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HIGH PERFORMANCE SOLAR PANELS

rec Peak energy SERIESREC Peak Energy Series panels are the perfect choice for building solar systems that combine long lasting product quality with reliable power output.REC combines leading standards of design and manufacturing to produce high-performance solar panels with uncompromising quality.

Robust and duRable design

moRe poweR peR m2

optimized foR all sunlight conditions

100% pid fRee

Ref:

NE-

05-0

5-01

-V. 0

3.16

www.recgroup.com

GR

GR

GR

GR

3895

0

28

1665±2,5

900 382,5

991±

2,5

17

45

11±0,2 6,6±

0,2

20,5±0

,5

CERTIFICATE BBA 0044

MCS

take-e-way WEEE Compliant Recycling scheme

REC PEak EnERgy SERIES

geneRal data

tempeRatuRe Ratings

note! Specifications subject to change without notice.

electRical data @ stc Rec240pe Rec245pe Rec250pe Rec255pe Rec260pe Rec265pe

Nominal Power - PMPP (Wp) 240 245 250 255 260 265

Watt Class Sorting - (W) 0/+5 0/+5 0/+5 0/+5 0/+5 0/+5

Nominal Power Voltage - VMPP (V) 29.7 30.1 30.2 30.5 30.7 30.9

Nominal Power Current - IMPP (A) 8.17 8.23 8.30 8.42 8.50 8.58

Open Circuit Voltage - VOC (V) 36.8 37.1 37.4 37.6 37.8 38.1

Short Circuit Current - ISC (A) 8.75 8.80 8.86 8.95 9.01 9.08

Panel Efficiency (%) 14.5 14.8 15.2 15.5 15.8 16.1

maXimum Ratings

ceRtifications mechanical datawaRRanty

Dimensions: 1665 x 991 x 38 mm

Area: 1.65 m²

Weight: 18 kg

Nominal operating cell temperature (NOCT) 45.7°C (±2°C)

Temperature coefficient of PMPP -0.40 %/°C

Temperature coefficient of VOC -0.27 %/°C

Temperature coefficient of ISC 0.024 %/°C

Celebrating its 20th anniversary in 2016, REC is a leading European brand of solar panels. Through integrated manufacturing from polysilicon to wafers, cells, panels and turnkey solar solutions, REC strives to help meet the world’s growing energy needs. Founded in 1996, REC is a Bluestar Elkem company with headquarters in Norway and operational headquarters in Singapore. REC concluded 2015 with 2000 employees worldwide, 1.3 GW solar panel production capacity, and annual revenues of USD 755 million.

Values at standard test conditions STC (airmass AM 1.5, irradiance 1000 W/m², cell temperature 25°C). At low irradiance of 200 W/m² (AM 1.5 and cell temperature 25°C) at least 95.5% of the STC module efficiency will be achieved.

Nominal operating cell temperature NOCT (800 W/m², AM 1.5, windspeed 1 m/s, ambient temperature 20°C).

16.1%

10

25

EffICIEnCy

yEaR PRoduCt waRRanty

yEaR LInEaR PowER outPut waRRanty

Mounting holes

IEC 61215, IEC 61730 & UL 1703; MCS, IEC 62716 (Ammonia Resistance) IEC 61701 (Salt Mist - severity level 6), IEC 60068-2-68 (Blowing Sand)

Operational temperature: -40 ... +85°C

Maximum system voltage: 1000 V

Maximum snow load: 550 kg/m² (5400 Pa)

Maximum wind load: 244 kg/m² (2400 Pa)

