AD8177-EVALZ/AD8178-EVALZ User Guide - Analog Devices
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Transcript of AD8177-EVALZ/AD8178-EVALZ User Guide - Analog Devices
AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide
UG-890One Technology Way • P.O. Box 9106 • Norwood, MA 02062-9106, U.S.A. • Tel: 781.329.4700 • Fax: 781.461.3113 • www.analog.com
Evaluation Board for the AD8175/AD8176/AD8177/AD8178
Triple Video Crosspoint Switches
PLEASE SEE THE LAST PAGE FOR AN IMPORTANT WARNING AND LEGAL TERMS AND CONDITIONS. Rev. 0 | Page 1 of 33
FEATURES Full-featured evaluation board for the
AD8175/AD8176/AD8177/AD8178 Supports both single-ended and differential input
and output Supports RGBHV signal Drives SMA and CAT5 cables Decoded HV sync outputs available Single +5 V or dual ±2.5 V operation
EVALUATION KIT CONTENTS AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/
AD8178-EVALZ evaluation board Instruction guide for user guide and software download
EQUIPMENT NEEDED Signal source or video pattern generator and signal analyzer Power supplies (5 V with 3 A and ±2.5 V with 3 A) SMA to SMA connector for inputs and outputs Male VGA to male VGA connector for inputs and female
VGA to male VGA connector for outputs CAT5 cable Workstation or desktop with Windows XP operating system
GENERAL DESCRIPTION The AD8175 and AD8176 are high speed, triple 16 × 9 video crosspoint switch matrixes with a gain of 2 and 4, respectively. Both the AD8175 and AD8176 support 1600 × 1200 RGB displays at a 85 Hz refresh rate. The AD8175 has a 500 MHz bandwidth, 1800 V/μs slew rate, −88 dB crosstalk, and −94 dB isolation (at 5 MHz). The AD8176 has a 450 MHz bandwidth, 1650 V/μs slew rate, −82 dB crosstalk, and −90 dB isolation (at 5 MHz).
The AD8177 and AD8178 have the same specifications as the AD8175 and AD8176, respectively, but are 16 × 5 video crosspoint switch matrixes.
The AD8175, AD8176, AD8177, and AD8178 support two modes of operation: differential in to differential out mode with sync on common-mode (CM) signaling passed through the switch, and differential in to differential out mode with CM signaling removed through the switch. The output CM and black level can be conveniently set via external pins. The outputs can be single ended in conjunction with decoded H and V outputs to drive a monitor directly.
The independent output buffers of the AD8175, AD8176, AD8177, and AD8178 can be placed into a high impedance state to create larger arrays by paralleling the crosspoint outputs. The inputs can also be paralleled. The AD8175, AD8176, AD8177, and AD8178 offer both serial and parallel programming modes.
The AD8175/AD8176/AD8177/AD8178 are packaged in a fully populated, 26 × 16 ball PBGA package and are available over the extended industrial temperature range of −40°C to +85°C.
This user guide provides all of the supporting documents for evaluating the AD8175/AD8176/AD8177/AD8178 using the AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ evaluation board. Additional information is available in the AD8175, AD8176, AD8177, and AD8178 data sheets, which should be consulted in conjunction with this user guide when working with the evaluation board.
UG-890 AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide
Rev. 0 | Page 2 of 33
TABLE OF CONTENTS Features .............................................................................................. 1
Evaluation Kit Contents ................................................................... 1
Equipment Needed ........................................................................... 1
General Description ......................................................................... 1
Revision History ............................................................................... 2
Evaluation Board Photograph and Block Diagram...................... 3
Evaluation Board Hardware ............................................................ 4
Introduction .................................................................................. 4
Power Supply ................................................................................. 4
Inputs ............................................................................................. 4
Outputs ...........................................................................................4
NI USB-6501 ..................................................................................5
VBLK, CMENC, VOCM_CMENCOFF, and VOCM_CMENCON Logic Inputs .............................................5
Calibration Path .............................................................................5
Quick Start Guide ..............................................................................6
Evaluation Board Schematics and Artwork ...................................8
Ordering Information .................................................................... 31
Bill of Materials ........................................................................... 31
REVISION HISTORY 10/15—Revision 0: Initial Version
AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide UG-890
Rev. 0 | Page 3 of 33
EVALUATION BOARD PHOTOGRAPH AND BLOCK DIAGRAM
2
2
2
2
2
2
2
2
2
2
2
2
INPUTRECEIVER
G = +1
OUTPUTBUFFERG = +1
9
144 SET
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RG
B16
× R
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CH
AN
NEL
S
CMENC
SERIN
RSTUPDATE
CS
CLK
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D0 D1 D2 D3 D4 VPOS VNEG VDD DGND
SEROUT
9 ×
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A0
A1
A2
A3
AD8175
1
0
SWITCHMATRIXG = +2
45-BIT SHIFTREGISTER WITH5-BIT PARALLEL
LOADING
DECODE9 × 5:16 DECODERS
PARALLEL LATCH
1364
9-00
1
Figure 1. Evaluation Board Photograph and Block Diagram
UG-890 AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide
Rev. 0 | Page 4 of 33
EVALUATION BOARD HARDWARE INTRODUCTION The AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/ AD8178-EVALZ evaluation board allows the user to easily evaluate the AD8175/AD8176/AD8177/AD8178 in both the 50 Ω and 75 Ω controlled impedance applications. Figure 3 shows the typical bench setup used to evaluate the 16 × 5 and 16 × 9 crosspoint switch matrixes.
