 5 MTR PNL 2.023 KA ANG: 155.10 708 RP3 FAULT: 5.019 KA AT -51.45 DEG ( 1.81 MVA) X/R: 1.26 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0149 + J 0.0187 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.019 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.019 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.019 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.019 KA CBL-0135 702 BLDG 5 MTR PNL 5.019 KA ANG: 128.55 709 RP4 FAULT: 7.536 KA AT -56.73 DEG ( 2.72 MVA) X/R: 1.53 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0087 + J 0.0133 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 7.536 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.536 KA MOLDED CASE CIRCUIT BREAKER < 20KA 7.536 KA MOLDED CASE CIRCUIT BREAKER > 20KA 7.536 KA CBL-0136 702 BLDG 5 MTR PNL 7.536 KA ANG: 123.27

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== 801 XFMR T-15 SEC FAULT: 32.210 KA AT -78.67 DEG ( 11.60 MVA) X/R: 5.08 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0007 + J 0.0037 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 32.210 KA MOLDED CASE CIRCUIT BREAKER > 20KA 32.461 KA T-15 009 XFMR T-15 PRI 31.479 KA ANG: -258.56 CBL-0339 802 MN TAP 0.734 KA ANG: 96.53 802 MN TAP FAULT: 30.562 KA AT -77.54 DEG ( 11.01 MVA) X/R: 4.61 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0008 + J 0.0038 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 30.562 KA MOLDED CASE CIRCUIT BREAKER > 20KA 30.562 KA CBL-0339 801 XFMR T-15 SEC 29.830 KA ANG: -77.39 CBL-0340 803 BLDG 15 SWGR 0.735 KA ANG: 96.50 803 BLDG 15 SWGR FAULT: 30.554 KA AT -77.53 DEG ( 11.01 MVA) X/R: 4.61 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0008 + J 0.0038 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 30.554 KA MOLDED CASE CIRCUIT BREAKER > 20KA 30.554 KA CBL-0478 812 ACP 0.735 KA ANG: 96.50 CBL-0340 802 MN TAP 29.823 KA ANG: -77.39 805 J BOX FAULT: 5.756 KA AT -24.04 DEG ( 2.07 MVA) X/R: 0.45 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0191 + J 0.0085 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.756 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.756 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.756 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.756 KA CBL-0428 803 BLDG 15 SWGR 5.756 KA ANG: -24.04 806 2LP FAULT: 5.139 KA AT -23.00 DEG ( 1.85 MVA) X/R: 0.42 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0215 + J 0.0091 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.139 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.139 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.139 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.139 KA CBL-0362 805 J BOX 5.139 KA ANG: 157.00 807 LP1 (ILD) FAULT: 5.711 KA AT -23.97 DEG ( 2.06 MVA) X/R: 0.44 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0192 + J 0.0085 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.711 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.711 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.711 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.711 KA

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== CONTRIBUTIONS TO 807 LP1 (ILD) (CONTINUED) CBL-0430 805 J BOX 5.711 KA ANG: -203.97 808 J BOX FAULT: 13.337 KA AT -49.41 DEG ( 4.80 MVA) X/R: 1.17 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0059 + J 0.0068 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 13.337 KA MOLDED CASE CIRCUIT BREAKER < 20KA 13.337 KA MOLDED CASE CIRCUIT BREAKER > 20KA 13.337 KA CBL-0368 803 BLDG 15 SWGR 13.337 KA ANG: -49.41 809 PNL A FAULT: 12.811 KA AT -48.66 DEG ( 4.62 MVA) X/R: 1.14 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0062 + J 0.0070 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 12.811 KA MOLDED CASE CIRCUIT BREAKER < 20KA 12.811 KA MOLDED CASE CIRCUIT BREAKER > 20KA 12.811 KA CBL-0416 808 J BOX 12.811 KA ANG: 131.34 810 SPLICE BOX ON WALL FAULT: 6.080 KA AT -36.49 DEG ( 2.19 MVA) X/R: 0.74 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0159 + J 0.0117 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.080 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.080 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.080 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.080 KA CBL-0417 808 J BOX 6.080 KA ANG: 143.51 811 RM 213 FAULT: 4.593 KA AT -30.89 DEG ( 1.65 MVA) X/R: 0.60 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0224 + J 0.0134 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 4.593 KA MOLDED CASE CIRCUIT BREAKER < 10KA 4.593 KA MOLDED CASE CIRCUIT BREAKER < 20KA 4.593 KA MOLDED CASE CIRCUIT BREAKER > 20KA 4.593 KA CBL-0376 810 SPLICE BOX ON WALL 4.593 KA ANG: 149.11 812 ACP FAULT: 26.494 KA AT -72.19 DEG ( 9.54 MVA) X/R: 3.23 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0014 + J 0.0043 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 26.494 KA MOLDED CASE CIRCUIT BREAKER > 20KA 26.494 KA CBL-0479 812A CHILLER 0.738 KA ANG: 96.32 CBL-0478 803 BLDG 15 SWGR 25.771 KA ANG: -71.86 812A CHILLER FAULT: 17.305 KA AT -63.10 DEG ( 6.23 MVA) X/R: 2.21 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0031 + J 0.0062 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 17.305 KA MOLDED CASE CIRCUIT BREAKER < 20KA 17.305 KA MOLDED CASE CIRCUIT BREAKER > 20KA 17.305 KA CONTRIBUTIONS: CHILLER 0.748 KA ANG: -84.29 CBL-0479 812 ACP 16.610 KA ANG: -62.17 813 BLDG 10 GARAGE FAULT: 10.291 KA AT -49.17 DEG ( 3.71 MVA) X/R: 1.16 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0076 + J 0.0088 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 10.291 KA MOLDED CASE CIRCUIT BREAKER < 20KA 10.291 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.291 KA CBL-0432 803 BLDG 15 SWGR 10.291 KA ANG: -49.17 815 ELE DISC FAULT: 15.076 KA AT -43.27 DEG ( 5.43 MVA) X/R: 0.94 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0058 + J 0.0055 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 15.076 KA MOLDED CASE CIRCUIT BREAKER < 20KA 15.076 KA MOLDED CASE CIRCUIT BREAKER > 20KA 15.076 KA CBL-0418 803 BLDG 15 SWGR 15.076 KA ANG: -43.27 816 J BOX FAULT: 11.868 KA AT -47.31 DEG ( 4.28 MVA) X/R: 1.09 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0069 + J 0.0074 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 11.868 KA MOLDED CASE CIRCUIT BREAKER < 20KA 11.868 KA MOLDED CASE CIRCUIT BREAKER > 20KA 11.868 KA CBL-0377 803 BLDG 15 SWGR 11.868 KA ANG: -47.31 817 PNL K FAULT: 11.445 KA AT -46.71 DEG ( 4.12 MVA) X/R: 1.06 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0072 + J 0.0076 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 11.445 KA MOLDED CASE CIRCUIT BREAKER < 20KA 11.445 KA MOLDED CASE CIRCUIT BREAKER > 20KA 11.445 KA CBL-0358 816 J BOX 11.445 KA ANG: 133.29 818 PNL M FAULT: 11.050 KA AT -46.15 DEG ( 3.98 MVA) X/R: 1.04 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0075 + J 0.0078 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 11.050 KA MOLDED CASE CIRCUIT BREAKER < 20KA 11.050 KA MOLDED CASE CIRCUIT BREAKER > 20KA 11.050 KA CBL-0369 816 J BOX 11.050 KA ANG: 133.85 819 J BOX FAULT: 11.868 KA AT -47.31 DEG ( 4.28 MVA) X/R: 1.09 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0069 + J 0.0074 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 11.868 KA MOLDED CASE CIRCUIT BREAKER < 20KA 11.868 KA MOLDED CASE CIRCUIT BREAKER > 20KA 11.868 KA CBL-0414 803 BLDG 15 SWGR 11.868 KA ANG: -47.31 820 PNL D FAULT: 11.050 KA AT -46.15 DEG ( 3.98 MVA) X/R: 1.04 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0075 + J 0.0078 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 11.050 KA MOLDED CASE CIRCUIT BREAKER < 20KA 11.050 KA MOLDED CASE CIRCUIT BREAKER > 20KA 11.050 KA CBL-0367 819 J BOX 11.050 KA ANG: 133.85 821 J BOX FAULT: 10.334 KA AT -45.14 DEG ( 3.72 MVA) X/R: 1.01 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0082 + J 0.0082 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 10.334 KA MOLDED CASE CIRCUIT BREAKER < 20KA 10.334 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.334 KA CBL-0415 803 BLDG 15 SWGR 10.334 KA ANG: -45.14 822 PNL E FAULT: 10.009 KA AT -44.69 DEG ( 3.61 MVA) X/R: 0.99 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0085 + J 0.0084 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 10.009 KA MOLDED CASE CIRCUIT BREAKER < 20KA 10.009 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.009 KA CBL-0365 821 J BOX 10.009 KA ANG: 135.31 823 PNL F FAULT: 9.703 KA AT -44.26 DEG ( 3.50 MVA) X/R: 0.98 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0089 + J 0.0086 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.703 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.703 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.703 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.703 KA CBL-0366 821 J BOX 9.703 KA ANG: 135.74 824 J BOX FAULT: 10.334 KA AT -45.14 DEG ( 3.72 MVA) X/R: 1.01 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0082 + J 0.0082 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 10.334 KA MOLDED CASE CIRCUIT BREAKER < 20KA 10.334 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.334 KA CBL-0378 803 BLDG 15 SWGR 10.334 KA ANG: -45.14 825 PNL I FAULT: 10.009 KA AT -44.69 DEG ( 3.61 MVA) X/R: 0.99 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0085 + J 0.0084 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 10.009 KA MOLDED CASE CIRCUIT BREAKER < 20KA 10.009 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.009 KA CBL-0356 824 J BOX 10.009 KA ANG: 135.31 826 PNL J FAULT: 9.703 KA AT -44.26 DEG ( 3.50 MVA) X/R: 0.98 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0089 + J 0.0086 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.703 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.703 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.703 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.703 KA CBL-0357 824 J BOX 9.703 KA ANG: 135.74 827 J BOX FAULT: 9.142 KA AT -43.47 DEG ( 3.29 MVA) X/R: 0.95 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0095 + J 0.0090 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.142 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.142 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.142 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.142 KA CBL-0379 803 BLDG 15 SWGR 9.142 KA ANG: -43.47 828 PNL G FAULT: 9.076 KA AT -43.38 DEG ( 3.27 MVA) X/R: 0.95 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0096 + J 0.0091 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.076 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.076 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.076 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.076 KA CBL-0354 827 J BOX 9.076 KA ANG: -223.38 829 PNL H FAULT: 9.012 KA AT -43.29 DEG ( 3.25 MVA) X/R: 0.94 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0097 + J 0.0091 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 9.012 KA MOLDED CASE CIRCUIT BREAKER < 10KA 9.012 KA MOLDED CASE CIRCUIT BREAKER < 20KA 9.012 KA MOLDED CASE CIRCUIT BREAKER > 20KA 9.012 KA CBL-0355 827 J BOX 9.012 KA ANG: -223.29 830 ATS 15 ECB FAULT: 29.297 KA AT -76.66 DEG ( 10.55 MVA) X/R: 4.29 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0009 + J 0.0040 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 29.297 KA MOLDED CASE CIRCUIT BREAKER > 20KA 29.297 KA CBL-0338 802 MN TAP 29.297 KA ANG: 103.34 832 BLDG 15 EMERG GEN FAULT: 3.696 KA AT -87.14 DEG ( 1.33 MVA) X/R: 20.00