Max series fuse rating: 25 A

Max reverse current: 25 A

Cell type: 60 multi-crystalline 3 strings of 20 cells with bypass diodes

Glass: 3.2 mm solar glass with anti-reflection surface treatment

Back sheet: Double layer highly resistant polyesterFrame: Anodized aluminum (silver)Junction box: IP67 rated 4 mm² solar cable, 0.9 m + 1.2 mConnectors: Multi-Contact MC4 (4 mm²)

electRical data @ noct Rec240pe Rec245pe Rec250pe Rec255pe Rec260pe Rec265pe

Nominal Power - PMPP (Wp) 177 181 183 187 190 193

Nominal Power Voltage - VMPP (V) 27.3 27.7 27.8 28.0 28.2 28.4

Nominal Power Current - IMPP (A) 6.48 6.52 6.58 6.68 6.74 6.80

Open Circuit Voltage - VOC (V) 34.1 34.4 34.7 34.8 35.0 35.3

Short Circuit Current - ISC (A) 7.02 7.06 7.11 7.18 7.23 7.29

Measurements in mm.

10 year product warranty25 year linear power output warranty (max. degression in performance of 0.7% p.a.) See warranty conditions for further details.

EN

Data Sheet

4.2 | 5.5 | 7.0 | 8.3 | 10.1

PIKO-Inverter

06 / 2013

3

Table of content

5 Overview technical data

Inverter three-phase6 Inverter PIKO 4.2 6 Inverter PIKO 5.57 Inverter PIKO 7.07 Inverter PIKO 8.3 7 Inverter PIKO 10.1

8 Country intercompatibility of PIKO-Inverters

8 Standards and guidelines for PIKO-Inverters

9 Country-specific switch-off limits

10 Terms

06/2013 edition, subject to technical changes and printing errors. Current information can be found at www.kostal-solar-electric.com

4

5

Overview Technical Data

PIKO 4.2 PIKO 5.5 PIKO 7.0 1 PIKO 8.3 1 PIKO 10.1 1

Input side (DC)

Number of DC inputs / of MPP trackers 2 / 2 3 / 3 2 / 2 2 / 2 3 / 3

Max. recommended DC power 5 -10 % above rated AC output2

Max. DC input voltage (open circuit voltage)

950 V

Min. DC input voltage 180 V

Max. DC input current 9 A / 13 A3 9 A 12,5 A / 25 A3

Max. DC input current with parallel connection

13 A – 25 A

Output side (AC)

Number of feed-in phases 3

AC grid voltage 3/N/PE, AC, 230 /400 V

Max. AC output current 6,1 A 8 A 10,2 A 12 A 14,5 A

Short-circuit current 10,2 A 21 A

Rated AC output (cosφ = 1)

4.200 W (UK: 4.000 W, PT1: 3.680 W, PT2: 3.450 W)

5.500 W (ES: 5.000 W, PT: 5.000 W)

7.000 W 8.300 W 10.000 W

Max. AC apparent power (cosφ, adj)

4.200 VA 5.500 VA 7.000 VA 8.300 VA 10.000 VA

Max. efficiency 96,5 % 96,2 % 97,0 % 97,0 % 97,0 %

European-standard efficiency 95,4 % 95,7 % 96,3 % 96,3 % 96,4 %

Rated frequency 50 Hz

Self-consumption at night Inverter < 1 W, Communicationboard < 1,7 W

Protection class I

Overvoltage category DC: II / AC: III

Galvanic isolation Transformerless

Setting range of the power factor cosφAC,r 0,9 capacitive ... 1 ... 0,9 inductive

Type of grid monitoring According to the countries‘ certificates

Reverse polarity protection Short circuit diode at DC side

Personal protection RCCB Type B 30mA

Operational conditions, ingress protection according to IEC 60529

interior + exterior, IP 55

Ambient temperature -20° ... 60° C

Max. humidity 0 ... 95 %

Type of cooling Regulated ventilation

Communications interfacesEthernet RJ45 (2 x with Communicationboard 2, incl. integrated switch),

RS485, S0, 4 x analogue inputs

Max. sound < 33 dB(A)Ventilator 25% -> 33 dB(A) Ventilator 50% -> 41 dB(A)

Ventilator 75 ... 100% -> 46 dB(A)