Table 1. Device Options
Device Gain (Differential to Differential) Frequency
Switch Matrix
AD8175 2 500 MHz 16 × 9 AD8176 4 450 MHz 16 × 9 AD8177 2 500 MHz 16 × 5 AD8178 4 450 MHz 16 × 5
POWER SUPPLY This evaluation board can be used for a single 5 V supply (and ground); dual or split supplies of ±2.5 V, +3 V/−2 V; or other combinations where the voltage difference is 5 V. There are various jumpers on the board to select the different power supply operations. Figure 26 shows the power supply schematic.
INPUTS IN0 to IN3
The first four inputs (IN0 to IN3) accept a standard RGBHV output from a PC (sometimes referred to as VGA, but it can be any resolution).
The AD8175, AD8176, AD8177, or AD8178 do not directly accept the H and V sync signals as inputs. However, these signals can be carried on the common-mode of differential RGB inputs. A single device, the AD8134 converts the single-ended RGB signals to differential and encodes the H and V sync on the common mode. The IN0 through IN3 inputs each contain an AD8134 in the circuit path to perform this conversion and then drive the inputs to the AD8175/AD8176/AD8177/AD8178.
Figure 5 to Figure 8 show the schematics of Input 0 to Input 3.
IN4 to IN7
IN4 through IN7 have offset circuits for the differential inputs in addition to the AD8134 circuit that appears on IN0 through IN3. This offset circuit compensates the other half of a differential output if a single-ended output is used. IN4 through IN7 can also accept an RGBHV signal.
Figure 9 to Figure 12 show the schematics of Input 4 to Input 7.
IN8 to IN11
IN8 through IN11 have RJ45 connectors used to connect a standard Category 5 (CAT5) cable. An AD8134-EVALZ evaluation board can be used at the server end to convert the RGBHV output of the server to differential RGB with sync on common mode. A CAT5 cable can connect the output of the AD8134-EVALZ evaluation board to one of these inputs.
Figure 13 shows the schematic of Input 8 to Input 11.
IN12 and IN13
IN12 and IN13 have SMA connectors for each polarity of the RGB input for a total of six separate SMA connectors, which can be used to connect to test equipment that is not directly related to PC graphic signals or CAT5-based signals.
Figure 14 shows the schematic of Input 12 and Input 13.
IN14 and IN15
IN14 and IN15 have ganged, high speed coaxial connectors produced by W. L. Gore, which are used by various Analog Devices, Inc., test systems to enable rapid connector rearrange-ments of many circuits. These connectors are available for the AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/ AD8178-EVALZ evaluation board to provide ports that are compatible with these test systems.
Figure 15 shows the schematics of Input 14 and Input 15.
OUTPUTS OUT0 to OUT2
The OUT0 to OUT2 outputs provide single-ended RGB and H and V signals that are compatible with a standard RGB computer monitor. The connectors are the HD15 type, which are standard.
The signal path includes an AD8003 triple, high speed op amp. The AD8003 is configured for a gain of four. The AD8003 is provided so that an AD8175 output can be used to drive a monitor. If the board contains an AD8176, the AD8003 is not needed in the signal path.
The H and V output signals are derived from the sync on common mode at the inputs, which are directly connected to the AD8175/AD8176/AD8177/AD8178 and do not require any external buffers.
OUT1 is not used by the AD8177 and AD8178. Figure 16 to Figure 18 show the schematics of Output 0 to Output 2.
OUT3 to OUT5
OUT3 to OUT5 are similar to OUT0 to OUT2, but do not contain an AD8003 amplifier in the signal path. If using an AD8175/AD8176/AD8177/AD8178 at the OUT3 to OUT5 outputs, a picture can be seen on the monitor, but it is dim because the gain is half of what is required. An AD8176 or AD8178 provides the proper gain for these outputs to create a true picture.