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0016 + J 0.0324 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 4.229 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.894 KA MOLDED CASE CIRCUIT BREAKER < 20KA 4.995 KA MOLDED CASE CIRCUIT BREAKER > 20KA 4.491 KA CONTRIBUTIONS: BLDG 15 GEN 3.696 KA ANG: -87.14 834 ATS 15_L FAULT: 25.325 KA AT -73.94 DEG ( 9.12 MVA) X/R: 3.52 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0013 + J 0.0046 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 25.325 KA MOLDED CASE CIRCUIT BREAKER > 20KA 25.325 KA ATS BLDG 15 831 ATS 15_N 25.325 KA ANG: -253.94 835 EMER DISTRIBUTION PANEL FAULT: 24.143 KA AT -71.50 DEG ( 8.70 MVA) X/R: 3.02 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0016 + J 0.0047 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 24.143 KA MOLDED CASE CIRCUIT BREAKER > 20KA 24.143 KA CBL-0330 834 ATS 15_L 24.143 KA ANG: -71.50 837 KENNEL (K-EP BLDG 10) FAULT: 5.134 KA AT -24.65 DEG ( 1.85 MVA) X/R: 0.46 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0213 + J 0.0098 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.134 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.134 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.134 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.134 KA CBL-0332 835 EMER DISTRIBUTION PANEL 5.134 KA ANG: -24.65 839 GEN RM PNL FAULT: 14.263 KA AT -37.25 DEG ( 5.14 MVA) X/R: 0.76 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0067 + J 0.0051 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 14.263 KA MOLDED CASE CIRCUIT BREAKER < 20KA 14.263 KA MOLDED CASE CIRCUIT BREAKER > 20KA 14.263 KA CBL-0334 835 EMER DISTRIBUTION PANEL 14.263 KA ANG: -37.25 840 DATA CENTER FAULT: 22.268 KA AT -71.88 DEG ( 8.02 MVA) X/R: 3.08 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0017 + J 0.0051 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 22.268 KA MOLDED CASE CIRCUIT BREAKER > 20KA 22.268 KA CBL-0335 834 ATS 15_L 22.268 KA ANG: -71.88 841 MAIN PANEL FAULT: 16.791 KA AT -68.22 DEG ( 6.05 MVA) X/R: 2.52 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0027 + J 0.0066 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 16.791 KA MOLDED CASE CIRCUIT BREAKER < 20KA 16.791 KA MOLDED CASE CIRCUIT BREAKER > 20KA 16.791 KA CBL-0370 840 DATA CENTER 16.791 KA ANG: -68.22 842 RP1 FAULT: 13.572 KA AT -57.66 DEG ( 4.89 MVA) X/R: 1.58 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0047 + J 0.0075 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 13.572 KA MOLDED CASE CIRCUIT BREAKER < 20KA 13.572 KA MOLDED CASE CIRCUIT BREAKER > 20KA 13.572 KA CBL-0371 841 MAIN PANEL 13.572 KA ANG: -237.66 843 RDU FAULT: 11.184 KA AT -56.94 DEG ( 4.03 MVA) X/R: 1.54 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0059 + J 0.0090 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 11.184 KA MOLDED CASE CIRCUIT BREAKER < 20KA 11.184 KA MOLDED CASE CIRCUIT BREAKER > 20KA 11.184 KA CBL-0372 841 MAIN PANEL 11.184 KA ANG: -56.94 844 CRAC 2-1 FAULT: 10.135 KA AT -42.02 DEG ( 3.65 MVA) X/R: 0.90 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0088 + J 0.0079 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 10.135 KA MOLDED CASE CIRCUIT BREAKER < 20KA 10.135 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.135 KA CBL-0373 841 MAIN PANEL 10.135 KA ANG: -42.02 845 CRAC 2-2 FAULT: 6.836 KA AT -31.66 DEG ( 2.46 MVA) X/R: 0.62 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0150 + J 0.0092 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.836 KA MOLDED CASE CIRCUIT BREAKER < 10KA 6.836 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.836 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.836 KA CBL-0374 841 MAIN PANEL 6.836 KA ANG: -31.66 846 CRAC 2-3 FAULT: 5.571 KA AT -27.88 DEG ( 2.01 MVA) X/R: 0.53 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0191 + J 0.0101 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.571 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.571 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.571 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.571 KA CBL-0375 841 MAIN PANEL 5.571 KA ANG: -27.88 900 XFMR T-7 SEC FAULT: 25.831 KA AT -79.75 DEG ( 21.48 MVA) X/R: 5.69 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0019 + J 0.0106 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 25.831 KA MOLDED CASE CIRCUIT BREAKER > 20KA 26.664 KA T-7 016 XFMR T-7 PRI 24.657 KA ANG: -259.56 CBL-0244 901 BLDG 7 MN SWGR 1.177 KA ANG: -83.69 901 BLDG 7 MN SWGR FAULT: 25.308 KA AT -79.28 DEG ( 21.04 MVA) X/R: 5.44 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0020 + J 0.0108 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 25.308 KA MOLDED CASE CIRCUIT BREAKER > 20KA 25.887 KA CBL-0244 900 XFMR T-7 SEC 24.134 KA ANG: -259.06 CBL-0235 902 BLDG 7 ATS_N 1.178 KA ANG: 96.29 903 BLDG 10 FAULT: 13.400 KA AT -57.49 DEG ( 11.14 MVA) X/R: 1.58 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0111 + J 0.0174 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 13.400 KA MOLDED CASE CIRCUIT BREAKER < 20KA 13.400 KA MOLDED CASE CIRCUIT BREAKER > 20KA 13.400 KA CBL-0245 901 BLDG 7 MN SWGR 13.400 KA ANG: -57.49 904 BLDG 6 ECB FAULT: 13.010 KA AT -56.85 DEG ( 10.82 MVA) X/R: 1.54 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0116 + J 0.0178 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 13.010 KA MOLDED CASE CIRCUIT BREAKER < 20KA 13.010 KA MOLDED CASE CIRCUIT BREAKER > 20KA 13.010 KA CBL-0246 901 BLDG 7 MN SWGR 13.010 KA ANG: -56.85 905 LOADING DOCK ECB FAULT: 5.773 KA AT -26.29 DEG ( 4.80 MVA) X/R: 0.49 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0430 + J 0.0213 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.773 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.773 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.773 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.773 KA CBL-0239 901 BLDG 7 MN SWGR 5.773 KA ANG: -26.29 906 WAREHOUSE ECB FAULT: 17.512 KA AT -68.16 DEG ( 14.56 MVA) X/R: 2.52 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0059 + J 0.0147 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 17.512 KA MOLDED CASE CIRCUIT BREAKER < 20KA 17.512 KA MOLDED CASE CIRCUIT BREAKER > 20KA 17.512 KA CBL-0240 901 BLDG 7 MN SWGR 17.512 KA ANG: -68.16 907 BLDG 7 EMERG GEN FAULT: 9.879 KA AT -87.14 DEG ( 8.21 MVA) X/R: 20.00 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0014 + J 0.0280 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 11.304 KA MOLDED CASE CIRCUIT BREAKER < 20KA 13.351 KA MOLDED CASE CIRCUIT BREAKER > 20KA 12.002 KA CONTRIBUTIONS: BLDG 7 9.879 KA ANG: -87.14 910 BLDG 7 ATS_L FAULT: 24.777 KA AT -78.92 DEG ( 20.60 MVA) X/R: 5.27 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0021 + J 0.0110 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 24.777 KA MOLDED CASE CIRCUIT BREAKER > 20KA 25.175 KA CBL-0236 911 ATS 7 ECB 1.179 KA ANG: 96.26 BLDG 7 ATS 902 BLDG 7 ATS_N 23.603 KA ANG: -78.68 911 ATS 7 ECB FAULT: 23.961 KA AT -78.20 DEG ( 19.92 MVA) X/R: 4.96 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0024 + J 0.0113 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 23.961 KA MOLDED CASE CIRCUIT BREAKER > 20KA 24.023 KA CBL-0236 910 BLDG 7 ATS_L 22.786 KA ANG: -77.91 CBL-0241 912 MCC 1.181 KA ANG: -83.79 912 MCC FAULT: 18.018 KA AT -73.15 DEG ( 14.98 MVA) X/R: 3.61 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0045 + J 0.0147 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 18.018 KA MOLDED CASE CIRCUIT BREAKER < 20KA 18.622 KA MOLDED CASE CIRCUIT BREAKER > 20KA 18.018 KA CONTRIBUTIONS: BLDG 7 MCC MTR 1.058 KA ANG: -84.29 CBL-0496 BUS-0531 0.144 KA ANG: 95.72 CBL-0241 911 ATS 7 ECB 16.840 KA ANG: -252.36 912A PNL LP FAULT: 17.710 KA AT -72.42 DEG ( 14.72 MVA) X/R: 3.43 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0047 + J 0.0149 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 17.710 KA MOLDED CASE CIRCUIT BREAKER < 20KA 18.068 KA MOLDED CASE CIRCUIT BREAKER > 20KA 17.710 KA CBL-0490 912 MCC 17.710 KA ANG: -72.42 913 ELEVATOR ECB FAULT: 17.039 KA AT -70.38 DEG ( 14.17 MVA) X/R: 3.01 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0055 + J 0.0153 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 17.039 KA MOLDED CASE CIRCUIT BREAKER < 20KA 17.039 KA MOLDED CASE CIRCUIT BREAKER > 20KA 17.039 KA CBL-0237 912 MCC 17.039 KA ANG: -70.38 914 ELE FAULT: 10.377 KA AT -53.69 DEG ( 8.63 MVA) X/R: 1.39 VOLTAGE: 480. EQUIV. IMPEDANCE= 0.0158 + J 0.0215 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== LOW VOLTAGE POWER CIRCUIT BREAKER 10.377 KA MOLDED CASE CIRCUIT BREAKER < 20KA 10.377 KA MOLDED CASE CIRCUIT BREAKER > 20KA 10.377 KA CBL-0238 913 ELEVATOR ECB 10.377 KA ANG: -53.69 916 PNL 1 FAULT: 6.359 KA AT -69.51 DEG ( 2.29 MVA) X/R: 2.68 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0066 + J 0.0177 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.359 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.162 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.359 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.359 KA CBL-0249 915 6.359 KA ANG: -69.51 917 PANEL PP02 FAULT: 5.459 KA AT -57.59 DEG ( 1.97 MVA) X/R: 1.58 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0118 + J 0.0186 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.459 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.459 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.459 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.459 KA CBL-0466 916 PNL 1 5.459 KA ANG: -57.59 918 PNL M FAULT: 5.072 KA AT -55.25 DEG ( 1.83 MVA) X/R: 1.44 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0135 + J 0.0195 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.072 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.072 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.072 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.072 KA CBL-0251 916 PNL 1 5.072 KA ANG: -55.25 919 PNL K FAULT: 5.459 KA AT -57.59 DEG ( 1.97 MVA) X/R: 1.58 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0118 + J 0.0186 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.459 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.459 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.459 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.459 KA CBL-0252 916 PNL 1 5.459 KA ANG: -57.59 920 PNL J FAULT: 2.130 KA AT -23.51 DEG ( 0.77 MVA) X/R: 0.44 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0517 + J 0.0225 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 2.130 KA MOLDED CASE CIRCUIT BREAKER < 10KA 2.130 KA MOLDED CASE CIRCUIT BREAKER < 20KA 2.130 KA MOLDED CASE CIRCUIT BREAKER > 20KA 2.130 KA CBL-0253 916 PNL 1 2.130 KA ANG: -23.51

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E F A U L T R E P O R T (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================================== 921 GARAGE PANEL FAULT: 3.051 KA AT -37.55 DEG ( 1.10 MVA) X/R: 0.77 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0312 + J 0.0240 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 3.051 KA MOLDED CASE CIRCUIT BREAKER < 10KA 3.051 KA MOLDED CASE CIRCUIT BREAKER < 20KA 3.051 KA MOLDED CASE CIRCUIT BREAKER > 20KA 3.051 KA CBL-0469 916 PNL 1 3.051 KA ANG: -37.55 922 NEW OFFICE ECB FAULT: 6.271 KA AT -69.08 DEG ( 2.26 MVA) X/R: 2.62 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0068 + J 0.0179 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 6.271 KA MOLDED CASE CIRCUIT BREAKER < 10KA 7.017 KA MOLDED CASE CIRCUIT BREAKER < 20KA 6.271 KA MOLDED CASE CIRCUIT BREAKER > 20KA 6.271 KA CBL-0254 916 PNL 1 6.271 KA ANG: -69.08 923 NEW OFFICE PANEL (Panel A) FAULT: 5.100 KA AT -63.54 DEG ( 1.84 MVA) X/R: 2.01 VOLTAGE: 208. EQUIV. IMPEDANCE= 0.0105 + J 0.0211 OHMS LOW VOLTAGE POWER CIRCUIT BREAKER 5.100 KA MOLDED CASE CIRCUIT BREAKER < 10KA 5.304 KA MOLDED CASE CIRCUIT BREAKER < 20KA 5.100 KA MOLDED CASE CIRCUIT BREAKER > 20KA 5.100 KA CBL-0412 922 NEW OFFICE ECB 5.100 KA ANG: -63.54

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 F A U L T S T U D Y S U M M A R Y (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO BUS RECORD VOLTAGE A V A I L A B L E F A U L T D U T I E S (KA) NO NAME L-L 3 PHASE X/R LINE/GRND X/R ============================================================================================================== 101 MDSB-A 480. 19.500 5.55 102 LP-GA 480. 12.592 1.21 103 LP-GB 480. 7.807 0.72 104 LP-1A 480. 11.493 1.07 105 LP-1B 480. 8.169 0.75 106 LP-2B 480. 16.340 4.00 107 ECB 2160 480. 13.079 1.91 108 ECB 2148 480. 12.078 1.64 109 ECB 2149 480. 12.565 1.76 110 ECB 2163 480. 13.901 2.19 111 MCC-GB 480. 17.202 4.69 112 MCC-2B 480. 15.046 2.55 117 EDP-GA 480. 8.736 16.06 121 ATS-E1_L 480. 17.122 3.58 122 E1DP-GA 480. 16.643 3.41 123 E1LP-GB 480. 11.799 2.58 124 E1LP-1B 480. 10.350 1.72 125 E1LP-2B 480. 9.474 1.44 126 ATS-E2_L 480. 17.238 4.59 127 E2DP-GA 480. 16.803 4.44 128 ECB 480. 5.045 0.65 129 E2LP-GA 480. 11.596 2.16 130 E2LP-1A 480. 10.587 1.69 131 E2LP-2B 480. 8.842 1.22 132 E2LP-2C 480. 10.320 1.86 133 2143 ECB 480. 9.389 1.57 134 ATS-E3_L 480. 18.233 5.00 135 E3DP-GA 480. 17.998 4.91 136 OR CHILLER 480. 11.796 3.03 137 E3LP-GA CONTACTOR 480. 11.577 1.53 138 E3LP-GA 480. 11.311 1.48 139 EMCC-GB 480. 15.426 3.02 140 E3LP-2B 480. 13.567 3.59 141 CONTACTOR 480. 13.116 3.08 150 MDSB-B 208. 27.370 4.58 151 RP-GA 208. 14.752 1.55 152 RP-1B 208. 10.246 1.70 153 RP-1A 208. 15.538 2.14 154 RP-GB 208. 12.008 2.25 155 RP-2B 208. 15.538 2.14 160 MDSB-C 480. 15.739 5.17 161 CHILLER #1 480. 13.328 4.22 162 CHILLER #2 480. 13.588 4.30 170 XFMR T-1-1 SEC 208. 31.544 5.08

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 F A U L T S T U D Y S U M M A R Y (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO BUS RECORD VOLTAGE A V A I L A B L E F A U L T D U T I E S (KA) NO NAME L-L 3 PHASE X/R LINE/GRND X/R ============================================================================================================== 171 MAIN SG A 208. 31.523 5.08 172 PPGM-A AC SHOP 208. 7.182 1.47 173 TAP 208. 7.421 1.90 174 LP7A-1 208. 7.360 1.89 175 TAP 208. 7.182 1.88 176 LP8B 208. 7.131 1.87 177 TAP 208. 5.821 1.81 178 LP7A 208. 5.787 1.80 179 LP7A1 208. 5.754 1.79 180 TAP 208. 5.672 1.81 181 LP8A 208. 5.640 1.80 182 PNL A 208. 5.261 1.38 183 LP6B 208. 6.223 1.11 184 LP6B2 208. 6.029 1.05 185 TAP 208. 5.585 1.39 186 LP5A-LH 208. 5.552 1.39 187 LP5A-RH 208. 5.552 1.39 188 LP5A2 208. 5.069 1.13 189 TAP 208. 5.430 1.39 190 LP6A-LH 208. 5.400 1.38 191 LP6A-RH 208. 5.400 1.38 192 TAP 208. 6.139 0.96 193 PP RM1134 208. 6.071 0.97 194 PPGL 208. 5.056 0.77 195 PP2K-B 208. 5.447 0.67 195A CONTACTOR 208. 5.379 0.67 195B PANEL 208. 5.313 0.67 196 ELEVATOR TAP 208. 12.443 2.64 205 XRAY B 208. 10.284 1.64 205A RP2G 208. 7.273 1.07 205B 2H 208. 6.849 1.01 205C 2J 208. 6.849 1.01 205D RP2K 208. 6.849 1.01 210 TAP 208. 6.904 1.87 211 PPGB 208. 6.857 1.85 212 LPGA 208. 6.857 1.85 213 TAP 208. 6.696 1.86 214 RP-1C-1 208. 6.613 1.85 215 RP-1C-2 208. 6.533 1.85 216 TAP 208. 6.696 1.86 217 LP2A-LH 208. 6.652 1.84

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 F A U L T S T U D Y S U M M A R Y (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO BUS RECORD VOLTAGE A V A I L A B L E F A U L T D U T I E S (KA) NO NAME L-L 3 PHASE X/R LINE/GRND X/R ============================================================================================================== 218 LP2A-RH 208. 6.652 1.84 219 TAP 208. 6.501 1.85 220 LP3A-LH 208. 6.459 1.83 221 LP3A-RH 208. 6.459 1.83 223 LP4A-1 208. 8.834 1.23 224 LP4A-2 208. 8.738 1.23 225 TAP 208. 8.932 1.98 226 LP2B 208. 8.589 1.96 227 E2-4B 208. 8.270 1.94 228 CAPACITOR A 208. 21.136 2.56 229 ELE 1 ATS_L 208. 12.108 2.55 230 ELE#1 ECB 208. 9.198 2.02 233 ELE 2 ATS_L 208. 12.108 2.55 234 ELE#2 ECB 208. 9.198 2.02 236 ELE 3 ATS_L 208. 11.679 2.33 237 ELE#3 ECB 208. 8.944 1.95 240 XFMR T-1-2 SEC 208. 29.844 4.99 241 MAIN SG B 208. 31.304 4.85 242 DP ECB 208. 27.863 3.58 243 PANEL DP 208. 27.251 3.42 248 LP3 208. 4.534 0.56 249 TAP 208. 7.817 1.91 250 LPGB 208. 7.756 1.89 251 LPGP 208. 5.128 0.88 252 LP-GP 208. 2.984 0.52 253 LP1D JB 208. 7.509 1.90 254 RP-1D-1 208. 6.751 1.86 255 RP-1D-2 208. 6.667 1.85 256 TAP 208. 9.280 1.99 257 LP1B 208. 9.196 1.97 258 TAP 208. 8.909 1.97 259 LP2A 208. 8.755 1.93 260 LP2D 208. 8.832 1.95 261 TAP 208. 8.999 1.98 262 LP6C 208. 8.920 1.96 263 TAP 208. 8.650 1.96 264 LP7C 208. 8.577 1.94 265 TAP 208. 8.327 1.94 266 LP8C 208. 8.259 1.92 267 TAP 208. 8.028 1.92 268 LP9C1 208. 7.907 1.85