Connection technology at input side MC 4

Connection technology at output side Spring-loaded terminal strip

Dimensions (W x D x H) 420 x 211 x 350 mm 520 x 230 x 450 mm

Weight 20,5 kg 21,1 kg 33 kg 33 kg 34 kg

Disconnection device Integrated electronic circuit breaker

Warranty 5 years (optional 10 / 20 years)1 This inverter is available in two versions: with or without arc detection2 depending on ambient temperature and solar radiation3 with parallel connection of two MPP trackers

97

96

95

94

93

92

91

90

89

88

87

86

0% 20% 40% 60% 80% 100%

96,5 % MAX

%

Pac

Pac,r

97

96

95

94

93

92

91

90

89

88

87

86

0% 20% 40% 60% 80% 100%

96,2% MAX

%

Pac

Pac,r

6

Efficiency rate characteristic curves PIKO 4.2 Efficiency rate characteristic curves PIKO 5.5

Technical Data

PIKO 4.2 PIKO 5.5

Input side (DC)

Number of DC inputs / number of MPP trackers 2 / 2 3 / 3

Max. input voltage (open circuit voltage) UDCmax 950 V 950 V

Min. DC input voltage UDCmin 180 V 180 V

Start-up DC input voltage UDCstart 180 V 180 V

Rated DC input voltage UDC,r 680 V 680 V

Max. MPP voltage UMPPmax 850 V 850V

Min. MPP voltage in single-tracker operation UMPPmin 500 V 660 V

Min. MPP voltage in two-tracker or parallel operation UMPPmin 360 V 360 V

Max. DC input current IDCmax 9 A 9 A

Rated DC input current IDC,r 8 A 8 A

Max. DC input current with parallel connection IDCmax,p 13 A –

Output side (AC)

Number of feed-in phases 3 3

AC grid voltage UAC,r 3/N/PE, AC, 230 V / 400 V

Max. AC output current IACmax 6,1 A 8 A

Short-circuit current Isc 10,2 A 10,2 A

Rated AC output (cosφ = 1) PAC,r

4.200 W (UK: 4.000 W, PT1: 3.680 W, PT2: 3.450 W)

5.500 W(ES: 5.000 W,PT: 5.000 W)

Max. AC apparent power (cosφ, adj) SAC 4.200 VA 5.500 VA

Power factor cosφACr 0,9 capacitive ... 1 ... 0,9 inductive

Max. efficiency ηmax 96,5 % 96,2 %

European-standard efficiency ηEU 95,4 % 95,7 %

Rated frequency ƒr50 Hz 50 Hz

Inverter PIKO 4.2 | 5.5

� Three-phase feed-in � Transformerless topology � Extension of the input current range possible (PIKO 4.2) � Three independent MPP trackers (PIKO 5.5) � Integrated circuit contact for self-consumption control � Integrated electronic DC circuit breaker � Integrated data logger and web server for system monitoring � Various communication interfaces included as standard:

Ethernet, RS485, S0, 4 x analogue inputs � Graphic display with 3-button control

UDC,r = 680 V, single string

UMPPmax = 850 V, single string

UMPPmin = 360 V, 2 parallel strings

UDC,r = 680 V, single string

UMPPmax = 850 V, single string

UMPPmin = 360 V, 2 strings

0% 20% 40% 60% 80% 100%0% 20% 40% 60% 80% 100%

% %

Pac

Pac,r

Pac

Pac,r

97 % MAX97 % MAX 97

96

95

94

93

92

91

90

89

88

87

86

0% 20% 40% 60% 80% 100%

%

Pac

Pac,r

97

96

95

94

93

92

91

90

89

88

87

86

97

96

95

94

93

92

91

90

89

88

87

86

97 % MAX

7

Efficiency rate characteristic curves PIKO 7.0

Efficiency rate characteristic curves PIKO 8.3

Efficiency rate characteristic curves PIKO 10.1

Technical Data

PIKO 7.0 PIKO 8.3 PIKO 10.1

Input side (DC)