OUT3 and OUT5 are not used by the AD8177 and AD8178. Figure 19 to Figure 21 show the schematics of Output 3 to Output 5.
Note that, when using any of these outputs (OUT0 to OUT5), the common-mode encoding must be turned off; turning it on distorts the color in the picture.
AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide UG-890
Rev. 0 | Page 5 of 33
OUT6
OUT6 is an RJ45 connector. It carries the differential RGB with sync on common-mode signals, typically over a CAT5 cable. If this type of signal is used as input to the AD8175/AD8177 and common-mode encoding is turned on, the proper signal appears at this output, which can then drive another CAT5 cable.
This function does not work for AD8176 and AD8178 because their gains are twice that of the required signal. Figure 22 shows the schematic of Output 6.
OUT7
The OUT7 output has six separate SMA connectors for each of the polarities of the RGB output signal. Similar to the SMA inputs, these outputs are useful for connecting to various test equipment. Figure 23 shows the schematic of Output 7.
OUT8
OUT8 has the Gore header connector, the same as IN12 and IN13, which is compatible with various Analog Devices test equipment. Figure 24 shows the schematic of Output 8.
NI USB-6501 The NI USB-6501 is a portable, digital input/output device that is used as the digital controller of the evaluation board.
VBLK, CMENC, VOCM_CMENCOFF, AND VOCM_CMENCON LOGIC INPUTS The VBLK pin defines the black level of the positive output phase.
The VBLK and VOCM_CMENCOFF inputs allow the user complete flexibility in defining the output CM level and the amount of overlap between the positive and negative phases, thus maximizing output headroom usage.
Note that, for evaluation purposes, while running off equally split supplies (±2.5 V), the VBLK and VOCM_CMENCOFF pins on
the AD8175-EVALZ evaluation board must be tied to GND (0 V). These jumpers are included on the board.
VCOM_CMENCON and VCOM_CMENCOFF are typically set to midsupply (often ground), but can be moved by approximately ±0.5 V to accommodate cases where the desired output common-mode voltage is not midsupply (as in the case of unequal split supplies).
Common-Mode Operating Modes
Depending on the state of the CMENC logic input, the AD8175/AD8176/AD8177/AD8178 can be set in either of the two differential in, differential out operating modes. This only applies for CAT5 applications. See the Applications Information section in the product data sheet for more information.
Common-Mode Encoding Off, CMENC Tied to Low
In this mode, the CM of each RGB differential pair is removed through the device (or turned off), while the overall CM at the output is defined by the reference value, VOCM_CMENCOFF. CM noise is removed while the intended differential RGB signals are buffered and passed to the outputs.
Common-Mode Encoding On, CMENC Tied to High
In this mode, the CM of each RGB input is passed through the device with a gain of +1, while at the same time, the overall output CM is stripped and set equal to the voltage applied at the VOCM_CMENCON pin. The AD8175/AD8176/AD8177/ AD8178 is placed in this operation mode when used with a sync on CM scheme. Although asserted, the H and V outputs are not used in this application.
CALIBRATION PATH To calibrate for insertion loss due to input and output traces on the printed circuit board (PCB), a calibration through path is provided on this evaluation board. Figure 25 shows the schematic of the calibration path.
UG-890 AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide
Rev. 0 | Page 6 of 33
QUICK START GUIDE To get started, take the following steps:
1. Remove the AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ evaluation board from the box.
2. Connect +2.5 V to VPOS, −2.5 V to VNEG, +3.3 V to VDD, and connect all ground supplies to GND. It is strongly recommended to initially operate the board from ±2.5 V to ensure basic operation. Afterwards, other power supply operation can be explored.
3. Connect shunts between Pin 1 and Pin 2 of the following jumpers: 1, 5, 6, 10, 11, 15, 16, 20, 21, 25, 26, 30, 31, 35, 36, and 40. These shunts allow the connection of IN0 through IN7 to the AD8134.
4. Connect shunts between Pin 2 and Pin 3 of the following jumpers: 2, 3, 4, 7, 8 9, 12, 13, 14, 17, 18, 19, 22, 23, 24, 27, 28, 29, 32, 33, 34, 37, 38, and 39. These shunts allow the operation of the ±2.5 V supply.
5. Connect TP2 and TP3 to TP4. This connection ties the VBLK and VOCM_CMENCOFF pins to GND.
6. Connect the NI USB-6501 board to P1 through the ribbon cable.
7. Connect a Type B to Type A USB cable between the NI USB-6501 and a workstation running the Windows® XP operating system.