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 F A U L T S T U D Y S U M M A R Y (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO BUS RECORD VOLTAGE A V A I L A B L E F A U L T D U T I E S (KA) NO NAME L-L 3 PHASE X/R LINE/GRND X/R ============================================================================================================== 269 LP9C 208. 7.964 1.91 270 TAP 208. 10.198 2.05 271 LPGC-B 208. 10.097 2.02 272 LPGC-C 208. 9.457 1.71 273 LPGC-A 208. 10.097 2.02 277 TAP 208. 9.682 2.02 278 LP1C 208. 9.591 1.99 279 TAP 208. 9.280 1.99 280 LP2C-A 208. 9.121 1.90 281 LP2C 208. 9.196 1.97 282 TAP 208. 10.237 2.05 283 LP3C 208. 10.135 2.02 284 TAP 208. 9.788 2.02 285 LP4C 208. 9.695 2.00 286 TAP 208. 9.377 2.00 287 LP5C 208. 9.291 1.98 288 PPGM-B AC SHOP 208. 7.817 1.91 289 TAP 208. 23.446 3.25 290 PPGN-C 208. 19.665 2.15 291 PPGN-B 208. 22.965 3.08 293 PPGN-A 208. 22.965 3.08 294 XRAY 2FL 208. 9.416 1.43 295 TAP 208. 7.986 1.35 296 PNL C 208. 7.899 1.34 297 LP2L 208. 7.694 1.25 298 PP2K 208. 7.899 1.34 299 TAP 208. 7.346 1.32 300 PP4K 208. 7.272 1.31 301 PP5K 208. 7.018 1.31 302 TAP 208. 6.637 1.29 303 PP10N 208. 6.367 1.28 304 PP9M 208. 6.566 1.27 305 CAPACITOR B 208. 21.017 2.52 306 TAP 208. 7.299 1.47 307 LP5B-LH 208. 7.244 1.47 308 LP5B-RH 208. 7.244 1.47 309 PPGK 208. 6.529 0.83 310 TAP 208. 6.328 1.12 311 PP6K 208. 6.285 1.11 312 TAP 208. 6.096 1.11 313 PP8K 208. 5.846 1.10

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 F A U L T S T U D Y S U M M A R Y (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO BUS RECORD VOLTAGE A V A I L A B L E F A U L T D U T I E S (KA) NO NAME L-L 3 PHASE X/R LINE/GRND X/R ============================================================================================================== 314 PP7K 208. 6.056 1.10 320 AC SWBD 480. 30.151 6.13 321 LPGE 480. 19.634 2.00 322 LP-8E 480. 4.542 0.45 323 HP-9M 480. 9.701 1.16 324 MCC IN AC ROOM 480. 29.869 5.87 330 XFMR T-1-4 SEC 208. 17.896 4.24 331 DIETETICS ECB 208. 14.779 3.43 332 KDP 208. 14.489 3.37 333 FOOD TRAY 208. 6.426 0.91 334 KPA 208. 7.631 1.27 335 KPD 208. 7.631 1.27 336 KLP 208. 8.247 1.12 337 UTIL DIST 208. 7.234 1.00 338 PP 208. 11.112 1.89 340 XRAY SUBSTATION 480. 12.918 5.00 341 PANEL A 480. 10.512 3.24 402 MAIN BRKR 208. 8.924 16.43 403 CRITICAL BRKR 208. 8.879 15.30 404 BLDG18 CRITICAL EMERGENCY 208. 8.610 10.96 410 DPE BRKR 208. 8.698 12.08 411 DPE 208. 7.496 5.13 417 ATS 7_L 208. 22.123 2.59 418 EDP1 208. 21.362 2.50 419 PLGN 208. 3.704 0.41 420 PL5N 208. 2.825 0.37 421 PL1N 208. 3.487 0.40 422 PL6N 208. 2.697 0.37 423 PL2N 208. 3.295 0.39 424 PL7N 208. 2.580 0.36 425 PL3N 208. 3.122 0.39 426 PL8N 208. 2.473 0.36 427 PL4N 208. 2.966 0.38 428 EC3 208. 6.298 1.28 429 E2-4W SEC#1 208. 5.279 1.09 430 CB3W 208. 5.423 1.10 431 CBME 208. 5.287 1.07 432 ATS 9_L 208. 17.413 1.67 433 LP9C 208. 2.831 0.38 434 ATS 8_L 208. 17.413 1.67 435 EDP 208. 16.815 1.62

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 F A U L T S T U D Y S U M M A R Y (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO BUS RECORD VOLTAGE A V A I L A B L E F A U L T D U T I E S (KA) NO NAME L-L 3 PHASE X/R LINE/GRND X/R ============================================================================================================== 436 LPGN-N 208. 3.503 0.42 437 LP1N-N 208. 3.309 0.41 438 LP2N-N 208. 3.135 0.40 439 LP3N-N 208. 2.978 0.39 440 LP4N-N 208. 2.836 0.39 441 LP5N-N 208. 2.707 0.38 442 LP6N-N 208. 2.589 0.37 443 LP7N-N 208. 2.481 0.37 444 LP8N-N 208. 2.382 0.36 445 ATS 10_L 208. 25.453 2.96 446 EE3 208. 7.069 1.16 450 XFMR T-13A SEC 208. 15.731 3.97 451 BUG 208. 14.484 3.60 452 EMG PANEL 208. 13.443 2.34 453 UNMARKED PANEL 208. 14.481 3.60 454 POWER PANEL 208. 14.034 3.29 455 400A DISCONNECT 208. 8.153 2.20 456 LP-1 208. 13.880 2.84 457 PNL A (LP-2) 208. 3.746 0.52 458 NEW EQ CTR 208. 7.500 0.87 459 PNL B (OL) 208. 3.746 0.52 460 XFMR T-13B SEC 208. 10.025 3.40 461 NON-FUSED DISCONNECT 208. 9.265 2.96 462 CP1 208. 7.271 2.20 500 XFMR T-19B SEC 208. 21.414 3.87 501 XFMR T-19A SEC 208. 21.416 3.87 502 CRITICAL SWBD BLDG #18 208. 18.707 2.98 505 LP1 208. 14.604 1.72 509 ATS 1_L 208. 7.190 1.01 510 EDP-E 208. 6.346 0.88 511 EDPA 208. 6.101 0.85 512 LP1N-0 208. 3.442 0.63 512A TAP 208. 3.464 0.63 513 LPGN-0 208. 3.337 0.62 514 LP2N-0 208. 3.317 0.62 514A TAP 208. 3.337 0.62 515 LP3N-0 208. 3.219 0.62 516 LP4N-0 208. 2.471 0.46 516A TAP 208. 2.488 0.46 517 LP5N-0 208. 2.373 0.45 517A TAP 208. 2.389 0.45

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 F A U L T S T U D Y S U M M A R Y (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO BUS RECORD VOLTAGE A V A I L A B L E F A U L T D U T I E S (KA) NO NAME L-L 3 PHASE X/R LINE/GRND X/R ============================================================================================================== 518 LP6N-0 208. 2.275 0.44 518A TAP 208. 2.297 0.44 519 LP7N-0 208. 2.181 0.43 519A TAP 208. 2.212 0.43 520 LP8N-0 208. 2.134 0.43 521 ATS 3_L 208. 9.677 2.10 522 ELE 4 ECB 208. 9.642 2.10 523 ATS 4_L 208. 12.524 1.18 524 LP2 208. 10.751 0.92 525 ATS 2_L 208. 15.975 2.65 526 AOV 208. 8.732 2.03 527 KP ECB 208. 8.473 1.90 528 KP 208. 7.531 1.54 529 ATS 6_L 208. 14.113 1.53 530 LP5-N1 "HEMO" 208. 2.938 0.55 601 BLDG 17 MN 208. 25.342 4.78 603 PNL A 208. 6.092 1.02 604 PNL B 208. 6.258 1.03 605 PNL C 208. 9.495 1.27 606 RPB 208. 13.278 1.88 607 RPA 208. 12.975 1.85 608 MDS (ICEHOUSE) 208. 14.446 2.17 609 21-LP 208. 9.862 1.05 610 UNLABELED PNL 208. 9.199 0.96 612 BLDG 17 EM CB 208. 3.940 16.87 614 ATS BLDG 17_L 208. 21.400 3.35 615 EDP (BLDG 17) 208. 20.962 3.24 616 AE 208. 2.735 0.38 617 CONTACTOR AE 208. 2.549 0.36 617A PNL AE1 208. 2.465 0.35 618 BE 208. 2.821 0.38 619 CE 208. 4.773 0.48 620 EM MAIN 208. 18.061 1.78 621 EM 208. 12.886 1.02 701 XFMR T-5 SEC 208. 15.722 3.57 702 BLDG 5 MTR PNL 208. 13.540 2.76 703 PNL D 208. 12.475 2.48 704 PNL C 208. 10.050 1.42 705 PNL B 208. 11.573 1.87 706 PNL IN HALL 208. 8.174 1.04 707 BLDG 2 208. 2.023 0.46

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 F A U L T S T U D Y S U M M A R Y (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO BUS RECORD VOLTAGE A V A I L A B L E F A U L T D U T I E S (KA) NO NAME L-L 3 PHASE X/R LINE/GRND X/R ============================================================================================================== 708 RP3 208. 5.019 1.26 709 RP4 208. 7.536 1.53 801 XFMR T-15 SEC 208. 32.210 5.08 802 MN TAP 208. 30.562 4.61 803 BLDG 15 SWGR 208. 30.554 4.61 805 J BOX 208. 5.756 0.45 806 2LP 208. 5.139 0.42 807 LP1 (ILD) 208. 5.711 0.44 808 J BOX 208. 13.337 1.17 809 PNL A 208. 12.811 1.14 810 SPLICE BOX ON WALL 208. 6.080 0.74 811 RM 213 208. 4.593 0.60 812 ACP 208. 26.494 3.23 812A CHILLER 208. 17.305 2.21 813 BLDG 10 GARAGE 208. 10.291 1.16 815 ELE DISC 208. 15.076 0.94 816 J BOX 208. 11.868 1.09 817 PNL K 208. 11.445 1.06 818 PNL M 208. 11.050 1.04 819 J BOX 208. 11.868 1.09 820 PNL D 208. 11.050 1.04 821 J BOX 208. 10.334 1.01 822 PNL E 208. 10.009 0.99 823 PNL F 208. 9.703 0.98 824 J BOX 208. 10.334 1.01 825 PNL I 208. 10.009 0.99 826 PNL J 208. 9.703 0.98 827 J BOX 208. 9.142 0.95 828 PNL G 208. 9.076 0.95 829 PNL H 208. 9.012 0.94 830 ATS 15 ECB 208. 29.297 4.29 832 BLDG 15 EMERG GEN 208. 3.696 20.00 834 ATS 15_L 208. 25.325 3.52 835 EMER DISTRIBUTION PANEL 208. 24.143 3.02 837 KENNEL (K-EP BLDG 10) 208. 5.134 0.46 839 GEN RM PNL 208. 14.263 0.76 840 DATA CENTER 208. 22.268 3.08 841 MAIN PANEL 208. 16.791 2.52 842 RP1 208. 13.572 1.58 843 RDU 208. 11.184 1.54 844 CRAC 2-1 208. 10.135 0.90

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 F A U L T S T U D Y S U M M A R Y (FOR APPLICATION OF LOW VOLTAGE BREAKERS) PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO BUS RECORD VOLTAGE A V A I L A B L E F A U L T D U T I E S (KA) NO NAME L-L 3 PHASE X/R LINE/GRND X/R ============================================================================================================== 845 CRAC 2-2 208. 6.836 0.62 846 CRAC 2-3 208. 5.571 0.53 900 XFMR T-7 SEC 480. 25.831 5.69 901 BLDG 7 MN SWGR 480. 25.308 5.44 903 BLDG 10 480. 13.400 1.58 904 BLDG 6 ECB 480. 13.010 1.54 905 LOADING DOCK ECB 480. 5.773 0.49 906 WAREHOUSE ECB 480. 17.512 2.52 907 BLDG 7 EMERG GEN 480. 9.879 20.00 910 BLDG 7 ATS_L 480. 24.777 5.27 911 ATS 7 ECB 480. 23.961 4.96 912 MCC 480. 18.018 3.61 912A PNL LP 480. 17.710 3.43 913 ELEVATOR ECB 480. 17.039 3.01 914 ELE 480. 10.377 1.39 916 PNL 1 208. 6.359 2.68 917 PANEL PP02 208. 5.459 1.58 918 PNL M 208. 5.072 1.44 919 PNL K 208. 5.459 1.58 920 PNL J 208. 2.130 0.44 921 GARAGE PANEL 208. 3.051 0.77 922 NEW OFFICE ECB 208. 6.271 2.62 923 NEW OFFICE PANEL (Panel A) 208. 5.100 2.01 400 FAULTED BUSES, 444 BRANCHES, 24 CONTRIBUTIONS *** SHORT CIRCUIT STUDY COMPLETE ***