Number of DC inputs / number of MPP trackers 2 / 2 2 / 2 3 / 3

Max. input voltage (open circuit voltage) UDCmax 950 V 950 V 950 V

Min. DC input voltage UDCmin 180 V 180 V 180 V

Start-up DC input voltage UDCstart 180 V 180 V 180 V

Rated DC input voltage UDC,r 680 V 680 V 680 V

Max. MPP voltage UMPPmax 850 V 850 V 850 V

Min. MPP voltage in single-tracker operation UMPPmin not recommended

Min. MPP voltage in two-tracker or parallel operation UMPPmin 400 V 400 V 420 V

Max. DC input current IDCmax 12,5 A 12,5 A 12,5 A

Rated DC input current IDC,r 11,5 A 11,5 A 11,5 A

Max. DC input current with parallel connection IDCmax,p 25 A 25 A 25 A

Output side (AC)

Number of feed-in phases 3 3 3

AC grid voltage UAC,r 3/N/PE, AC, 230 V / 400 V

Max. AC output current IAcmax 10,2 A 12 A 14,5 A

Short-circuit current Isc 21 A 21 A 21 A

Rated AC output (cosφ = 1) PAC,r 7.000 W 8.300 W 10.000 W

Max. AC apparent power (cosφ, adj) SAC 7.000 VA 8.300 VA 10.000 VA

Power factor cosφACr 0,9 capacitive ... 1 ... 0,9 inductive

Max. efficiency ηmax 97,0 % 97,0 % 97,0 %

European-standard efficiency ηEU 96,3 % 96,3 % 96,4 %

Rated frequency ƒr50 Hz 50 Hz 50 Hz

Inverter PIKO 7.0 | 8.3 | 10.1

� Three-phase feed-in; Transformerless topology � Extension of the input current range possible � With or without arc detection � Three independent MPP trackers (PIKO 10.1) � Integrated circuit contact for self-consumption control � Integrated electronic DC circuit breaker � Integrated data logger and web server for system monitoring � Various communication interfaces included as standard:

Ethernet, RS485, S0, 4 x analogue inputs � Graphic display with 3-button control

UDC,r = 680 V, 2 strings

UMPPmax = 850 V, single string

UMPPmin = 400 V, 2 parallel strings

UDC,r = 680 V, 2 strings

UMPPmax = 850 V, single string

UMPPmin = 420 V, 2 parallel strings

UDC,r = 680 V, 2 strings

UMPPmax = 850 V, single string

UMPPmin = 400 V, 2 parallel strings

8

Country intercompatibility of PIKO-Inverters

PIKO 4.2 PIKO 5.5 PIKO 7.0 PIKO 8.3 PIKO 10.1

name plate: Par/PIB ≥

DE1 Germany 03.04 01.03 – 03.00 01.00

DE NSR Germany P(f)2 and cosφ(P) 3 03.18 01.19 10.0 03.15 01.16

DE MSR Germany incl. LVRT4 – – 10.0 03.13 01.12

AT Austria 03.13 01.14 10.0 03.07 01.06

CH Switzerland 03.04 01.03 10.0 03.00 01.00

FR France 03.04 01.03 10.0 03.00 01.00

LU Luxembourg 03.04 01.03 10.0 03.00 01.00

BE Belgium 03.23 01.24 10.03 03.25 01.26

NL Netherlands 03.04 01.03 10.0 03.00 01.00

IT Italy5 03.23 01.24 10.03 03.25 01.26

ES Spain 03.04 01.03 10.0 03.00 01.00

PT Portugal 03.04 01.03 10.0 03.00 01.00

GR Greece (mainland) 03.04 01.03 10.0 03.00 01.00

GR, CY Greece (islands), Cyprus (EU) 03.04 01.03 10.0 03.00 01.00

CZ Czech Republic 03.04 01.03 10.0 03.00 01.00

SI Slovenia 03.15 01.16 10.0 03.11 01.10

BA, BG, HR, ME, RO, RS, SK, TR

Bosnia and Herzegovina, Bulgaria, Croatia, Montenegro, Romania, Serbia, Slovakia, Turkey