8. Start the evaluation board software. (The procedure on the software download is included in the evaluation kit.)
For the RGB input, follow these steps:
1. Connect a female-to-male VGA cable between IN0 and the video pattern generator or any video signal source.
2. Connect a male-to-male VGA cable between OUT0 and the monitor or display.
3. Select the IN0 to OUT0 LED in the evaluation board software, and then click APPLY. OUT0 then produces the signal from IN0 (see Figure 2).
For the SMA input, follow these steps:
1. Connect a sine wave of 1 V p-p from the signal generator to IN12 REDN and IN12 REDP through the SMA connectors.
2. Connect SMA connectors between OUT7 REDN and the oscilloscope and between OUT7 REDP and the oscilloscope.
3. Select the IN12 to OUT7 LED in the evaluation board software, and then click APPLY. OUT12 produces the signal from IN12.
For the CAT5 input, follow these steps:
1. Connect a video driver evaluation board such as the AD8134-EVALZ on IN8 through a CAT5 cable to convert the RGB output of the video pattern generator or any other video signal source to differential RGB with sync on common mode.
2. Connect a CAT5 cable between OUT6 and a video receiver such as the AD8143-EVALZ.
3. Select the IN8 to OUT6 LED in the evaluation board software, and then click APPLY.
1364
9-00
2
Figure 2. Sample of Input and Output Setting on the Evaluation Software
AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide UG-890
Rev. 0 | Page 7 of 33
VGA INPUTSMA (DIFFERENTIAL) INPUT
CAL PATH
CAT5 INPUT
VGA OUTPUTSMA (DIFFERENTIAL) OUTPUT
HSYNC OUT
VSYNC OUT
CAT5 OUTPUT
DC POWER SUPPLYWAVEFORM/SIGNAL GENERATOR
VGA OUTPUT
VGA INPUT
MONITOR/DISPLAY
OSCILLOSCOPE
NI USB -6501
WORKSTATION
SMA (DIFFERENTIAL) INPUT
1364
9-00
3
Figure 3. Typical Evaluation Setup
UG-890 AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide
Rev. 0 | Page 8 of 33
EVALUATION BOARD SCHEMATICS AND ARTWORK
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AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide UG-890
Rev. 0 | Page 9 of 33
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9
49.9
R12
110
0
100
R12
2
R0_
INP
_A
13649-005
Figure 5. Input 0
UG-890 AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide
Rev. 0 | Page 10 of 33
AGN
D
AGN
D
AGN
D
AG
ND
AG
ND
AGN
D
AGN
DAG
ND
AGN
D
AG
ND
AGN
DAG
ND
AGN
D
AGN
D
RIN
+
RIN
-
GIN
+
GIN
-
BIN
+
RO
UT+
RO
UT-
GO
UT+
GO
UT-
BO
UT+
VS1+
VS2+
VS4+
VS3+
BO
UT-
SYNCLVL
BIN
-
VS4-
VS3-
VS2-
VS1-
OPD
PAD
VSY
NC
HS
YNC
AD
8134
ACPZ
+-+ -+ + -
+
x2
AGN
D
PBG
A-67
6_27
X27
BGR BGR
= 0.
507
V5
* (4
99 /
4919
)
VER
TIC
AL S
YNC
HO
RIZ
ON
TAL
SYN
C
ID B
IT 1
ID B
IT 0
SYN
C R
ETU
RN
NC
(DD
C +
5V)
BLU
E SH
IELD
GR
EEN
SH
IELD
RED
SH
IELD
GR
OU
ND
ID B
IT 2
BLU
E
GR
EEN
RE
D
SYN
C H
IGH
TR
AN
SIS
TOR
IS O
N
V =
2.5
* (1
000
/ 798
0) -
2.5
= -2
.19
I = (5
- 0.
7) /
1000
= 4
.3 m
A
V= 4
.2 m
A *
1K =
4.2
(No
Can
Do!