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E M O M E N T A R Y D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================== 001 NEW SUBSTATION SWGR E/Z: 4.438 KA AT -73.86 DEG ( 92.23 MVA) X/R: 3.48 SYM*1.6: 7.100 KA MOMENTARY BASED ON X/R: 5.117 KA SYM*2.7: 11.981 KA CREST BASED ON X/R: 8.823 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4339 + J 1.4997 OHMS CONTRIBUTIONS: UTIL-#141 FDR 4.376 KA ANG: -73.75 002 MV SWITCH #1 E/Z: 4.417 KA AT -73.70 DEG ( 91.80 MVA) X/R: 3.45 SYM*1.6: 7.067 KA MOMENTARY BASED ON X/R: 5.081 KA SYM*2.7: 11.925 KA CREST BASED ON X/R: 8.758 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4403 + J 1.5056 OHMS 003 XFMR T-13A PRI E/Z: 4.393 KA AT -73.32 DEG ( 91.31 MVA) X/R: 3.36 SYM*1.6: 7.029 KA MOMENTARY BASED ON X/R: 5.026 KA SYM*2.7: 11.861 KA CREST BASED ON X/R: 8.654 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4527 + J 1.5107 OHMS 004 XFMR T-13B PRI E/Z: 4.392 KA AT -73.30 DEG ( 91.28 MVA) X/R: 3.36 SYM*1.6: 7.027 KA MOMENTARY BASED ON X/R: 5.023 KA SYM*2.7: 11.858 KA CREST BASED ON X/R: 8.649 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4533 + J 1.5110 OHMS 005 MV SWITCH #2 E/Z: 4.351 KA AT -73.01 DEG ( 90.44 MVA) X/R: 3.30 SYM*1.6: 6.962 KA MOMENTARY BASED ON X/R: 4.958 KA SYM*2.7: 11.749 KA CREST BASED ON X/R: 8.531 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4653 + J 1.5227 OHMS 006 SWITCH A7 E/Z: 4.323 KA AT -72.69 DEG ( 89.86 MVA) X/R: 3.24 SYM*1.6: 6.917 KA MOMENTARY BASED ON X/R: 4.905 KA SYM*2.7: 11.673 KA CREST BASED ON X/R: 8.431 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4769 + J 1.5299 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E M O M E N T A R Y D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================== 007 MV SWITCH #3 E/Z: 4.331 KA AT -72.93 DEG ( 90.03 MVA) X/R: 3.29 SYM*1.6: 6.930 KA MOMENTARY BASED ON X/R: 4.930 KA SYM*2.7: 11.695 KA CREST BASED ON X/R: 8.481 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4695 + J 1.5290 OHMS 008 SWITCH A4 E/Z: 4.252 KA AT -72.02 DEG ( 88.37 MVA) X/R: 3.11 SYM*1.6: 6.803 KA MOMENTARY BASED ON X/R: 4.781 KA SYM*2.7: 11.479 KA CREST BASED ON X/R: 8.200 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.5030 + J 1.5499 OHMS 009 XFMR T-15 PRI E/Z: 4.308 KA AT -72.67 DEG ( 89.55 MVA) X/R: 3.23 SYM*1.6: 6.893 KA MOMENTARY BASED ON X/R: 4.886 KA SYM*2.7: 11.632 KA CREST BASED ON X/R: 8.398 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4791 + J 1.5351 OHMS 010 MV SWITCH #7 E/Z: 4.396 KA AT -73.53 DEG ( 91.37 MVA) X/R: 3.41 SYM*1.6: 7.033 KA MOMENTARY BASED ON X/R: 5.045 KA SYM*2.7: 11.869 KA CREST BASED ON X/R: 8.692 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4467 + J 1.5114 OHMS 011 TAP E/Z: 4.388 KA AT -73.44 DEG ( 91.20 MVA) X/R: 3.39 SYM*1.6: 7.021 KA MOMENTARY BASED ON X/R: 5.029 KA SYM*2.7: 11.847 KA CREST BASED ON X/R: 8.663 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4500 + J 1.5135 OHMS 012 XFMR T-1A-1 PRI E/Z: 4.388 KA AT -73.44 DEG ( 91.20 MVA) X/R: 3.39 SYM*1.6: 7.020 KA MOMENTARY BASED ON X/R: 5.029 KA SYM*2.7: 11.847 KA CREST BASED ON X/R: 8.662 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4501 + J 1.5135 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E M O M E N T A R Y D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================== 013 XFMR T-1A-2 PRI E/Z: 4.384 KA AT -73.40 DEG ( 91.12 MVA) X/R: 3.38 SYM*1.6: 7.014 KA MOMENTARY BASED ON X/R: 5.021 KA SYM*2.7: 11.836 KA CREST BASED ON X/R: 8.648 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4516 + J 1.5145 OHMS 014 XFMR T-1A-3 PRI E/Z: 4.380 KA AT -73.35 DEG ( 91.03 MVA) X/R: 3.37 SYM*1.6: 7.008 KA MOMENTARY BASED ON X/R: 5.013 KA SYM*2.7: 11.826 KA CREST BASED ON X/R: 8.633 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4533 + J 1.5155 OHMS 015 MV SWITCH #6 E/Z: 4.336 KA AT -73.02 DEG ( 90.11 MVA) X/R: 3.30 SYM*1.6: 6.937 KA MOMENTARY BASED ON X/R: 4.940 KA SYM*2.7: 11.706 KA CREST BASED ON X/R: 8.500 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4668 + J 1.5283 OHMS 016 XFMR T-7 PRI E/Z: 4.301 KA AT -72.62 DEG ( 89.40 MVA) X/R: 3.22 SYM*1.6: 6.882 KA MOMENTARY BASED ON X/R: 4.875 KA SYM*2.7: 11.613 KA CREST BASED ON X/R: 8.377 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4811 + J 1.5372 OHMS 017 MV SWITCH #5 E/Z: 4.330 KA AT -72.94 DEG ( 90.00 MVA) X/R: 3.29 SYM*1.6: 6.929 KA MOMENTARY BASED ON X/R: 4.930 KA SYM*2.7: 11.692 KA CREST BASED ON X/R: 8.480 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4693 + J 1.5295 OHMS 018 SWITCH 137P19 E/Z: 4.318 KA AT -72.80 DEG ( 89.74 MVA) X/R: 3.26 SYM*1.6: 6.908 KA MOMENTARY BASED ON X/R: 4.905 KA SYM*2.7: 11.657 KA CREST BASED ON X/R: 8.434 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4746 + J 1.5329 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E M O M E N T A R Y D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================== 019 SWITCH B6 E/Z: 4.314 KA AT -72.72 DEG ( 89.66 MVA) X/R: 3.24 SYM*1.6: 6.902 KA MOMENTARY BASED ON X/R: 4.896 KA SYM*2.7: 11.647 KA CREST BASED ON X/R: 8.416 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4771 + J 1.5336 OHMS 020 SWITCH A1 E/Z: 4.316 KA AT -72.77 DEG ( 89.70 MVA) X/R: 3.25 SYM*1.6: 6.905 KA MOMENTARY BASED ON X/R: 4.902 KA SYM*2.7: 11.652 KA CREST BASED ON X/R: 8.427 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4754 + J 1.5334 OHMS 021 MV SWITCH #4 E/Z: 4.330 KA AT -72.94 DEG ( 90.01 MVA) X/R: 3.29 SYM*1.6: 6.929 KA MOMENTARY BASED ON X/R: 4.930 KA SYM*2.7: 11.692 KA CREST BASED ON X/R: 8.480 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4694 + J 1.5295 OHMS 022 SWITCH B2 E/Z: 4.262 KA AT -72.16 DEG ( 88.59 MVA) X/R: 3.13 SYM*1.6: 6.820 KA MOMENTARY BASED ON X/R: 4.802 KA SYM*2.7: 11.508 KA CREST BASED ON X/R: 8.239 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4981 + J 1.5473 OHMS 023 XFMR T-1-4 PRI E/Z: 4.325 KA AT -72.87 DEG ( 89.88 MVA) X/R: 3.27 SYM*1.6: 6.919 KA MOMENTARY BASED ON X/R: 4.918 KA SYM*2.7: 11.676 KA CREST BASED ON X/R: 8.459 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4719 + J 1.5310 OHMS 024 SWITCH 141P26 E/Z: 4.309 KA AT -72.69 DEG ( 89.55 MVA) X/R: 3.24 SYM*1.6: 6.894 KA MOMENTARY BASED ON X/R: 4.888 KA SYM*2.7: 11.633 KA CREST BASED ON X/R: 8.402 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4786 + J 1.5352 OHMS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E M O M E N T A R Y D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================== 025 SWITCH A6 E/Z: 4.319 KA AT -72.80 DEG ( 89.76 MVA) X/R: 3.26 SYM*1.6: 6.910 KA MOMENTARY BASED ON X/R: 4.907 KA SYM*2.7: 11.660 KA CREST BASED ON X/R: 8.438 KA VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4743 + J 1.5325 OHMS 101 MDSB-A VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 102 LP-GA VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 103 LP-GB VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 104 LP-1A VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 105 LP-1B VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 106 LP-2B VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 107 ECB 2160 VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 108 ECB 2148 VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 109 ECB 2149 VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 110 ECB 2163 VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 111 MCC-GB VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 112 MCC-2B VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 117 EDP-GA VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 121 ATS-E1_L VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 122 E1DP-GA VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 123 E1LP-GB VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 124 E1LP-1B VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 125 E1LP-2B VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 126 ATS-E2_L VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E M O M E N T A R Y D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================== 127 E2DP-GA VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 128 ECB VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 129 E2LP-GA VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 130 E2LP-1A VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 131 E2LP-2B VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 132 E2LP-2C VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 133 2143 ECB VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 134 ATS-E3_L VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 135 E3DP-GA VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 136 OR CHILLER VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 137 E3LP-GA CONTACTOR VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 138 E3LP-GA VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 139 EMCC-GB VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 140 E3LP-2B VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 141 CONTACTOR VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 150 MDSB-B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 151 RP-GA VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 152 RP-1B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 153 RP-1A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 154 RP-GB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 155 RP-2B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 160 MDSB-C VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E M O M E N T A R Y D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================== 161 CHILLER #1 VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 162 CHILLER #2 VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 170 XFMR T-1-1 SEC VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 171 MAIN SG A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 172 PPGM-A AC SHOP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 173 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 174 LP7A-1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 175 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 176 LP8B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 177 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 178 LP7A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 179 LP7A1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 180 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 181 LP8A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 182 PNL A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 183 LP6B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 184 LP6B2 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 185 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 186 LP5A-LH VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 187 LP5A-RH VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 188 LP5A2 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 189 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E M O M E N T A R Y D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================== 190 LP6A-LH VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 191 LP6A-RH VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 192 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 193 PP RM1134 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 194 PPGL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 195 PP2K-B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 195A CONTACTOR VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 195B PANEL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 196 ELEVATOR TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 205 XRAY B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 205A RP2G VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 205B 2H VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 205C 2J VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 205D RP2K VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 210 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 211 PPGB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 212 LPGA VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 213 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 214 RP-1C-1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 215 RP-1C-2 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 216 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 217 LP2A-LH VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E M O M E N T A R Y D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================== 218 LP2A-RH VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 219 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 220 LP3A-LH VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 221 LP3A-RH VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 223 LP4A-1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 224 LP4A-2 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 225 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 226 LP2B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 227 E2-4B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 228 CAPACITOR A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 229 ELE 1 ATS_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 230 ELE#1 ECB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 233 ELE 2 ATS_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 234 ELE#2 ECB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 236 ELE 3 ATS_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 237 ELE#3 ECB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 240 XFMR T-1-2 SEC VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 241 MAIN SG B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 242 DP ECB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 243 PANEL DP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 248 LP3 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 249 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E M O M E N T A R Y D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================== 250 LPGB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 251 LPGP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 252 LP-GP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 253 LP1D JB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 254 RP-1D-1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 255 RP-1D-2 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 256 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 257 LP1B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 258 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 259 LP2A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 260 LP2D VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 261 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 262 LP6C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 263 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 264 LP7C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 265 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 266 LP8C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 267 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 268 LP9C1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 269 LP9C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 270 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 271 LPGC-B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E M O M E N T A R Y D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================== 272 LPGC-C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 273 LPGC-A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 277 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 278 LP1C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 279 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 280 LP2C-A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 281 LP2C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 282 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 283 LP3C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 284 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 285 LP4C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 286 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 287 LP5C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 288 PPGM-B AC SHOP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 289 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 290 PPGN-C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 291 PPGN-B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 293 PPGN-A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 294 XRAY 2FL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 295 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 296 PNL C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 297 LP2L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E M O M E N T A R Y D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================== 298 PP2K VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 299 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 300 PP4K VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 301 PP5K VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 302 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 303 PP10N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 304 PP9M VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 305 CAPACITOR B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 306 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 307 LP5B-LH VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 308 LP5B-RH VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 309 PPGK VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 310 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 311 PP6K VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 312 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 313 PP8K VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 314 PP7K VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 320 AC SWBD VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 321 LPGE VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 322 LP-8E VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 323 HP-9M VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 324 MCC IN AC ROOM VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E M O M E N T A R Y D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================== 330 XFMR T-1-4 SEC VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 331 DIETETICS ECB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 332 KDP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 333 FOOD TRAY VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 334 KPA VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 335 KPD VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 336 KLP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 337 UTIL DIST VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 338 PP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 340 XRAY SUBSTATION VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 341 PANEL A VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 402 MAIN BRKR VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 403 CRITICAL BRKR VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 404 BLDG18 CRITICAL EMERGENCY VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 410 DPE BRKR VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 411 DPE VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 417 ATS 7_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 418 EDP1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 419 PLGN VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 420 PL5N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 421 PL1N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 422 PL6N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E M O M E N T A R Y D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================== 423 PL2N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 424 PL7N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 425 PL3N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 426 PL8N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 427 PL4N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 428 EC3 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 429 E2-4W SEC#1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 430 CB3W VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 431 CBME VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 432 ATS 9_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 433 LP9C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 434 ATS 8_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 435 EDP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 436 LPGN-N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 437 LP1N-N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 438 LP2N-N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 439 LP3N-N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 440 LP4N-N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 441 LP5N-N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 442 LP6N-N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 443 LP7N-N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 444 LP8N-N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E M O M E N T A R Y D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================== 445 ATS 10_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 446 EE3 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 450 XFMR T-13A SEC VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 451 BUG VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 452 EMG PANEL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 453 UNMARKED PANEL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 454 POWER PANEL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 455 400A DISCONNECT VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 456 LP-1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 457 PNL A (LP-2) VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 458 NEW EQ CTR VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 459 PNL B (OL) VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 460 XFMR T-13B SEC VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 461 NON-FUSED DISCONNECT VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 462 CP1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 500 XFMR T-19B SEC VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 501 XFMR T-19A SEC VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 502 CRITICAL SWBD BLDG #18 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 505 LP1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 509 ATS 1_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 510 EDP-E VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 511 EDPA VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E M O M E N T A R Y D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================== 512 LP1N-0 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 512A TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 513 LPGN-0 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 514 LP2N-0 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 514A TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 515 LP3N-0 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 516 LP4N-0 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 516A TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 517 LP5N-0 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 517A TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 518 LP6N-0 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 518A TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 519 LP7N-0 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 519A TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 520 LP8N-0 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 521 ATS 3_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 522 ELE 4 ECB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 523 ATS 4_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 524 LP2 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 525 ATS 2_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 526 AOV VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 527 KP ECB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E M O M E N T A R Y D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================== 528 KP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 529 ATS 6_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 530 LP5-N1 "HEMO" VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 601 BLDG 17 MN VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 603 PNL A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 604 PNL B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 605 PNL C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 606 RPB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 607 RPA VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 608 MDS (ICEHOUSE) VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 609 21-LP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 610 UNLABELED PNL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 612 BLDG 17 EM CB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 614 ATS BLDG 17_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 615 EDP (BLDG 17) VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 616 AE VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 617 CONTACTOR AE VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 617A PNL AE1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 618 BE VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 619 CE VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 620 EM MAIN VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 621 EM VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E M O M E N T A R Y D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================== 701 XFMR T-5 SEC VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 702 BLDG 5 MTR PNL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 703 PNL D VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 704 PNL C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 705 PNL B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 706 PNL IN HALL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 707 BLDG 2 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 708 RP3 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 709 RP4 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 801 XFMR T-15 SEC VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 802 MN TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 803 BLDG 15 SWGR VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 805 J BOX VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 806 2LP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 807 LP1 (ILD) VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 808 J BOX VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 809 PNL A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 810 SPLICE BOX ON WALL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 811 RM 213 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 812 ACP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 812A CHILLER VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 813 BLDG 10 GARAGE VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E M O M E N T A R Y D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================== 815 ELE DISC VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 816 J BOX VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 817 PNL K VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 818 PNL M VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 819 J BOX VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 820 PNL D VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 821 J BOX VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 822 PNL E VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 823 PNL F VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 824 J BOX VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 825 PNL I VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 826 PNL J VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 827 J BOX VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 828 PNL G VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 829 PNL H VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 830 ATS 15 ECB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 832 BLDG 15 EMERG GEN VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 834 ATS 15_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 835 EMER DISTRIBUTION PANEL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 837 KENNEL (K-EP BLDG 10) VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 839 GEN RM PNL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 840 DATA CENTER VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E M O M E N T A R Y D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================== 841 MAIN PANEL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 842 RP1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 843 RDU VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 844 CRAC 2-1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 845 CRAC 2-2 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 846 CRAC 2-3 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 900 XFMR T-7 SEC VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 901 BLDG 7 MN SWGR VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 903 BLDG 10 VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 904 BLDG 6 ECB VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 905 LOADING DOCK ECB VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 906 WAREHOUSE ECB VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 907 BLDG 7 EMERG GEN VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 910 BLDG 7 ATS_L VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 911 ATS 7 ECB VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 912 MCC VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 912A PNL LP VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 913 ELEVATOR ECB VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 914 ELE VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 916 PNL 1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 917 PANEL PP02 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 918 PNL M VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E M O M E N T A R Y D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================== 919 PNL K VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 920 PNL J VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 921 GARAGE PANEL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 922 NEW OFFICE ECB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 923 NEW OFFICE PANEL (Panel A) VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 M O M E N T A R Y D U T Y S U M M A R Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO SOLUTION METHOD : E/Z ============================================================================================== BUS RECORD VOLTAGE * 3 P H A S E * * * * SLG * * * NO NAME L-L KA X/R KA X/R ============================================================================================== 001 NEW SUBSTATION SWGR 12000. 5.117 3.48 002 MV SWITCH #1 12000. 5.081 3.45 003 XFMR T-13A PRI 12000. 5.026 3.36 004 XFMR T-13B PRI 12000. 5.023 3.36 005 MV SWITCH #2 12000. 4.958 3.30 006 SWITCH A7 12000. 4.905 3.24 007 MV SWITCH #3 12000. 4.930 3.29 008 SWITCH A4 12000. 4.781 3.11 009 XFMR T-15 PRI 12000. 4.886 3.23 010 MV SWITCH #7 12000. 5.045 3.41 011 TAP 12000. 5.029 3.39 012 XFMR T-1A-1 PRI 12000. 5.029 3.39 013 XFMR T-1A-2 PRI 12000. 5.021 3.38 014 XFMR T-1A-3 PRI 12000. 5.013 3.37 015 MV SWITCH #6 12000. 4.940 3.30 016 XFMR T-7 PRI 12000. 4.875 3.22 017 MV SWITCH #5 12000. 4.930 3.29 018 SWITCH 137P19 12000. 4.905 3.26 019 SWITCH B6 12000. 4.896 3.24 020 SWITCH A1 12000. 4.902 3.25 021 MV SWITCH #4 12000. 4.930 3.29 022 SWITCH B2 12000. 4.802 3.13 023 XFMR T-1-4 PRI 12000. 4.918 3.27 024 SWITCH 141P26 12000. 4.888 3.24 025 SWITCH A6 12000. 4.907 3.26 25 FAULTED BUSES, 444 BRANCHES, 24 CONTRIBUTIONS *** SHORT CIRCUIT STUDY COMPLETE ***