03.15 01.16 10.0 03.11 01.10

UK, MT United Kingdom, Malta 03.18 01.19 – – –

DK Denmark 03.23 01.24 10.03 03.25 01.26

SE Sweden 03.18 01.19 10.0 03.15 01.16

EE, LV, LT, PL

Estonia, Latvia, Lithuania, Poland

03.18 01.19 10.0 03.15 01.16

1 Only permitted for inverters that are installed in PV systems that have been connected to the mains grid prior to 31 December 2011. 2 P(f) = Frequency-dependent active power reduction 3 cosφ (P) = reactive power control 4 LVRT = Low Voltage Ride Through (only for communication board II)5 conform to CEI 0-21

Standards and guidelines for PIKO-Inverters *

Directive 2004/108/EC Electromagnetic compatibility; Directive 2006/95/EC Electrical Apparatus Low Voltage Directive; Application of the CE marking in accordance with Appendix III, Section B:2013; IEC 60364-7-712; CEI 64-8, Part 7; EN 61000-3-2:2006 / A1:2009 / A2:2009; EN 61000-3-3:2008; EN 61000-6-2:2005 / AC:2005; EN 61000-6-3:2007 / A1:2011; EN 62109-1:2010; EN 62109-2:2011; DIN V VDE V 0126-1-1 (VDE V 0126-1-1):2006-02, „Eigenerzeugungsanlagen am Niederspannungsnetz“; BDEW-TR Erzeu-gungsanlagen am Mittelspannungsnetz, Ausgabe Juni 2008 + Ergänzungen 1/2009, 7/2010 und 2/2011; VDE-AR-N 4105, „Erzeu-gungsanlagen am Niederspannungsnetz“; OVE/ONORM E 8001-4-712:2009-12, Anhang A (AT); EN 50438:2007; RD 1699/2011; RD 661/2007; C10/11-06.2012; G83/1-1; G59/2; IEC 60947-3:1999 + Corrigendum:1999 + A1:2001 + Corrigendum 1:2001 + A2:2005; DIN EN 60947-3; VDE 0660-107:2006-03; IEC 60364-7-712:2002-05; DIN VDE 0100-712:2006-06; TF 3.2.1; CEI 0-21; CEI 0-16; UTE 15-712-1, 07/2010

* For all current certificates see www.kostal-solar-electric.com/download-en in the download area.

9

Country-specific switch-off limits

UACmax t UACmax UACmin t UACmin ƒmax t ƒmax ƒmin t ƒmin

V s V s Hz s Hz s

DE Germany NSR, Germany MSR 264,5 0,2 184 0,2 51,5 0,2 47,5 0,2

AT Austria 264,5 0,2 184 0,2 51 0,2 47 0,2

BA, BG, CH, HR, LU, ME, RO, RS, SK, TR

Bosnia and Herzegovina, Bulgaria, Switzerland, Croatia, Luxembourg, Montenegro, Romania, Serbia, Slovakia, Turkey

264,5 0,2 184 0,2 50,2 0,2 47,5 0,2

BE Belgium 264,5 0,1 184 0,1 51,5 0,1 47,5 0,1

CY Cyprus 253 0,5 207 0,5 52 0,5 47 0,5

CZ Czech Republic 264,5 0,2 195,5 0,2 50,5 0,2 49,5 0,2

DK Denmark 259,9 0,2 207 10 52 0,2 47,5 0,2

ES Spain

RD 661/ 2007:

253 (level 1)264,5 (level 2)

1,5 (level 1)0,2 (level 2) 195,5 1,5 51 0,5 48 3

RD 1699/ 2011:

253 (level 1)264,5 (level 2)