)
V =
~0V
(Tra
nsis
tor i
s S
atur
ated
)
VI
SYN
C L
OW
TR
ANSI
STO
R IS
OFF
AD
8134
Jum
per 1
& 2
AD
8147
Jum
per 2
& 3
AD81
34 J
umpe
r 1 &
2
AD81
47 J
umpe
r 2 &
3
5V S
uppl
y Ju
mpe
r 1 &
2
+- 2
.5V
Supp
ly J
umpe
r 2 &
3
5V S
uppl
y Ju
mpe
r 1 &
2
+- 2
.5V
Supp
ly J
umpe
r 2 &
3
+- 2
.5V
Supp
ly J
umpe
r 2 &
35V
Sup
ply
Jum
per 1
& 2
2.5
* (1
119
/ 553
9)=
0.50
5 V
NC
(ID
BIT
3 o
r DAT
A C
LOC
K)
AE1
3
AD
14
AF1
4
AF1
3
AD
13
AE1
4
CH
ANN
EL=1
SKT
1
37.4R8
R9
37.4
37.4
R13
1 2 3
JMP
10
321JMP9
1 2 3JMP8
1
2
3
JMP7
321JMP6
VNEG
1
2
3
2N39
06
Q4
3
2
1
Q3
2N39
06
4 3 22 23 15
7 6 9 10 12
8
11
24
17
13
18
16
21
14
5
2
1 PAD
2019
U2
1 10 11 12 13 14 152 3 4 5 6 7 8 9P3
B1_
INN
_C
1KR32
1
R32
0
1K
100
R13
149
.9
R13
0
R31
9
620
R31
8
499
R31
74.
42K
R31
61K
R31
56.
98K
80.6
R12
C12
1000
0PF
C98
0.1U
F
0.1U
F
C97
1000
0PF
C11
R11
80.6
80.6
R10
6.98
KR
314
1KR31
3
R12
9
49.9
49.9
R12
8
R12
7
49.9
49.9
R12
6
R12
5
49.9
R12
410
0
100
R12
3
VPO
S
G1_
INP_
C
R1_
INN
_C
G1_
INN
_C
B1_I
NN
_B
G1_
INN
_B
R1_
INN
_B
VN
EG
VPO
S
R1_
INP
_B
B1_I
NP_
A
G1_
INP_
A
B1_I
NP_
B
VNE
G
G1_
INP
_B
VNEG
VNEG
R1_
INP_
C
B1_
INP_
C
R1_
INP_
A
13649-006
Figure 6. Input 1
AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide UG-890
Rev. 0 | Page 11 of 33
13649-007
AG
ND
AGN
D
AGN
D
AGN
D
AG
ND
AGN
DA
GN
D
AG
ND
AG
ND
AGN
DAG
ND
AG
ND
AGN
D
RIN
+
RIN
-
GIN
+
GIN
-
BIN
+
RO
UT+
RO
UT-
GO
UT+
GO
UT-
BOU
T+
VS1+
VS2+
VS4+
VS3+
BOU
T-
SYNCLVL
BIN
-
VS4-
VS3-
VS2-
VS1-
OPD
PAD
VSYN
C
HS
YNC
AD
8134
ACPZ
+-+ -+ + -
+
x2
AGN
D
AGN
D
PBG
A-6
76_2
7X27
BGR BGR
= 0.
507
V5
* (49
9 / 4
919)
VER
TIC
AL S
YN
C
HO
RIZ
ON
TAL
SYN
C
ID B
IT 1
ID B
IT 0
SYN
C R
ETU
RN
NC
(DD
C +
5V)
BLU
E S
HIE
LD
GR
EEN
SH
IELD
RED
SH
IELD
GR
OU
ND
ID B
IT 2
BLU
E
GR
EEN
RE
D
SYN
C H
IGH
TR
ANS
ISTO
R IS
ON
V =
2.5
* (1
000
/ 798
0) -
2.5
= -2
.19
I = (5
- 0.
7) /
1000
= 4
.3 m
A
V= 4
.2 m
A * 1
K =
4.2
(No
Can
Do!
)
V =
~0V
(Tra
nsis
tor i
s S
atur
ated
)
VI
SYN
C L
OW
TR
AN
SIST
OR
IS O
FF
AD81
34 J
umpe
r 1 &
2
AD81
47 J
umpe
r 2 &
3
AD81
34 J
umpe
r 1 &
2
AD81
47 J
umpe
r 2 &
3
5V S
uppl
y Ju
mpe
r 1 &
2
+- 2
.5V
Supp
ly J
umpe
r 2 &
3
5V S
uppl
y Ju
mpe
r 1 &
2
+- 2
.5V
Supp
ly J
umpe
r 2 &
3
+- 2
.5V
Supp
ly J
umpe
r 2 &
35V
Sup
ply
Jum
per 1
& 2
2.5
* (11
19 /
5539
)=
0.50
5 V
NC
(ID
BIT
3 o
r DA
TA C
LOC
K)
AE1
0
AD
11
AF1
1
AF1
0
AD
10
AE1
1
CH
ANN
EL=
2
SKT1
37.4
R14
R15
37.4
37.4
R19
1 2 3
JMP1
5
321
JMP
14
1 2 3
JMP
13
1
2
3
JMP12
321
JMP
11
1
2
3
2N39
06
Q6
3
2
1
Q5
2N39
06
4 3 22 23 15
7 6 9
10 12
8
11
24
17
13
18
16
21
14
5
2
1
PAD
2019
U3
1 10 11 12 13 14 152 3 4 5 6 7 8 9P4
B2_
INP
_C
R2_
INN
_C
R2_
INP_
C
B2_I
NP_
B
1KR33
5
R33
4
1K
100
R14
049
.9
R13
9
R33
3
620
R33
2
499
R33
14.