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO NACD OPTION: INTERPOLATED ============================================================================================== 001 NEW SUBSTATION SWGR E/Z: 4.402 KA AT -73.80 DEG ( 91.49 MVA) X/R: 3.46 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4391 + J 1.5115 OHMS CONTRIBUTIONS: UTIL-#141 FDR 4.376 KA ANG: -73.75 CBL-0003 002 MV SWITCH 0.016 KA ANG: 99.29 CBL-0004 010 MV SWITCH 0.010 KA ANG: 93.66 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.376 0.00 R TOTAL REMOTE: 4.376 KA NACD RATIO: 0.9942 SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.402 4.402 4.402 4.402 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.033 1.000 1.000 1.000 DUTY (KA) : 4.548 4.402 4.402 4.402 002 MV SWITCH #1 E/Z: 4.381 KA AT -73.64 DEG ( 91.05 MVA) X/R: 3.42 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4456 + J 1.5174 OHMS CBL-0005 003 XFMR T-13A 0.006 KA ANG: 99.07 CBL-0003 001 NEW SUBSTA 4.150 KA ANG: -73.76 CBL-0007 005 MV SWITCH 0.226 KA ANG: -251.26 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.355 0.01 R TOTAL REMOTE: 4.355 KA NACD RATIO: 0.9942 SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.381 4.381 4.381 4.381 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.033 1.000 1.000 1.000 DUTY (KA) : 4.525 4.381 4.381 4.381 003 XFMR T-13A PRI E/Z: 4.357 KA AT -73.26 DEG ( 90.57 MVA) X/R: 3.34 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4581 + J 1.5226 OHMS T-13A 450 XFMR T-13A 0.006 KA ANG: 99.07 CBL-0005 002 MV SWITCH 4.352 KA ANG: -73.25 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.332 0.01 R TOTAL REMOTE: 4.332 KA NACD RATIO: 0.9942

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO NACD OPTION: INTERPOLATED ============================================================================================== SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.357 4.357 4.357 4.357 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.032 1.000 1.000 1.000 DUTY (KA) : 4.496 4.357 4.357 4.357 004 XFMR T-13B PRI E/Z: 4.356 KA AT -73.24 DEG ( 90.55 MVA) X/R: 3.33 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4586 + J 1.5228 OHMS CONTRIBUTIONS: 002 MV SWITCH 4.356 KA ANG: -73.24 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.331 0.01 R TOTAL REMOTE: 4.331 KA NACD RATIO: 0.9942 SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.356 4.356 4.356 4.356 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.032 1.000 1.000 1.000 DUTY (KA) : 4.495 4.356 4.356 4.356 005 MV SWITCH #2 E/Z: 4.316 KA AT -72.94 DEG ( 89.70 MVA) X/R: 3.28 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4709 + J 1.5347 OHMS CBL-0007 002 MV SWITCH 3.023 KA ANG: -70.09 CBL-0013 007 MV SWITCH 1.297 KA ANG: 100.47 CBL-0012 006 SWITCH A7 0.008 KA ANG: 96.76 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.291 0.02 R TOTAL REMOTE: 4.291 KA NACD RATIO: 0.9941 SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.316 4.316 4.316 4.316 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.031 1.000 1.000 1.000 DUTY (KA) : 4.450 4.316 4.316 4.316

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO NACD OPTION: INTERPOLATED ============================================================================================== 006 SWITCH A7 E/Z: 4.288 KA AT -72.62 DEG ( 89.13 MVA) X/R: 3.21 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4826 + J 1.5419 OHMS CBL-0012 005 MV SWITCH 4.280 KA ANG: -72.60 T-17 601 BLDG 17 MN 0.008 KA ANG: 96.76 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.263 0.03 R TOTAL REMOTE: 4.263 KA NACD RATIO: 0.9941 SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.288 4.288 4.288 4.288 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.030 1.000 1.000 1.000 DUTY (KA) : 4.418 4.288 4.288 4.288 007 MV SWITCH #3 E/Z: 4.296 KA AT -72.87 DEG ( 89.30 MVA) X/R: 3.26 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4751 + J 1.5410 OHMS CONTRIBUTIONS: 005 MV SWITCH 2.304 KA ANG: -70.05 CBL-0016 021 MV SWITCH 1.998 KA ANG: 103.88 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.271 0.03 R TOTAL REMOTE: 4.271 KA NACD RATIO: 0.9941 SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.296 4.296 4.296 4.296 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.031 1.000 1.000 1.000 DUTY (KA) : 4.429 4.296 4.296 4.296 008 SWITCH A4 E/Z: 4.218 KA AT -71.96 DEG ( 87.66 MVA) X/R: 3.08 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.5086 + J 1.5619 OHMS CONTRIBUTIONS: 007 MV SWITCH 4.218 KA ANG: -71.96 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.193 0.05 R TOTAL REMOTE: 4.193 KA NACD RATIO: 0.9941

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO NACD OPTION: INTERPOLATED ============================================================================================== SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.218 4.218 4.218 4.218 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.029 1.000 1.000 1.000 DUTY (KA) : 4.339 4.218 4.218 4.218 009 XFMR T-15 PRI E/Z: 4.273 KA AT -72.60 DEG ( 88.82 MVA) X/R: 3.21 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4847 + J 1.5471 OHMS CONTRIBUTIONS: 007 MV SWITCH 4.273 KA ANG: -72.60 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.248 0.04 R TOTAL REMOTE: 4.248 KA NACD RATIO: 0.9941 SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.273 4.273 4.273 4.273 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.030 1.000 1.000 1.000 DUTY (KA) : 4.403 4.273 4.273 4.273 010 MV SWITCH #7 E/Z: 4.360 KA AT -73.47 DEG ( 90.63 MVA) X/R: 3.38 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4520 + J 1.5233 OHMS CBL-0004 001 NEW SUBSTA 3.896 KA ANG: -73.77 CBL-0018 011 TAP 0.003 KA ANG: 95.84 CBL-0019 015 MV SWITCH 0.462 KA ANG: -250.90 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.335 0.01 R TOTAL REMOTE: 4.335 KA NACD RATIO: 0.9942 SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.360 4.360 4.360 4.360 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.032 1.000 1.000 1.000 DUTY (KA) : 4.502 4.360 4.360 4.360

606 of 648

VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO NACD OPTION: INTERPOLATED ============================================================================================== 011 TAP E/Z: 4.352 KA AT -73.38 DEG ( 90.46 MVA) X/R: 3.36 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4553 + J 1.5253 OHMS CONTRIBUTIONS: 010 MV SWITCH 4.349 KA ANG: -73.37 CBL-0027 012 XFMR T-1A- 0.003 KA ANG: 95.84 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.327 0.01 R TOTAL REMOTE: 4.327 KA NACD RATIO: 0.9942 SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.352 4.352 4.352 4.352 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.032 1.000 1.000 1.000 DUTY (KA) : 4.493 4.352 4.352 4.352 012 XFMR T-1A-1 PRI E/Z: 4.352 KA AT -73.38 DEG ( 90.46 MVA) X/R: 3.36 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4554 + J 1.5254 OHMS CBL-0027 011 TAP 4.349 KA ANG: -73.37 T-1A-1 101 MDSB-A 0.003 KA ANG: 95.84 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.327 0.01 R TOTAL REMOTE: 4.327 KA NACD RATIO: 0.9942 SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.352 4.352 4.352 4.352 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.032 1.000 1.000 1.000 DUTY (KA) : 4.492 4.352 4.352 4.352 013 XFMR T-1A-2 PRI E/Z: 4.348 KA AT -73.33 DEG ( 90.38 MVA) X/R: 3.36 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4570 + J 1.5263 OHMS CBL-0026 011 TAP 4.348 KA ANG: -73.33 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.323 0.01 R TOTAL REMOTE: 4.323 KA NACD RATIO: 0.9942

607 of 648

VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO NACD OPTION: INTERPOLATED ============================================================================================== SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.348 4.348 4.348 4.348 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.032 1.000 1.000 1.000 DUTY (KA) : 4.488 4.348 4.348 4.348 014 XFMR T-1A-3 PRI E/Z: 4.344 KA AT -73.29 DEG ( 90.30 MVA) X/R: 3.35 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4586 + J 1.5274 OHMS CONTRIBUTIONS: 011 TAP 4.344 KA ANG: 106.71 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.319 0.02 R TOTAL REMOTE: 4.319 KA NACD RATIO: 0.9942 SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.344 4.344 4.344 4.344 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.032 1.000 1.000 1.000 DUTY (KA) : 4.483 4.344 4.344 4.344 015 MV SWITCH #6 E/Z: 4.300 KA AT -72.95 DEG ( 89.38 MVA) X/R: 3.28 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4723 + J 1.5403 OHMS CONTRIBUTIONS: 010 MV SWITCH 2.677 KA ANG: -74.62 CBL-0021 017 MV SWITCH 1.626 KA ANG: -250.21 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.275 0.03 R TOTAL REMOTE: 4.275 KA NACD RATIO: 0.9941 SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.300 4.300 4.300 4.300 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.031 1.000 1.000 1.000 DUTY (KA) : 4.434 4.300 4.300 4.300

608 of 648

VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO NACD OPTION: INTERPOLATED ============================================================================================== 016 XFMR T-7 PRI E/Z: 4.267 KA AT -72.56 DEG ( 88.68 MVA) X/R: 3.20 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4866 + J 1.5492 OHMS CBL-0020 015 MV SWITCH 4.267 KA ANG: 107.44 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.242 0.04 R TOTAL REMOTE: 4.242 KA NACD RATIO: 0.9941 SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.267 4.267 4.267 4.267 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.030 1.000 1.000 1.000 DUTY (KA) : 4.395 4.267 4.267 4.267 017 MV SWITCH #5 E/Z: 4.295 KA AT -72.88 DEG ( 89.27 MVA) X/R: 3.26 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4749 + J 1.5415 OHMS CONTRIBUTIONS: 015 MV SWITCH 2.211 KA ANG: -75.48 CBL-0024 021 MV SWITCH 2.089 KA ANG: -250.12 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.270 0.03 R TOTAL REMOTE: 4.270 KA NACD RATIO: 0.9941 SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.295 4.295 4.295 4.295 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.031 1.000 1.000 1.000 DUTY (KA) : 4.428 4.295 4.295 4.295 018 SWITCH 137P19 E/Z: 4.283 KA AT -72.73 DEG ( 89.01 MVA) X/R: 3.23 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4802 + J 1.5449 OHMS CONTRIBUTIONS: 017 MV SWITCH 4.283 KA ANG: -72.73 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.257 0.03 R TOTAL REMOTE: 4.257 KA NACD RATIO: 0.9941

609 of 648

VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO NACD OPTION: INTERPOLATED ============================================================================================== SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.283 4.283 4.283 4.283 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.031 1.000 1.000 1.000 DUTY (KA) : 4.413 4.283 4.283 4.283 019 SWITCH B6 E/Z: 4.279 KA AT -72.66 DEG ( 88.93 MVA) X/R: 3.22 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4827 + J 1.5456 OHMS CBL-0022 017 MV SWITCH 4.279 KA ANG: 107.34 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.253 0.03 R TOTAL REMOTE: 4.253 KA NACD RATIO: 0.9941 SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.279 4.279 4.279 4.279 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.030 1.000 1.000 1.000 DUTY (KA) : 4.409 4.279 4.279 4.279 020 SWITCH A1 E/Z: 4.281 KA AT -72.71 DEG ( 88.97 MVA) X/R: 3.23 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4810 + J 1.5454 OHMS CONTRIBUTIONS: 017 MV SWITCH 4.281 KA ANG: -72.71 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.255 0.03 R TOTAL REMOTE: 4.255 KA NACD RATIO: 0.9941 SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.281 4.281 4.281 4.281 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.030 1.000 1.000 1.000 DUTY (KA) : 4.411 4.281 4.281 4.281

610 of 648

VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO NACD OPTION: INTERPOLATED ============================================================================================== 021 MV SWITCH #4 E/Z: 4.295 KA AT -72.87 DEG ( 89.28 MVA) X/R: 3.26 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4750 + J 1.5415 OHMS CONTRIBUTIONS: 024 SWITCH 141 0.009 KA ANG: 96.61 CBL-0016 007 MV SWITCH 2.152 KA ANG: -70.06 CBL-0024 017 MV SWITCH 2.140 KA ANG: -75.66 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.270 0.03 R TOTAL REMOTE: 4.270 KA NACD RATIO: 0.9941 SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.295 4.295 4.295 4.295 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.031 1.000 1.000 1.000 DUTY (KA) : 4.428 4.295 4.295 4.295 022 SWITCH B2 E/Z: 4.228 KA AT -72.10 DEG ( 87.88 MVA) X/R: 3.11 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.5037 + J 1.5593 OHMS CONTRIBUTIONS: 021 MV SWITCH 4.228 KA ANG: -72.10 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.203 0.05 R TOTAL REMOTE: 4.203 KA NACD RATIO: 0.9941 SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.228 4.228 4.228 4.228 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.029 1.000 1.000 1.000 DUTY (KA) : 4.351 4.228 4.228 4.228 023 XFMR T-1-4 PRI E/Z: 4.289 KA AT -72.81 DEG ( 89.15 MVA) X/R: 3.25 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4775 + J 1.5430 OHMS CONTRIBUTIONS: 021 MV SWITCH 4.289 KA ANG: -72.81 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.264 0.03 R TOTAL REMOTE: 4.264 KA NACD RATIO: 0.9941

611 of 648

VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO NACD OPTION: INTERPOLATED ============================================================================================== SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.289 4.289 4.289 4.289 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.031 1.000 1.000 1.000 DUTY (KA) : 4.421 4.289 4.289 4.289 024 SWITCH 141P26 E/Z: 4.274 KA AT -72.62 DEG ( 88.82 MVA) X/R: 3.21 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4842 + J 1.5472 OHMS CBL-0031 021 MV SWITCH 4.264 KA ANG: -72.60 T-1-1 170 XFMR T-1-1 0.009 KA ANG: 96.61 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.248 0.04 R TOTAL REMOTE: 4.248 KA NACD RATIO: 0.9941 SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.274 4.274 4.274 4.274 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.030 1.000 1.000 1.000 DUTY (KA) : 4.403 4.274 4.274 4.274 025 SWITCH A6 E/Z: 4.284 KA AT -72.74 DEG ( 89.03 MVA) X/R: 3.23 VOLTAGE: 12000. EQUIV. IMPEDANCE= 0.4799 + J 1.5445 OHMS CONTRIBUTIONS: 021 MV SWITCH 4.284 KA ANG: -72.74 GENERATOR NAME -- AT BUS -- KA VOLTS PU LOCAL/REMOTE UTIL-#141 FDR 4.258 0.03 R TOTAL REMOTE: 4.258 KA NACD RATIO: 0.9941 SYM2 SYM3 SYM5 SYM8 MULT. FACT: 1.000 1.000 1.000 1.000 DUTY (KA) : 4.284 4.284 4.284 4.284 TOT2 TOT3 TOT5 TOT8 MULT. FACT: 1.031 1.000 1.000 1.000 DUTY (KA) : 4.415 4.284 4.284 4.284

612 of 648

VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P U T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================== 101 MDSB-A VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 102 LP-GA VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 103 LP-GB VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 104 LP-1A VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 105 LP-1B VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 106 LP-2B VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 107 ECB 2160 VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 108 ECB 2148 VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 109 ECB 2149 VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 110 ECB 2163 VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 111 MCC-GB VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 112 MCC-2B VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 117 EDP-GA VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 121 ATS-E1_L VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 122 E1DP-GA VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 123 E1LP-GB VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 124 E1LP-1B VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 125 E1LP-2B VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 126 ATS-E2_L VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 127 E2DP-GA VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 128 ECB VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 129 E2LP-GA VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT )

613 of 648

VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P U T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================== 130 E2LP-1A VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 131 E2LP-2B VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 132 E2LP-2C VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 133 2143 ECB VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 134 ATS-E3_L VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 135 E3DP-GA VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 136 OR CHILLER VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 137 E3LP-GA CONTACTOR VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 138 E3LP-GA VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 139 EMCC-GB VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 140 E3LP-2B VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 141 CONTACTOR VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 150 MDSB-B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 151 RP-GA VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 152 RP-1B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 153 RP-1A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 154 RP-GB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 155 RP-2B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 160 MDSB-C VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 161 CHILLER #1 VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 162 CHILLER #2 VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 170 XFMR T-1-1 SEC VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

614 of 648

VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P U T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================== 171 MAIN SG A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 172 PPGM-A AC SHOP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 173 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 174 LP7A-1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 175 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 176 LP8B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 177 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 178 LP7A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 179 LP7A1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 180 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 181 LP8A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 182 PNL A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 183 LP6B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 184 LP6B2 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 185 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 186 LP5A-LH VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 187 LP5A-RH VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 188 LP5A2 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 189 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 190 LP6A-LH VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 191 LP6A-RH VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 192 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

615 of 648

VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P U T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================== 193 PP RM1134 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 194 PPGL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 195 PP2K-B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 195A CONTACTOR VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 195B PANEL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 196 ELEVATOR TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 205 XRAY B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 205A RP2G VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 205B 2H VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 205C 2J VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 205D RP2K VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 210 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 211 PPGB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 212 LPGA VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 213 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 214 RP-1C-1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 215 RP-1C-2 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 216 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 217 LP2A-LH VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 218 LP2A-RH VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 219 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 220 LP3A-LH VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P U T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================== 221 LP3A-RH VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 223 LP4A-1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 224 LP4A-2 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 225 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 226 LP2B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 227 E2-4B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 228 CAPACITOR A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 229 ELE 1 ATS_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 230 ELE#1 ECB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 233 ELE 2 ATS_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 234 ELE#2 ECB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 236 ELE 3 ATS_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 237 ELE#3 ECB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 240 XFMR T-1-2 SEC VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 241 MAIN SG B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 242 DP ECB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 243 PANEL DP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 248 LP3 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 249 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 250 LPGB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 251 LPGP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 252 LP-GP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P U T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================== 253 LP1D JB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 254 RP-1D-1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 255 RP-1D-2 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 256 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 257 LP1B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 258 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 259 LP2A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 260 LP2D VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 261 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 262 LP6C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 263 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 264 LP7C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 265 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 266 LP8C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 267 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 268 LP9C1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 269 LP9C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 270 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 271 LPGC-B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 272 LPGC-C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 273 LPGC-A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 277 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P U T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================== 278 LP1C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 279 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 280 LP2C-A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 281 LP2C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 282 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 283 LP3C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 284 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 285 LP4C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 286 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 287 LP5C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 288 PPGM-B AC SHOP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 289 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 290 PPGN-C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 291 PPGN-B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 293 PPGN-A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 294 XRAY 2FL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 295 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 296 PNL C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 297 LP2L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 298 PP2K VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 299 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 300 PP4K VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P U T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================== 301 PP5K VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 302 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 303 PP10N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 304 PP9M VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 305 CAPACITOR B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 306 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 307 LP5B-LH VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 308 LP5B-RH VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 309 PPGK VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 310 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 311 PP6K VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 312 TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 313 PP8K VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 314 PP7K VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 320 AC SWBD VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 321 LPGE VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 322 LP-8E VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 323 HP-9M VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 324 MCC IN AC ROOM VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 330 XFMR T-1-4 SEC VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 331 DIETETICS ECB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 332 KDP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P U T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================== 333 FOOD TRAY VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 334 KPA VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 335 KPD VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 336 KLP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 337 UTIL DIST VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 338 PP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 340 XRAY SUBSTATION VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 341 PANEL A VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 402 MAIN BRKR VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 403 CRITICAL BRKR VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 404 BLDG18 CRITICAL EMERGENCY VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 410 DPE BRKR VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 411 DPE VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 417 ATS 7_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 418 EDP1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 419 PLGN VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 420 PL5N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 421 PL1N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 422 PL6N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 423 PL2N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 424 PL7N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 425 PL3N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P U T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================== 426 PL8N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 427 PL4N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 428 EC3 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 429 E2-4W SEC#1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 430 CB3W VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 431 CBME VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 432 ATS 9_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 433 LP9C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 434 ATS 8_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 435 EDP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 436 LPGN-N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 437 LP1N-N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 438 LP2N-N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 439 LP3N-N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 440 LP4N-N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 441 LP5N-N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 442 LP6N-N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 443 LP7N-N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 444 LP8N-N VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 445 ATS 10_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 446 EE3 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 450 XFMR T-13A SEC VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P U T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================== 451 BUG VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 452 EMG PANEL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 453 UNMARKED PANEL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 454 POWER PANEL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 455 400A DISCONNECT VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 456 LP-1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 457 PNL A (LP-2) VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 458 NEW EQ CTR VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 459 PNL B (OL) VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 460 XFMR T-13B SEC VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 461 NON-FUSED DISCONNECT VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 462 CP1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 500 XFMR T-19B SEC VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 501 XFMR T-19A SEC VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 502 CRITICAL SWBD BLDG #18 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 505 LP1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 509 ATS 1_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 510 EDP-E VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 511 EDPA VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 512 LP1N-0 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 512A TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 513 LPGN-0 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P U T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================== 514 LP2N-0 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 514A TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 515 LP3N-0 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 516 LP4N-0 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 516A TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 517 LP5N-0 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 517A TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 518 LP6N-0 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 518A TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 519 LP7N-0 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 519A TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 520 LP8N-0 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 521 ATS 3_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 522 ELE 4 ECB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 523 ATS 4_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 524 LP2 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 525 ATS 2_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 526 AOV VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 527 KP ECB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 528 KP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 529 ATS 6_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 530 LP5-N1 "HEMO" VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P U T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================== 601 BLDG 17 MN VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 603 PNL A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 604 PNL B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 605 PNL C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 606 RPB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 607 RPA VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 608 MDS (ICEHOUSE) VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 609 21-LP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 610 UNLABELED PNL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 612 BLDG 17 EM CB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 614 ATS BLDG 17_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 615 EDP (BLDG 17) VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 616 AE VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 617 CONTACTOR AE VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 617A PNL AE1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 618 BE VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 619 CE VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 620 EM MAIN VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 621 EM VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 701 XFMR T-5 SEC VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 702 BLDG 5 MTR PNL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 703 PNL D VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P U T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================== 704 PNL C VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 705 PNL B VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 706 PNL IN HALL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 707 BLDG 2 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 708 RP3 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 709 RP4 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 801 XFMR T-15 SEC VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 802 MN TAP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 803 BLDG 15 SWGR VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 805 J BOX VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 806 2LP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 807 LP1 (ILD) VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 808 J BOX VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 809 PNL A VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 810 SPLICE BOX ON WALL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 811 RM 213 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 812 ACP VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 812A CHILLER VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 813 BLDG 10 GARAGE VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 815 ELE DISC VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 816 J BOX VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 817 PNL K VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P U T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================== 818 PNL M VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 819 J BOX VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 820 PNL D VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 821 J BOX VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 822 PNL E VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 823 PNL F VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 824 J BOX VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 825 PNL I VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 826 PNL J VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 827 J BOX VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 828 PNL G VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 829 PNL H VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 830 ATS 15 ECB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 832 BLDG 15 EMERG GEN VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 834 ATS 15_L VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 835 EMER DISTRIBUTION PANEL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 837 KENNEL (K-EP BLDG 10) VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 839 GEN RM PNL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 840 DATA CENTER VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 841 MAIN PANEL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 842 RP1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 843 RDU VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P U T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================== 844 CRAC 2-1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 845 CRAC 2-2 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 846 CRAC 2-3 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 900 XFMR T-7 SEC VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 901 BLDG 7 MN SWGR VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 903 BLDG 10 VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 904 BLDG 6 ECB VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 905 LOADING DOCK ECB VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 906 WAREHOUSE ECB VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 907 BLDG 7 EMERG GEN VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 910 BLDG 7 ATS_L VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 911 ATS 7 ECB VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 912 MCC VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 912A PNL LP VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 913 ELEVATOR ECB VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 914 ELE VOLTAGE: 480. ( SEE LOW VOLTAGE REPORT ) 916 PNL 1 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 917 PANEL PP02 VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 918 PNL M VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 919 PNL K VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 920 PNL J VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 921 GARAGE PANEL VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 T H R E E P H A S E I N T E R R U P U T I N G D U T Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO ============================================================================================== 922 NEW OFFICE ECB VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT ) 923 NEW OFFICE PANEL (Panel A) VOLTAGE: 208. ( SEE LOW VOLTAGE REPORT )

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 I N T E R R U P T I N G D U T Y S U M M A R Y R E P O R T PRE FAULT VOLTAGE: 1.0000 MODEL TRANSFORMER TAPS: NO NACD OPTION: INTERPOLATED ============================================================================================== BUS RECORD VOLTAGE NACD * 3 P H A S E * * * * S L G * * * NO NAME L-L RATIO E/Z KA X/R E/Z KA X/R ============================================================================================== 001 NEW SUBSTATION SWGR 12000. 0.994 4.402 3.46 002 MV SWITCH #1 12000. 0.994 4.381 3.42 003 XFMR T-13A PRI 12000. 0.994 4.357 3.34 004 XFMR T-13B PRI 12000. 0.994 4.356 3.33 005 MV SWITCH #2 12000. 0.994 4.316 3.28 006 SWITCH A7 12000. 0.994 4.288 3.21 007 MV SWITCH #3 12000. 0.994 4.296 3.26 008 SWITCH A4 12000. 0.994 4.218 3.08 009 XFMR T-15 PRI 12000. 0.994 4.273 3.21 010 MV SWITCH #7 12000. 0.994 4.360 3.38 011 TAP 12000. 0.994 4.352 3.36 012 XFMR T-1A-1 PRI 12000. 0.994 4.352 3.36 013 XFMR T-1A-2 PRI 12000. 0.994 4.348 3.36 014 XFMR T-1A-3 PRI 12000. 0.994 4.344 3.35 015 MV SWITCH #6 12000. 0.994 4.300 3.28 016 XFMR T-7 PRI 12000. 0.994 4.267 3.20 017 MV SWITCH #5 12000. 0.994 4.295 3.26 018 SWITCH 137P19 12000. 0.994 4.283 3.23 019 SWITCH B6 12000. 0.994 4.279 3.22 020 SWITCH A1 12000. 0.994 4.281 3.23 021 MV SWITCH #4 12000. 0.994 4.295 3.26 022 SWITCH B2 12000. 0.994 4.228 3.11 023 XFMR T-1-4 PRI 12000. 0.994 4.289 3.25 024 SWITCH 141P26 12000. 0.994 4.274 3.21 025 SWITCH A6 12000. 0.994 4.284 3.23 25 FAULTED BUSES, 444 BRANCHES, 24 CONTRIBUTIONS *** SHORT CIRCUIT STUDY COMPLETE ***

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APPENDIX D: VOLTAGE DROP INPUT TABULATIONS

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 ------------------------------------------------------------------------------ ALL PU VALUES ARE EXPRESSED ON A 100 MVA BASE.

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 GENERATION DATA -------------------------------------------------------------------------------------------------------------- BUS NAME GENERATION VOLT SIZE InitKW MaxKVAR TYPE -------------------------------------------------------------------------------------------------------------- 001 NEW SUBSTATION SWGR UTIL-#141 FDR 1 pu SB Three Phase Contribution: 4376.00 AMPS X/R : 3.43 Line to Earth Contribution: 2900.00 AMPS X/R : 3.43 Pos sequence impedance (100 MVA base) 0.3077 + J 1.06 PU Zero sequence impedance (100 MVA base) 0.7776 + J 2.67 PU 116 CLINICAL ADD EM GEN CLINICAL ADDITION 1 pu 750.00 kVA 0.00000 0.00000 SB 907 BLDG 7 EMERG GEN BLDG 7 1 pu 1250.00 kVA 0.00000 0.00000 SB 832 BLDG 15 EMERG GEN BLDG 15 GEN 1 pu 200.00 kVA 0.00000 0.00000 SB 401 BLDG 18 EMERG GEN BLDG 18 1 pu 440.00 KW 0.00000 0.00000 SB 611 GEN BLDG 17 1 pu 187.00 kVA 0.00000 0.00000 SB

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 ENERGY AUDIT LOADS -------------------------------------------------------------------------------------------------------------- BUS NAME LOAD NAME VOLTS SIZE LOADTYPE PF LAG/LEAD -------------------------------------------------------------------------------------------------------------- 102 LP-GA LOAD-102 480 36.0*1.00AMPS KVA 0.80 LAG 103 LP-GB LOAD-103 480 36.0*1.00AMPS KVA 0.80 LAG 104 LP-1A LOAD-104 480 36.0*1.00AMPS KVA 0.80 LAG 105 LP-1B LOAD-105 480 36.0*1.00AMPS KVA 0.80 LAG 107 ECB 2160 LOAD-107 480 15.8*1.00AMPS KVA 0.80 LAG 108 ECB 2148 LOAD-108 480 15.8*1.00AMPS KVA 0.80 LAG 109 ECB 2149 LOAD-109 480 15.8*1.00AMPS KVA 0.80 LAG 110 ECB 2163 LOAD-110 480 15.8*1.00AMPS KVA 0.80 LAG 122 E1DP-GA LOAD-122 480 85.0*1.00AMPS KVA 0.80 LAG 123 E1LP-GB LOAD-123 480 52.0*1.00AMPS KVA 0.80 LAG 124 E1LP-1B LOAD-124 480 35.0*1.00AMPS KVA 0.80 LAG 125 E1LP-2B LOAD-125 480 35.0*1.00AMPS KVA 0.80 LAG 128 ECB LOAD-0128 480 36.0*1.00AMPS KVA 0.80 LAG 130 E2LP-1A LOAD-130 480 36.0*1.00AMPS KVA 0.80 LAG 131 E2LP-2B LOAD-131 480 36.0*1.00AMPS KVA 0.80 LAG 132 E2LP-2C LOAD-132 480 72.0*1.00AMPS KVA 0.80 LAG 133 2143 ECB LOAD-133 480 36.0*1.00AMPS KVA 0.80 LAG 138 E3LP-GA LOAD-138 480 50.0*1.00AMPS KVA 0.80 LAG 140 E3LP-2B LOAD-0186 480 144.0*1.00AMPS KVA 0.80 LAG 141 CONTACTOR LOAD-0185 480 36.0*1.00AMPS KVA 0.80 LAG 151 RP-GA LOAD-151 208 160.0*1.00AMPS KVA 0.80 LAG 152 RP-1B LOAD-152 208 200.0*1.00AMPS KVA 0.80 LAG 153 RP-1A LOAD-153 208 240.0*1.00AMPS KVA 0.80 LAG 154 RP-GB LOAD-154 208 240.0*1.00AMPS KVA 0.80 LAG 155 RP-2B LOAD-155 208 240.0*1.00AMPS KVA 0.80 LAG 172 PPGM-A AC SHOP LOAD-172 208 104.0*1.00AMPS KVA 0.80 LAG 174 LP7A-1 LOAD-174 208 78.0*1.00AMPS KVA 0.80 LAG 176 LP8B LOAD-176 208 52.0*1.00AMPS KVA 0.80 LAG 178 LP7A LOAD-178 208 52.0*1.00AMPS KVA 0.80 LAG 179 LP7A1 LOAD-179 208 52.0*1.00AMPS KVA 0.80 LAG 181 LP8A LOAD-181 208 26.0*1.00AMPS KVA 0.80 LAG 182 PNL A LOAD-182 208 58.5*1.00AMPS KVA 0.80 LAG 183 LP6B LOAD-183 208 52.0*1.00AMPS KVA 0.80 LAG 184 LP6B2 LOAD-184 208 8.0*1.00AMPS KVA 0.80 LAG 186 LP5A-LH LOAD-186 208 23.0*1.00AMPS KVA 0.80 LAG 187 LP5A-RH LOAD-187 208 23.0*1.00AMPS KVA 0.80 LAG 188 LP5A2 LOAD-188 208 28.8*1.00AMPS KVA 0.80 LAG 190 LP6A-LH LOAD-190 208 52.0*1.00AMPS KVA 0.80 LAG 191 LP6A-RH LOAD-191 208 52.0*1.00AMPS KVA 0.80 LAG 193 PP RM1134 LOAD-193 208 91.0*1.00AMPS KVA 0.80 LAG 194 PPGL LOAD-194 208 18.0*1.00AMPS KVA 0.80 LAG 195 PP2K-B LOAD-195 208 58.5*1.00AMPS KVA 0.80 LAG 205A RP2G LOAD-205A 208 26.0*1.00AMPS KVA 0.80 LAG