1,5 (level 1)0,2 (level 2) 195,5 1,5 50,5 0,5 48 3

FR France 264,5 0,2 195,5 0,2 50,2 0,2 47,5 0,2

UK, MT

United Kingdom, Malta

G83/1: 264 1,5 207 1,5 50,5 0,5 47,0 0,5

G59/2: 253 (level 1) 264,5 (level 2)

1,0 (level 1) 0,5 (level 2)

200,1 (level 1) 184 (level 2)

2,5 (level 1) 0,5 (level 2) 52,0 0,5 47,0 0,5

GR Greece 264,5 0,5 184 0,5 51 (islands) 50,5 (mainland) 0,5 47,5 (islands)

49,5 (mainland) 0,5

IT Italy

253 (59.S1)264,5 (59.S2)

3 (59.S1)

0,2 (59.S2)

195,5 (27.S1)

92 (27.S2)

0,4 (27.S1)

0,2 (27.S2)

50,5 (81>.S1)

51,5 (81>.S2)

0,1 (< 6kW)

1 (> 6kW)

49,5 (81<.S1)

47,5 (81<.S2)

0,1 (< 6kW)

4 (> 6kW)

NL Netherlands 253 2 184 2 51 2 48 2

EE, LV, LT, PL, PT

Estonia, Latvia, Lithuania, Poland, Portugal

264,5 0,2 195,5 1,5 51 0,5 47 0,5

SE Sweden 264,5 0,2 195,5 (level 1)207 (level 2)

0,2 (level 1)60 (level 2) 51 0,5 47 0,5

SI Slovenia 264,5 0,2 195 0,2 51 0,2 47 0,5

10

Terms

Input side (DC)

Maximum DC input voltage (open circuit voltage) UDCmax The maximum voltage that is permitted at the DC input of the inverter.

Minimum DC input voltage UDCmin The minimum input voltage at which the inverter feeds into the grid.

Start-up DC input voltage UDCstart The input voltage at which the inverter starts feeding into the grid.

Rated DC input voltage UDC,r The DC input voltage, which other data refer to.

Maximum MPP voltage UMPPmax The maximum voltage at which the inverter can deliver its rated AC power.

Minimum MPP voltage UMPPmin The minimum voltage at which the inverter can deliver its rated AC power.

Maximum DC input current IDCmax The maximum DC current at which the inverter can be operated.

Maximum DC input current with parallel connection IDCmax,p The maximum DC current that is allowed for parallel connection of two DC inputs.

Output side (AC)

Maximum AC output voltage UACmax The maximum permissible AC voltage.

Minimum AC output voltage UACmin The minimum permissible AC voltage.

AC grid voltage UAC,r The voltage of the network to which the inverter is connected.

Maximum AC output current IACmax The maximum output current that the inverter will supply.

Short-circuit current ISC The current that occurs on the event of a short circuit on the AC side.

Rated AC output PAC,r The active power that can be delivered by the inverter in continuous operation at cosφ=1.

Apparent power SAC,r

The connected power, which consists of actually implemented active power and additional existing reactive power.

Rated frequency ƒr The nominal frequency of the connected network.

Maximum grid frequency ƒmax The maximum frequency (upper switch-off limit).

Minimum grid frequency ƒmin The minimum frequency (lower switch-off limit).

Self-consumption at night PL

The power that the inverter obtains from the public grid, when the modules do not supply sufficient power.

Power factor cosφAC,r cosφ The ratio between active power and apparent power.

Maximum efficiency ηmax The maximum efficiency that the inverter can achieve.

European-standard efficiency ηEU Weighted overall efficiency.