42K
R33
01K
R32
96.
98K
80.6
R18
C17
1000
0PF
C10
3
0.1U
F
0.1U
F
C10
2
1000
0PF
C16
R17
80.6
80.6
R16
6.98
KR
328
1KR32
7
R13
8
49.9
49.9
R13
7
R13
6
49.9
49.9
R13
5
R13
4
49.9
R13
310
0
100
R13
2
VPO
S
G2_
INP_
C
G2_
INN
_C
B2_I
NN
_B
G2_
INN
_B
R2_
INN
_B
VN
EG
VPO
S
R2_
INP
_B
B2_
INN
_C
B2_
INP
_A
G2_
INP_
A
VNEG
G2_
INP
_B
VN
EG
VN
EG
R2_
INP_
A
VN
EG
Figure 7. Input 2
UG-890 AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide
Rev. 0 | Page 12 of 33
AGN
D
AGN
D
AGN
D
AG
ND
AGN
D
AGN
DA
GN
D
AGN
D
AG
ND
AGN
DA
GN
D
AG
ND
AG
ND
RIN
+
RIN
-
GIN
+
GIN
-
BIN
+
RO
UT+
RO
UT-
GO
UT+
GO
UT-
BOU
T+
VS1+
VS2+
VS4+
VS3+
BOU
T-
SYNCLVL
BIN
-
VS4-
VS3-
VS2-
VS1-
OPD PA
D
VSY
NC
HSY
NC
AD81
34A
CP
Z
+-+ -+ + -
+
x2
AG
ND
AGN
D
PBG
A-67
6_27
X27
BGR BGR
= 0.
507
V5
* (49
9 / 4
919)
VER
TIC
AL
SYN
C
HO
RIZ
ON
TAL
SYN
C
ID B
IT 1
ID B
IT 0
SYN
C R
ETU
RN
NC
(DD
C +
5V)
BLU
E S
HIE
LD
GR
EEN
SH
IELD
RED
SH
IELD
GR
OU
ND
ID B
IT 2
BLU
E
GR
EEN
RED
SYN
C H
IGH
TR
AN
SIS
TOR
IS O
N
V =
2.5
* (1
000
/ 798
0) -
2.5
= -2
.19
I = (5
- 0.
7) /
1000
= 4
.3 m
A
V=
4.2
mA
* 1K
= 4
.2 (N
o C
an D
o!)
V =
~0V
(Tra
nsis
tor i
s S
atur
ated
)
VI
SYN
C L
OW
TR
ANSI
STO
R IS
OFF
AD
8134
Jum
per 1
& 2
AD
8147
Jum
per 2
& 3
AD81
34 J
umpe
r 1 &
2
AD81
47 J
umpe
r 2 &
3
5V S
uppl
y Ju
mpe
r 1 &
2
+- 2
.5V
Sup
ply
Jum
per 2
& 3
5V S
uppl
y Ju
mpe
r 1 &
2
+- 2
.5V
Sup
ply
Jum
per 2
& 3
+- 2
.5V
Sup
ply
Jum
per 2
& 3
5V S
uppl
y Ju
mpe
r 1 &
2
2.5
* (1
119
/ 553
9)=
0.50
5 V
NC
(ID
BIT
3 o
r DA
TA C
LOC
K)
AE7
AD
8
AF8
AF7
AD
7
AE8
CH
ANN
EL=3
SKT1
37.4
R20
R21
37.4
37.4
R25
1 2 3
JMP2
0
321
JMP
19
1 2 3
JMP
18
1
2
3
JMP17
321
JMP
16
1
2
3
2N39
06
Q8
3
2
1
Q7
2N39
06
1 10 11 12 13 14 152 3 4 5 6 7 8 9P54 3 22 23 15
7 6 9 10 12
8
11
24
17
13
18
16
21
14
5
2
1 PAD
2019
U4
R3_
INP_
B
1KR34
9
R34
8
1K
100
R14
949
.9
R14
8
R34
7
620
R34
6
499
R34
54.
42K
R34
41K
R34
36.