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 ENERGY AUDIT LOADS -------------------------------------------------------------------------------------------------------------- BUS NAME LOAD NAME VOLTS SIZE LOADTYPE PF LAG/LEAD -------------------------------------------------------------------------------------------------------------- 205B 2H LOAD-205B 208 26.0*1.00AMPS KVA 0.80 LAG 205C 2J LOAD-205C 208 26.0*1.00AMPS KVA 0.80 LAG 205D RP2K LOAD-205D 208 26.0*1.00AMPS KVA 0.80 LAG 211 PPGB LOAD-211 208 26.0*1.00AMPS KVA 0.80 LAG 212 LPGA LOAD-212 208 52.0*1.00AMPS KVA 0.80 LAG 214 RP-1C-1 LOAD-214 208 87.0*1.00AMPS KVA 0.80 LAG 215 RP-1C-2 LOAD-215 208 87.0*1.00AMPS KVA 0.80 LAG 217 LP2A-LH LOAD-217 208 26.0*1.00AMPS KVA 0.80 LAG 218 LP2A-RH LOAD-218 208 26.0*1.00AMPS KVA 0.80 LAG 220 LP3A-LH LOAD-220 208 26.0*1.00AMPS KVA 0.80 LAG 221 LP3A-RH LOAD-221 208 26.0*1.00AMPS KVA 0.80 LAG 223 LP4A-1 LOAD-223 208 104.0*1.00AMPS KVA 0.80 LAG 224 LP4A-2 LOAD-224 208 104.0*1.00AMPS KVA 0.80 LAG 226 LP2B LOAD-226 208 52.0*1.00AMPS KVA 0.80 LAG 227 E2-4B LOAD-227 208 104.0*1.00AMPS KVA 0.80 LAG 248 LP3 LOAD-248 208 25.0*1.00AMPS KVA 0.80 LAG 250 LPGB LOAD-250 208 50.0*1.00AMPS KVA 0.80 LAG 251 LPGP LOAD-251 208 17.5*1.00AMPS KVA 0.80 LAG 252 LP-GP LOAD-225 208 17.5*1.00AMPS KVA 0.80 LAG 254 RP-1D-1 LOAD-254 208 76.5*1.00AMPS KVA 0.80 LAG 255 RP-1D-2 LOAD-255 208 76.5*1.00AMPS KVA 0.80 LAG 257 LP1B LOAD-257 208 50.0*1.00AMPS KVA 0.80 LAG 259 LP2A LOAD-259 208 25.0*1.00AMPS KVA 0.80 LAG 260 LP2D LOAD-260 208 50.0*1.00AMPS KVA 0.80 LAG 262 LP6C LOAD-262 208 25.0*1.00AMPS KVA 0.80 LAG 264 LP7C LOAD-264 208 25.0*1.00AMPS KVA 0.80 LAG 266 LP8C LOAD-266 208 50.0*1.00AMPS KVA 0.80 LAG 268 LP9C1 LOAD-268 208 31.3*1.00AMPS KVA 0.80 LAG 269 LP9C LOAD-269 208 25.0*1.00AMPS KVA 0.80 LAG 271 LPGC-B LOAD-271 208 25.0*1.00AMPS KVA 0.80 LAG 272 LPGC-C LOAD-272 208 25.0*1.00AMPS KVA 0.80 LAG 273 LPGC-A LOAD-273 208 25.0*1.00AMPS KVA 0.80 LAG 278 LP1C LOAD-278 208 25.0*1.00AMPS KVA 0.80 LAG 280 LP2C-A LOAD-280 208 25.0*1.00AMPS KVA 0.80 LAG 281 LP2C LOAD-281 208 25.0*1.00AMPS KVA 0.80 LAG 283 LP3C LOAD-283 208 50.0*1.00AMPS KVA 0.80 LAG 285 LP4C LOAD-285 208 25.0*1.00AMPS KVA 0.80 LAG 287 LP5C LOAD-287 208 25.0*1.00AMPS KVA 0.80 LAG 288 PPGM-B AC SHOP LOAD-288 208 100.0*1.00AMPS KVA 0.80 LAG 290 PPGN-C LOAD-290 208 50.0*1.00AMPS KVA 0.80 LAG 291 PPGN-B LOAD-291 208 50.0*1.00AMPS KVA 0.80 LAG 293 PPGN-A LOAD-293 208 50.0*1.00AMPS KVA 0.80 LAG 294 XRAY 2FL LOAD-294 208 100.0*1.00AMPS KVA 0.80 LAG

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 ENERGY AUDIT LOADS -------------------------------------------------------------------------------------------------------------- BUS NAME LOAD NAME VOLTS SIZE LOADTYPE PF LAG/LEAD -------------------------------------------------------------------------------------------------------------- 296 PNL C LOAD-296 208 25.0*1.00AMPS KVA 0.80 LAG 297 LP2L LOAD-297 208 12.5*1.00AMPS KVA 0.80 LAG 298 PP2K LOAD-298 208 25.0*1.00AMPS KVA 0.80 LAG 300 PP4K LOAD-300 208 25.0*1.00AMPS KVA 0.80 LAG 301 PP5K LOAD-301 208 25.0*1.00AMPS KVA 0.80 LAG 303 PP10N LOAD-303 208 25.0*1.00AMPS KVA 0.80 LAG 304 PP9M LOAD-304 208 25.0*1.00AMPS KVA 0.80 LAG 307 LP5B-LH LOAD-307 208 56.3*1.00AMPS KVA 0.80 LAG 308 LP5B-RH LOAD-308 208 56.3*1.00AMPS KVA 0.80 LAG 309 PPGK LOAD-309 208 25.0*1.00AMPS KVA 0.80 LAG 311 PP6K LOAD-311 208 22.0*1.00AMPS KVA 0.80 LAG 313 PP8K LOAD-313 208 22.0*1.00AMPS KVA 0.80 LAG 314 PP7K LOAD-314 208 30.0*1.00AMPS KVA 0.80 LAG 321 LPGE LOAD-321 480 80.0*1.00AMPS KVA 0.80 LAG 322 LP-8E LOAD-322 480 80.0*1.00AMPS KVA 0.80 LAG 323 HP-9M LOAD-323 480 120.0*1.00AMPS KVA 0.80 LAG 333 FOOD TRAY LOAD-333 208 94.0*1.00AMPS KVA 0.80 LAG 334 KPA LOAD-334 208 94.0*1.00AMPS KVA 0.80 LAG 335 KPD LOAD-335 208 141.0*1.00AMPS KVA 0.80 LAG 336 KLP LOAD-336 208 94.0*1.00AMPS KVA 0.80 LAG 337 UTIL DIST LOAD-337 208 94.0*1.00AMPS KVA 0.80 LAG 338 PP LOAD-338 208 126.0*1.00AMPS KVA 0.80 LAG 341 PANEL A LOAD-341 480 800.0*1.00AMPS KVA 0.80 LAG 419 PLGN LOAD-419 208 17.5*1.00AMPS KVA 0.80 LAG 420 PL5N LOAD-420 208 17.5*1.00AMPS KVA 0.80 LAG 421 PL1N LOAD-421 208 17.5*1.00AMPS KVA 0.80 LAG 422 PL6N LOAD-422 208 17.5*1.00AMPS KVA 0.80 LAG 423 PL2N LOAD-423 208 17.5*1.00AMPS KVA 0.80 LAG 424 PL7N LOAD-424 208 17.5*1.00AMPS KVA 0.80 LAG 425 PL3N LOAD-425 208 17.5*1.00AMPS KVA 0.80 LAG 426 PL8N LOAD-426 208 17.5*1.00AMPS KVA 0.80 LAG 427 PL4N LOAD-427 208 17.5*1.00AMPS KVA 0.80 LAG 428 EC3 LOAD-428 208 100.0*1.00AMPS KVA 0.80 LAG 429 E2-4W SEC#1 LOAD-429 208 44.0*1.00AMPS KVA 0.80 LAG 430 CB3W LOAD-430 208 50.0*1.00AMPS KVA 0.80 LAG 431 CBME LOAD-431 208 25.0*1.00AMPS KVA 0.80 LAG 433 LP9C LOAD-433 208 37.5*1.00AMPS KVA 0.80 LAG 436 LPGN-N LOAD-436 208 10.0*1.00AMPS KVA 0.80 LAG 437 LP1N-N LOAD-437 208 10.0*1.00AMPS KVA 0.80 LAG 438 LP2N-N LOAD-438 208 10.0*1.00AMPS KVA 0.80 LAG 439 LP3N-N LOAD-439 208 10.0*1.00AMPS KVA 0.80 LAG 440 LP4N-N LOAD-440 208 10.0*1.00AMPS KVA 0.80 LAG 441 LP5N-N LOAD-441 208 10.0*1.00AMPS KVA 0.80 LAG

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 ENERGY AUDIT LOADS -------------------------------------------------------------------------------------------------------------- BUS NAME LOAD NAME VOLTS SIZE LOADTYPE PF LAG/LEAD -------------------------------------------------------------------------------------------------------------- 442 LP6N-N LOAD-442 208 10.0*1.00AMPS KVA 0.80 LAG 443 LP7N-N LOAD-443 208 10.0*1.00AMPS KVA 0.80 LAG 444 LP8N-N LOAD-444 208 10.0*1.00AMPS KVA 0.80 LAG 446 EE3 LOAD-446 208 56.3*1.00AMPS KVA 0.80 LAG 452 EMG PANEL LOAD-452 208 27.0*1.00AMPS KVA 0.80 LAG 454 POWER PANEL LOAD-454 208 108.0*1.00AMPS KVA 0.80 LAG 456 LP-1 LOAD-456 208 81.0*1.00AMPS KVA 0.80 LAG 457 PNL A (LP-2) LOAD-457 208 81.0*1.00AMPS KVA 0.80 LAG 458 NEW EQ CTR LOAD-458 208 54.0*1.00AMPS KVA 0.80 LAG 459 PNL B (OL) LOAD-459 208 27.8*1.00AMPS KVA 0.80 LAG 462 CP1 LOAD-462 208 240.0*1.00AMPS KVA 0.80 LAG 505 LP1 LOAD-505 208 67.0*1.00AMPS KVA 0.80 LAG 511 EDPA LOAD-511 208 40.0*1.00AMPS KVA 0.80 LAG 512 LP1N-0 LOAD-512 208 16.8*1.00AMPS KVA 0.80 LAG 513 LPGN-0 LOAD-513 208 16.8*1.00AMPS KVA 0.80 LAG 514 LP2N-0 LOAD-514 208 16.8*1.00AMPS KVA 0.80 LAG 515 LP3N-0 LOAD-515 208 16.8*1.00AMPS KVA 0.80 LAG 516 LP4N-0 LOAD-516 208 9.3*1.00AMPS KVA 0.80 LAG 517 LP5N-0 LOAD-517 208 9.3*1.00AMPS KVA 0.80 LAG 518 LP6N-0 LOAD-518 208 9.3*1.00AMPS KVA 0.80 LAG 519 LP7N-0 LOAD-519 208 9.3*1.00AMPS KVA 0.80 LAG 520 LP8N-0 LOAD-520 208 9.3*1.00AMPS KVA 0.80 LAG 524 LP2 LOAD-534 208 33.5*1.00AMPS KVA 0.80 LAG 526 AOV LOAD-526 208 167.0*1.00AMPS KVA 0.80 LAG 528 KP LOAD-528 208 100.0*1.00AMPS KVA 0.80 LAG 530 LP5-N1 "HEMO" LOAD-530 208 67.0*1.00AMPS KVA 0.80 LAG 603 PNL A LOAD-603 208 157.0*1.00AMPS KVA 0.80 LAG 604 PNL B LOAD-604 208 157.0*1.00AMPS KVA 0.80 LAG 605 PNL C LOAD-605 208 157.0*1.00AMPS KVA 0.80 LAG 606 RPB LOAD-606 208 104.0*1.00AMPS KVA 0.80 LAG 607 RPA LOAD-607 208 104.0*1.00AMPS KVA 0.80 LAG 609 21-LP LOAD-609 208 35.0*1.00AMPS KVA 0.80 LAG 610 UNLABELED PNL LOAD-610 208 35.0*1.00AMPS KVA 0.80 LAG 616 AE LOAD-616 208 50.0*1.00AMPS KVA 0.80 LAG 617A PNL AE1 LOAD-617A 208 20.0*1.00AMPS KVA 0.80 LAG 618 BE LOAD-618 208 70.0*1.00AMPS KVA 0.80 LAG 619 CE LOAD-619 208 70.0*1.00AMPS KVA 0.80 LAG 621 EM LOAD-621 208 70.0*1.00AMPS KVA 0.80 LAG 704 PNL C LOAD-704 208 47.5*1.00AMPS KVA 0.80 LAG 705 PNL B LOAD-705 208 47.5*1.00AMPS KVA 0.80 LAG 706 PNL IN HALL LOAD-706 208 42.8*1.00AMPS KVA 0.80 LAG 707 BLDG 2 LOAD-707 208 47.5*1.00AMPS KVA 0.80 LAG 708 RP3 LOAD-708 208 106.8*1.00AMPS KVA 0.80 LAG

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 ENERGY AUDIT LOADS -------------------------------------------------------------------------------------------------------------- BUS NAME LOAD NAME VOLTS SIZE LOADTYPE PF LAG/LEAD -------------------------------------------------------------------------------------------------------------- 709 RP4 LOAD-709 208 106.8*1.00AMPS KVA 0.80 LAG 806 2LP LOAD-806 208 49.0*1.00AMPS KVA 0.80 LAG 807 LP1 (ILD) LOAD-807 208 49.0*1.00AMPS KVA 0.80 LAG 809 PNL A LOAD-809 208 79.0*1.00AMPS KVA 0.80 LAG 811 RM 213 LOAD-811 208 79.0*1.00AMPS KVA 0.80 LAG 813 BLDG 10 GARAGE LOAD-813 208 177.0*1.00AMPS KVA 0.80 LAG 817 PNL K LOAD-817 208 79.0*1.00AMPS KVA 0.80 LAG 818 PNL M LOAD-818 208 79.0*1.00AMPS KVA 0.80 LAG 820 PNL D LOAD-820 208 79.0*1.00AMPS KVA 0.80 LAG 822 PNL E LOAD-822 208 79.0*1.00AMPS KVA 0.80 LAG 823 PNL F LOAD-823 208 79.0*1.00AMPS KVA 0.80 LAG 825 PNL I LOAD-825 208 79.0*1.00AMPS KVA 0.80 LAG 826 PNL J LOAD-826 208 79.0*1.00AMPS KVA 0.80 LAG 828 PNL G LOAD-0206 208 79.0*1.00AMPS KVA 0.80 LAG 829 PNL H LOAD-0207 208 79.0*1.00AMPS KVA 0.80 LAG 837 KENNEL (K-EP BLDG 10) LOAD-837 208 54.0*1.00AMPS KVA 0.80 LAG 839 GEN RM PNL LOAD-839 208 54.0*1.00AMPS KVA 0.80 LAG 842 RP1 LOAD-842 208 81.0*1.00AMPS KVA 0.80 LAG 843 RDU LOAD-843 208 189.0*1.00AMPS KVA 0.80 LAG 844 CRAC 2-1 LOAD-844 208 48.6*1.00AMPS KVA 0.80 LAG 845 CRAC 2-2 LOAD-845 208 48.6*1.00AMPS KVA 0.80 LAG 846 CRAC 2-3 LOAD-846 208 48.6*1.00AMPS KVA 0.80 LAG 904 BLDG 6 ECB LOAD-904 480 120.0*1.00AMPS KVA 0.80 LAG 905 LOADING DOCK ECB LOAD-905 480 24.0*1.00AMPS KVA 0.80 LAG 906 WAREHOUSE ECB LOAD-906 480 120.0*1.00AMPS KVA 0.80 LAG 914 ELE LOAD-914 480 10.0*1.00AMPS KVA 0.80 LAG 917 PANEL PP02 LOAD-917 208 47.6*1.00AMPS KVA 0.80 LAG 918 PNL M LOAD-918 208 68.0*1.00AMPS KVA 0.80 LAG 919 PNL K LOAD-919 208 47.6*1.00AMPS KVA 0.80 LAG 920 PNL J LOAD-920 208 34.0*1.00AMPS KVA 0.80 LAG 921 GARAGE PANEL LOAD-921 208 47.6*1.00AMPS KVA 0.80 LAG 923 NEW OFFICE PANEL (Panel A) LOAD-923 208 153.0*1.00AMPS KVA 0.80 LAG