KOSTAL Solar Electric GmbHHanferstr. 679108 Freiburg i. Br.DeutschlandTelefon: +49 761 47744 - 100Fax: +49 761 47744 - 111

KOSTAL Solar Electric Ibérica S.L.Edificio abmRonda Narciso Monturiol y Estarriol, 3Torre B, despachos 2 y 3Parque Tecnológico de Valencia46980 ValenciaEspañaTeléfono: +34 961 824 - 930Fax: +34 961 824 - 931

KOSTAL Solar Electric France SARL11, rue Jacques Cartier78280 GuyancourtFranceTéléphone: +33 1 61 38 - 4117Fax: +33 1 61 38 - 3940

KOSTAL Solar Electric Hellas Ε.Π.Ε.47 Steliou Kazantzidi st., P.O. Box: 600801st building – 2nd entrance55535, Pilea, ThessalonikiGreece / ΕλλάδαΤelephone: +30 2310 477 - 550Fax: +30 2310 477 - 551

KOSTAL Solar Electric Italia SrlVia Genova, 5710098 Rivoli (TO)ItaliaTelefono: +39 011 97 82 - 420Fax: +39 011 97 82 - 432

www.kostal-solar-electric.com 06 / 2

013

– D

B –

EN

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0201

474

ACE SL7000Industrial & Substation Electricity Meter Range

Itron’s ACE SL700 meter range offers a solution for all industrial and substation applications. Equipped with flexible communication technology combined with elements of traditional C&I metering, the ACE SL7000 meter range offers the versatility and flexibility required to meet today’s rapidly changing markets.

Flexible

Designed for direct or transformer connection, ACE SL7000 meters offer a scalable architecture that allows them to be installed on existing and new electricity distribution networks.

Versatile

The ACE SL7000 meter range can be installed in multiple markets and for several applications. Its auto-ranging power supply and extremely wide measuring range ensures that a single meter type can be used across a variety of applications – from large commercial installations to substation metering.

»» Commercial and Industrial Applications: Summation features and multi-energy inputs reduce the need for additional data concentrators. Separate communication lines for the utility and customer provide a closer link and added value to the electricity provider.

»» Substation Applications: High accuracy and linearity ensure quality billing data. Instantaneous values for a variety of quantities serve as a base for network monitoring. In addition, simultaneous communication channels ensure that several departments can benefit from the data received from the installed meter base.

Smart

Compliant with IEC standards, include innovative capabilities.

They allow multiple recording of load profiles along with local and remote communication on several lines.

KEY»FEATURES

»» Proven experience in multiple markets

»» Accuracy and linearity

»» Multi-energy inputs

»» Simultaneous communication channels

SPECIFICATIONS knowledge to shape your future

ADDING»VALUE

Through of the latest-generation metrological and communications technology, ACE SL7000 meters bring significant benefits to utilities and end-users alike, adding value to every aspect of the metering process.

Utility»Benefits

»» Reduced Inventory CostThanks to a wide measuring range and an auto-ranging power supply for most variants, one type of meter covers many installations configurations.

»» Reduced Data Collection CostRead cycles are kept to a minimum by internal storage of all billing data, and powerful communications capabilities allow cost-effective remote meter reading. Conformance with the latest IEC communications standards ensures that the meters can be easily integrated into standard data collection systems.

»» Reduced Non-Technical LossesMultiple safety features guard against human intervention. IEC7 evolution brings standard magnet detection and an optional terminal cover opening detection.

»» Network MonitoringOur meters allow monitoring of the network and logging of anomalies. This can be used to prevent and repair faulty network conditions.

KEY»FEATURES

Multi-Energy

»» Internal measurement of active, reactive and apparent power in each direction, and separately per phase.

»» Four pulse inputs provide additional metering information (versions with I/O lines).

Load»Profiles

»» Storage of up to 16 channels for various quantities in two independent banks.

Multi-Rate

»» Multi-rate billing for energy and demand.

»» 10 Basic quantities can be selected for billing data.

»» 32 energy-rate registers and 24 demand-rate registers are available.

»» Rate switching mainly performed by internal clock, but can also be triggered externally (versions with I/O lines).