98K
80.6
R24
C22
1000
0PF
C10
8
0.1U
F
0.1U
F
C10
7
1000
0PF
C21
R23
80.6
80.6
R22
6.98
KR
342
1KR34
1
R14
7
49.9
49.9
R14
6
R14
5
49.9
49.9
R14
4
R14
3
49.9
R14
210
0
100
R14
1
VPO
S
G3_
INP_
C
R3_
INN
_C
G3_
INN
_C
B3_I
NN
_C
VNEG
VNEG
VNEG
R3_
INP_
C
B3_I
NP_
C
VN
EG
R3_
INN
_B
G3_
INP_
B
G3_
INN
_B
B3_
INP_
B
VPO
S
B3_
INN
_B
VNE
G
B3_
INP
_A
G3_
INP_
A
R3_
INP_
A
13649-008
Figure 8. Input 3
AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide UG-890
Rev. 0 | Page 13 of 33
AGN
DAG
ND
AG
ND
AG
ND
AG
ND
AG
ND
VO
V+V-
ADA4
861
IN1+
IN1-
IN2+
IN2-
IN3+
IN3-
OU
T1
OU
T2
OU
T3
+VS -VS
PD3
PD2
PD1
-++ --+
AGN
D
AGN
D
AGN
D
AG
ND
AGN
D
AG
ND
AGN
D
AGN
D
AGN
DA
GN
D
AGN
D
AG
ND
RIN
+
RIN
-
GIN
+
GIN
-
BIN
+
RO
UT+
RO
UT-
GO
UT+
GO
UT-
BO
UT+
VS1+
VS2+
VS4+
VS3+
BOU
T-
SYNCLVL
BIN
-
VS4-
VS3-
VS2-
VS1-
OPD PA
D
VSYN
C
HSY
NC
AD
8134
AC
PZ
+-+ -+ + -
+
x2
AG
ND
PBG
A-6
76_2
7X27
BGR BGR
AGN
D
1.2V
Ban
dgap
= 0.
507
V5
* (49
9 / 4
919)
VER
TIC
AL
SYN
C
HO
RIZ
ON
TAL
SYN
C
ID B
IT 1
ID B
IT 0
SYN
C R
ETU
RN
NC
(DD
C +
5V)
BLU
E S
HIE
LD
GR
EEN
SH
IELD
RE
D S
HIE
LD
GR
OU
ND
ID B
IT 2
BLU
E
GR
EEN
RED
SYN
C H
IGH
TR
ANSI
STO
R IS
ON
V =
2.5
* (1
000
/ 798
0) -
2.5
= -2
.19
I = (5
- 0.
7) /
1000
= 4
.3 m
A
V=
4.2
mA
* 1K
= 4
.2 (N
o C
an D
o!)
V =
~0V
(Tra
nsis
tor i
s Sa
tura
ted)
VI
SYN
C L
OW
TR
ANS
ISTO
R IS
OFF
AD
8134
Jum
per 1
& 2
AD
8147
Jum
per 2
& 3
AD81
34 J
umpe
r 1 &
2
AD81
47 J
umpe
r 2 &
3
5V S
uppl
y Ju
mpe
r 1 &
2
+- 2
.5V
Sup
ply
Jum
per 2
& 3
5V S
uppl
y Ju
mpe
r 1 &
2
+- 2
.5V
Sup
ply
Jum
per 2
& 3
+- 2
.5V
Sup
ply
Jum
per 2
& 3
5V S
uppl
y Ju
mpe
r 1 &
2
2.5
* (1
119
/ 553
9)=
0.50
5 V
NC
(ID
BIT
3 o
r DA
TA C
LOC
K)
1.2
* 53.
6 / 1
83.6
= 0.
350
V
C91
0.1U
F
AE4
AD5
AF5
AF4
AD4
AE5
CH
ANN
EL=4
SKT1
499
R30
8
R31
2
499
B4_
INN
_A
G4_
INN
_A
R4_
INN
_A
R4_
FB
G4_
FB
B4_
FBR
311
53.6
R31
130
53.6
R31
0
130
R30
R29
130
R30
9
53.6
B4_
INN
_A
G4_
INN
_A
R4_
INN
_A
1 2 3
JMP2
5
321
JMP2
4
1 2 3
JMP2
3
1
2
3
JMP22
321
JMP
21
1
2
3
2N39
06
Q10
3
2
1
Q9
2N39
06
4 3 22 23 15
7 6 9 10 12
8
11
24
17
13
18
16
21
14
5
2
1 PAD
2019
U5
1 10 11 12 13 14 152 3 4 5 6 7 8 9P6
G4_
INN
_C
R4_
INN
_C
B4_
INP
_B
G4_
INN
_B
1KR36
3
R36
2
1K
100
R15
849
.9
R15
7
R36
1
620
R36
0
499
R35
94.