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 ÚÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄ¿ ³ P A S S I V E F I L T E R D A T A ³ ÆÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÑÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÑÍÍÍÍÍÍÍÍÍÑÍÍÍÍÍÍÍÍÍÑÍÍÍÍÍÍÍÑÍÍÍÍÍÍÍÍÍÍÍÑÍÍÍÍÍÍÍÍÍÑÍÍÍÍÍÑÍÍÍÑÍÍÍËÍÍÍÍÍÍÍÍÑÍÍÍÍÍÍÍÍÑÍÍÍÍÍÍÍÍµ ³ Filter ³ Bus ³ Bus ³ Rated ³Connect³ Filter ³Capacitor³Tuned³ ³ º R ³ L ³ C ³ ³ Name ³ Name ³ Voltage ³ Voltage ³ ³ Type ³ KVAR ³Order³ Q ³ M º (ê) ³ (H) ³ (æF) ³ ÃÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÅÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÅÄÄÄÄÄÄÄÄÄÅÄÄÄÄÄÄÄÄÄÅÄÄÄÄÄÄÄÅÄÄÄÄÄÄÄÄÄÄÄÅÄÄÄÄÄÄÄÄÄÅÄÄÄÄÄÅÄÄÄÅÄÄÄ×ÄÄÄÄÄÄÄÄÅÄÄÄÄÄÄÄÄÅÄÄÄÄÄÄÄÄ´ ÃÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÅÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÅÄÄÄÄÄÄÄÄÄÅÄÄÄÄÄÄÄÄÄÅÄÄÄÄÄÄÄÅÄÄÄÄÄÄÄÄÄÄÄÅÄÄÄÄÄÄÄÄÄÅÄÄÄÄÄÅÄÄÄÅÄÄÄ×ÄÄÄÄÄÄÄÄÅÄÄÄÄÄÄÄÄÅÄÄÄÄÄÄÄÄ´ ³CAPACITOR B ³305 CAPACITOR B ³ 208³ 208³ WYE_G³ Capacitor³ 100.0³ ³ ³ º 0.0000³ 0.0000³6131.200³ ³ ³ ³ ³ ³ ³ ³ ³ ³ ³ º 0.0000³ 0.0000³6131.200³ ³CAPACITOR A ³228 CAPACITOR A ³ 208³ 208³ WYE_G³ Capacitor³ 100.0³ ³ ³ º 0.0000³ 0.0000³6131.200³ ³ ³ ³ ³ ³ ³ ³ ³ ³ ³ º 0.0000³ 0.0000³6131.200³ ³CAP 3 ³324 MCC IN AC ROOM ³ 480³ 480³ WYE_G³ Capacitor³ 3.0³ ³ ³ º 0.0000³ 0.0000³ 34.5388³ ³ ³ ³ ³ ³ ³ ³ ³ ³ ³ º 0.0000³ 0.0000³ 34.5388³ ³CAP 2 ³324 MCC IN AC ROOM ³ 480³ 480³ WYE_G³ Capacitor³ 3.0³ ³ ³ º 0.0000³ 0.0000³ 34.5388³ ³ ³ ³ ³ ³ ³ ³ ³ ³ ³ º 0.0000³ 0.0000³ 34.5388³ ³CAP 1 ³324 MCC IN AC ROOM ³ 480³ 480³ WYE³ Capacitor³ 3.0³ ³ ³ º 0.0000³ 0.0000³ 34.5388³ ³ ³ ³ ³ ³ ³ ³ ³ ³ ³ º 0.0000³ 0.0000³ 34.5388³ ÀÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÁÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÄÁÄÄÄÄÄÄÄÄÄÁÄÄÄÄÄÄÄÄÄÁÄÄÄÄÄÄÄÁÄÄÄÄÄÄÄÄÄÄÄÁÄÄÄÄÄÄÄÄÄÁÄÄÄÄÄÁÄÄÄÁÄÄÄÐÄÄÄÄÄÄÄÄÁÄÄÄÄÄÄÄÄÁÄÄÄÄÄÄÄÄÙ

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VA MEDICAL CENTER WILMINGTON, DE 100% STUDY 10/24/08 MOTOR LOAD DATA --------------------------------------------------------------------------------------------------------- BUS NAME LOAD NAME VOLT SIZE # TYPE EFF PF --------------------------------------------------------------------------------------------------------- 111 MCC-GB MCC-GB 480 7.0* 13 HP KVA 0.93 0.80 LAG 111A 1-SF10 480 50.0* 1 HP KVA 0.93 0.80 LAG 111B 1-SF9 480 25.0* 1 HP KVA 0.93 0.80 LAG 112 MCC-2B MCC-2B 480 4.0* 3 HP KVA 0.93 0.80 LAG 136 OR CHILLER OR CHILLER 460 5.0* 6 HP KVA 0.93 0.80 LAG 139 EMCC-GB MTRI-0003 480 2.5* 12 HP KVA 0.93 0.80 LAG 161 CHILLER #1 CHILLER #1 460 18.0* 3 HP KVA 0.93 0.80 LAG 162 CHILLER #2 CHILLER #2 460 18.0* 3 HP KVA 0.93 0.80 LAG 231 ELE#1 ELE #1 208 50.0* 1 HP KVA 0.93 0.80 LAG 235 ELE#2 ELE #2 208 50.0* 1 HP KVA 0.93 0.80 LAG 238 ELE#3 ELE #3 208 50.0* 1 HP KVA 0.93 0.80 LAG 324 MCC IN AC ROOM AC MCC 460 40.0* 26 HP KVA 0.93 0.80 LAG 455 400A DISCONNECT BLDG #13 CHILLER 208 75.0* 1 HP KVA 0.93 0.80 LAG 601 BLDG 17 MN ACRU1 208 100.0* 1 HP KVA 0.93 0.80 LAG 812A CHILLER CHILLER 208 48.0* 1 HP KVA 0.93 0.80 LAG 912 MCC BLDG 7 MCC MTR 480 13.0* 17 HP KVA 0.93 0.80 LAG BUS-0531 WATER PUMP #3 480 30.0* 1 HP KVA 0.93 0.80 LAG BUS-0553 CENT REFRIG 208 40.0* 1 HP KVA 0.80 0.80 LAG

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APPENDIX E: REFERENCES I. UTILITY COMPANY INFORMATION 1 Fault Current at Service Point

2 Upstream Overcurrent Device Information II. SQUARE D ENGINEERING SERVICES

1 Table 130.2(c) - 70E

2 Table 130.7(c)(10) - 70E

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Russell A. Ehrlich New Castle Regional Office Power Quality 401 Eagle Run Road Phone: (302) 283-6097 P.O. Box 9239, Mail Stop 79NC82 Fax: (302) 283-6090 Newark, DE 19714 [email protected] November 19, 2008 Calib Burk, Square D Engineering Services 21680 Gateway Center Dr, Suite 300 Diamond Bar, CA 91765 [email protected] RE: VA Medical Center

1601 Kirkwood Hwy. Wilmington, DE 19805

Calib, This letter is a follow up regarding the data requested for the VA Medical Center. I have incorporated the two (2) e-mails sent with the associated values. Please feel free to contact me should you have additional questions. Sincerely,

Russ Ehrlich Delmarva Power CC: Monica Lake, Delmarva Power

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Russell A. Ehrlich New Castle Regional Office Power Quality 401 Eagle Run Road Phone: (302) 283-6097 P.O. Box 9239, Mail Stop 79NC82 Fax: (302) 283-6090 Newark, DE 19714 [email protected] [email protected]

10/10/2008 05:19 AM

To [email protected] cc

Subject Re: Wilmington VA Fault Values

Calib, We have a recloser on both feeds serving this site (137-25 and 141-43). The settings we have on record for these devices are (both set the same): Phase - 240amp pickup, U4 curve, 6.0 time dial Ground - 120amp pickup, U4 curve, 8.0 time dial Both use SEL-351R recloser controls. Hope this is what you needed. Sincerely, Russ Ehrlich Pepco Holdings Inc 302 283 6097 (Office) 302 283 6090 (Fax) 302 547 6843 (Cell) [email protected]

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Russell A. Ehrlich New Castle Regional Office Power Quality 401 Eagle Run Road Phone: (302) 283-6097 P.O. Box 9239, Mail Stop 79NC82 Fax: (302) 283-6090 Newark, DE 19714 [email protected] [email protected]

10/09/2008 10:11 AM

To [email protected] cc

Subject Re: Wilmington VA Fault Values

Here are the values we provided to another consultant last month. Russ Ehrlich Pepco Holdings Inc 302 283 6097 (Office) 302 283 6090 (Fax) 302 547 6843 (Cell) [email protected] Via Circuit #137: Three Phase Fault 3337 amps Phase to Ground Fault 2082 amps X/R ratio 2.60 Via Circuit #141: Three Phase Fault 4376 amps Phase to Ground Fault 2900 amps X/R ratio 3.43

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FROM NFPA 70E – 2004 EDITION

Table 130.2(C) Approach Boundaries to live Parts for Shock Protection. (All dimensions are distance from live part to employee.)

(1) (2) (3) (4) (5) Limited Approach Boundry1 Restricted Approach Boundary1; Includes Nominal System Voltage Exposed Movable Exposed Fixed Inadvertent Movement Prohibited Approach Range, Phase to Phase Conductor Circuit Part Adder Boundary 1

Less than 50 Not specified Not specified Not specified Not specified 50 to 300 3.05 m (10 ft 0 in.) 1.07 m (3 ft 6 in.) Avoid contact Avoid contact 301 to 750 3.05 m (10 ft 0 in.) 1.07 m (3 ft 6 in.) 304.8 mm (1 ft 0 in.) 25.4 mm (0 ft 1 in.) 751 to 15 kV 3.05 m (10 ft 0 in.) 1.53 m (5 ft 0 in.) 660.4 mm (2 ft 2 in.) 177.8 mm (0 ft 7 in.) 15.1 kV to 36 kV 3.05 m (10 ft 0 in.) 1.83 m (6 ft 0 in.) 787.4 mm (2 ft 7 in.) 254 mm (0 ft 10 in.) 36.1 kV to 46 kV 3.05 m (10 ft 0 in.) 2.44 m (8 ft 0 in.) 838.2 mm (2 ft 9 in.) 431.8 mm (1 ft 5 in.) 46.1 kV to 72.5 kV 3.05 m (10 ft 0 in.) 2.44 m (8 ft 0 in.) 965.2 mm (3 ft 2 in.) 635 mm (2 ft 1 in.) 72.6 kV to 121 kV 3.25 m (10 ft 8 in.) 2.44 m (8 ft 0 in.) 991 mm (3 ft 3 in.) 812.8 mm (2 ft 8 in.) 138 kV to 145 kV 3.36 m (11 ft 0 in.) 3.05 m (10 ft 0 in.) 1.093 m (3 ft 7 in.) 939.8 mm (3 ft 1 in.) 161 kV to 169 kV 3.56 m (11 ft 8 in.) 3.56 m (11 ft 8 in.) 1.22 m (4 ft 0 in.) 1.07 m (3 ft 6 in.) 230 kV to 242 kV 3.97 m (13 ft 0 in.) 3.97 m (13 ft 0 in.) 1.6 m (5 ft 3 in.) 1.45 m (4 ft 9 in.) 345 kV to 362 kV 4.68 m (15 ft 4 in.) 4.68 m (15 ft 4 in.) 2.59 m (8 ft 6 in.) 2.44 m (8 ft 0 in.) 500 kV to 550 kV 5.8 m (19 ft 0 in.) 5.8 m (19 ft 0 in.) 3.43 m (11 ft 3 in.) 3.28 m (10 ft 9 in.) 765 kV to 800 kV 7.24 m (23 ft 9 in.) 7.24 m (23 ft 9 in.) 4.55 m (14 ft 11 in.) 4.4 m (14 ft 5 in.)

Note: For Flash Protection Boundary, see 130.3(A). 1See definition in Article 100 and text in 130.2(D)(2) and Annex C for elaboration.

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FROM NFPA 70E – 2004 EDITION

Table 130.7(C)(10) Protective Clothing and Personal Protective Equipment (PPE) Matrix

Protective Clothing and Equipment Protective Systems for Hazard/Risk Category

Hazard/Risk Category Number -1 0 1 2 3 4 (Note 3)

Non–melting (according to ASTM F 1506-00) or Untreated Natural

Fiber a. T-shirt (short sleeve) X X X X b. Shirt (long-sleeve) X

c. Pants (long) X X X X X X (Note 4) (Note 6)

FR Clothing (Note 1) a. Long-sleeve shirt X X X X

(Note 9) b. Pants X X X X

(Note 4) (Note 6) (Note 9) c. Coverall (Note 5) (Note 7) X (Note 5)

(Note 9) d. Jacket, parka, or rainwear AN AN AN AN

FR Protective Equipment

a. Flash suit jacket (multilayer) X b. Flash suit pants (multilayer) X

c. Head protection 1. Hard hat X X X X

2. FR hard hat liner AR AR d. Eye protection ˙˙ ˙˙ ˙˙ ˙˙ ˙˙ 1. Safety glasses X X X AL AL AL 2. Safety goggles AL AL AL

e. Face and head area protection ˙˙ ˙˙ ˙˙ ˙˙ ˙˙ 1. Arc-rated face shield, or flash suit X

hood (Note 8) 2. Flash suit hood X X

3. Hearing protection (ear canal X X X inserts) (Note 8)

f. Hand protection ˙˙ ˙˙ ˙˙ ˙˙ Leather gloves (Note 2) AN X X X

g. Foot protection Leather work shoes AN X X X

AN = As needed AL = Select one in group AR = As required X = Minimum required Notes: 1. See Table 130.7(C) (11). Arc rating for a garment is expressed in cal/cm2. 2. If voltage-rated gloves are required, the leather protectors worn external to the rubber gloves satisfy this requirement. 3. Hazard/Risk Category Number “-1” is only defined if determined by Notes 3 or 6 of Table 130.7(C)(9)(a). 4. Regular weight (minimum 12 oz/yd2 fabric weight), untreated, denim cotton blue jeans are acceptable in lieu of FR pants. The FR pants used for Hazard/Risk Category 1 shall have a minimum arc rating of 4. 5. Alternate is to use FR coveralls (minimum arc rating of 4) instead of FR shirt and FR pants. 6. If the FR pants have a minimum arc rating of 8, long pants of non-melting or untreated natural fiber are

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not required beneath the FR pants. 7. Alternate is to use FR coveralls (minimum arc rating of 4) over non-melting or untreated natural fiber pants and T-shirt. 8. A faceshield with a minimum arc rating of 8, with wrap-around guarding to protect not only the face, but also the forehead, ears, and neck (or, alternatively, a flash suit hood), is required. 9. Alternate is to use two sets of FR coveralls (the inner with a minimum arc rating of 4 and outer coverall with a minimum arc rating of 5) over non-melting or untreated natural fiber clothing, instead of FR coveralls over FR shirt and FR pants over non-melting or untreated natural fiber clothing.

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APPENDIX F: SYSTEM STUDY ONE-LINE DIAGRAMS

Eight (8) Drawings

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