ACE»SL7000»Meter»series

»» Basic version without electrical I/O lines

»» Intermediate version with limited set of I/O lines

»» Flexible version with extended I/O capabilities

»» In all versions, several configurations are available

»» Feature UpgradesACE SL7000 meters include an upgrade engine to further enhance functionality and keep metering costs to a minimum through the re-use of existing equipment. Starting with IEC7 version firmware, upgrades can now be performed remotely.

»» Withstand Adverse EnvironmentsOur meters are designed and tested to cope with severe environmental conditions such as electromagnetic disturbances and network condition variations regardless of the frequency contents.

End-User»Benefits

»» Consumption MonitoringThe meters provide information that is readable online through a dedicated communications port, so that end-users can monitor and control energy consumption.

»» Supply MonitoringVoltage quality parameters can be defined and the supply monitored. This data can be used for verification purposes when quality of supply is a contractual parameter.

»» Excess Consumption FeatureACE SL7000 meters can monitor consumption against configurable thresholds and trigger contacts if consumption exceeds limits.

Voltage»Quality

»» Process voltage threshold levels to perform in-depth analysis of supply voltage fluctuations.

Auxiliary»Power»Supply»(APS)

»» From IEC7 versions, the optional APS is isolated (2KV) from measurement voltages.

Communications

»» Up to three communication channels (2 electrical & 1 optical) depending on the meter version.

»» Two channels can be used simultaneously.

»» Local- and remote-reading ports.

»» Power to an external modem can be supplied from the meter (PSTN / GSM / GPRS / LAN): in IEC7 versions, the meter now provides up to 3W.

»» DLMS-Cosem conformance.

Commercial»&»Industrial»Applications

Substation»Applications

Technical»SpecificationsRatings Voltage:

Direct Current: CT Connection:

3*57.7/100V up to 3*277/480V auto ranging In 5A, Imax 120A Ib 1A, Imax 10A

Network Types Direct Connection: CT, VT connection:

4-wire meter remains operational in 3-wire connection without neutral 3- and 4-wire configurable configurations

Accuracy Direct Connected: Transformer Connected: Reactive energy:

Class 1 or Class B Class 0.2S, Class 0.5S or Class C Class 1 or Class 2

Frequency 50 / 60 Hz

Standards Full compliance with IEC 62052, IEC 62053, MID standard EN50470-1 and EN50470-3 and CE marking standards (mechanical, climatic, electrical, electromechanical, metrological)

Communications IR-port (IEC 61107), optional RS232C and/or RS485 DLMS-Cosem Protocol (IEC 62056) Integrated in most market leading software packages

AccessoriesCommunications External modems

Itron Sparklet modem, powered by the meter, is easily attachable under terminal cover Cabling for external communications devices IR-reading device for connection to PC

Configuration/Calibration

Customer software for consumption monitoring Itron ACE Pilot Utility Software for configuration and reading

Installation tools Transformer ratio labels Sealing kit

Documentation Test certificate User guide Installation Manual

Dimensions180

325

mm

with

sta

ndar

d t

erm

inal

cov

er

358

mm

with

ext

end

ed t

erm

inal

cov

er

85

251

97

62 150

201

230

239

While Itron strives to make the content of its marketing materials as timely and accurate as possible, Itron makes no claims, promises, or guarantees about the accuracy, completeness, or adequacy of, and expressly disclaims liability for errors and omissions in, such materials. No warranty of any kind, implied, expressed, or statutory, including but not limited to the warranties of non-infringement of third party rights, title, merchantability, and fitness for a particular purpose, is given with respect to the content of these marketing materials. © Copyright 2012, Itron. All rights reserved. EL.0019.1-EN-02/12

Our company is the world’s leading provider of smart metering, data collection and utility software systems, with over 8,000 utilities worldwide relying on our technology to optimize the delivery and use of energy and water.

To realize your smarter energy and water future, start here: www.itron.com

ITRON»SAS

ZI de Chasseneuil Avenue des Temps Modernes 86361 Chasseneuil du Poitou cedex France

Téléhone»:» +33 5 49 62 70 66Fax»:» +33 5 49 62 70 89

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