42K
R35
81K
R35
76.
98K
80.6
R28
C24
1000
0PF
C11
0
0.1U
F
0.1U
F
C10
9
1000
0PF
C23
R27
80.6
80.6
R26
6.98
KR
356
1KR35
5
R15
6
49.9
49.9
R15
5
R15
4
49.9
49.9
R15
3
R15
2
49.9
R15
110
0
100
R15
0
VPO
S
G4_
INP
_C
B4_
INN
_C
VN
EG
VNEG
VN
EG
R4_
INP
_C
B4_
INP_
C
VNEG
R4_
INP_
B
R4_
INN
_B
G4_
INP_
B
VPO
S
B4_
INN
_B
VN
EG
B4_I
NP_
A
G4_
INP
_A
R4_
INP
_A
5 6 12 13 10 9
7
14
8
4 11
3
2
1
U9
21
3A1AD
R28
0AR
T
C5
1000
0PF
0.1U
F
C92
1000
0PF
C6
0.1U
F
C93
1000
0PF
C7
VPO
SV
POS
VN
EG
R43
6
499
R4_
FB
G4_
FB
B4_
FB
0.1U
F
C12
9
13649-009
Figure 9. Input 4
UG-890 AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide
Rev. 0 | Page 14 of 33
AGN
DAG
ND
AG
ND
AG
ND
AGN
D
AG
ND
AG
ND
AG
ND
VO
V+V
-
AD
A486
1
IN1+
IN1-
IN2+
IN2-
IN3+
IN3-
OU
T1
OU
T2
OU
T3
+VS -VS
PD3
PD2
PD1
-++ --+
AG
ND
AGN
D
AG
ND
AG
ND
AG
ND
AGN
D
AG
ND
AG
ND
AG
ND
AG
ND
AG
ND
AGN
D
RIN
+
RIN
-
GIN
+
GIN
-
BIN
+
RO
UT+
RO
UT-
GO
UT+
GO
UT-
BOU
T+
VS1+
VS2+
VS4+
VS3+
BOU
T-
SYNCLVL
BIN
-
VS4-
VS3-
VS2-
VS1-
OP
D
PAD
VSYN
C
HSY
NC
AD81
34A
CPZ
+-+ -+ + -
+
x2
PBG
A-6
76_2
7X27
BGR BGR
1.2
* 53
.6 /
183.
6=
0.35
0 V
1.2V
Ban
dgap
= 0.
507
V5
* (49
9 / 4
919)
VER
TIC
AL
SYN
C
HO
RIZ
ON
TAL
SYN
C
ID B
IT 1
ID B
IT 0
SYN
C R
ETU
RN
NC
(DD
C +
5V)
BLU
E SH
IELD
GR
EEN
SH
IELD
RE
D S
HIE
LD
GR
OU
ND
ID B
IT 2
BLU
E
GR
EEN
RED
SYN
C H
IGH
TR
ANS
ISTO
R IS
ON
V =
2.5
* (1
000
/ 798
0) -
2.5
= -2
.19
I = (5
- 0.
7) /
1000
= 4
.3 m
A
V= 4
.2 m
A * 1
K =
4.2
(No
Can
Do!
)
V =
~0V
(Tra
nsis
tor i
s S
atur
ated
)
VI
SYN
C L
OW
TR
AN
SIST
OR
IS O
FF
AD
8134
Jum
per 1
& 2
AD
8147
Jum
per 2
& 3
AD81
34 J
umpe
r 1 &
2
AD81
47 J
umpe
r 2 &
3
5V S
uppl
y Ju
mpe
r 1 &
2
+- 2
.5V
Supp
ly J
umpe
r 2 &
3
5V S
uppl
y Ju
mpe
r 1 &
2
+- 2
.5V
Supp
ly J
umpe
r 2 &
3
+- 2
.5V
Sup
ply
Jum
per 2
& 3
5V S
uppl
y Ju
mpe
r 1 &
2
2.5
* (11
19 /
5539
)=
0.50
5 V
NC
(ID
BIT
3 o
r DAT
A C
LOC
K)
AB2 AC
3
AC
1
AB1
AB3
AC
2
CH
AN
NEL
=5
SKT
1
R5_
FB
G5_
FB
B5_F
B
499
R32
2
R32
6
499
B5_I
NN
_A
G5_
INN
_A
R5_
INN
_A
R5_
FB
G5_
FB
B5_
FBR
325
53.6
R32
130
53.6
R32
4
130
R33
R32
3
53.6
R34
130
B5_I
NN
_A
G5_
INN
_A
R5_
INN
_A
1 2 3
JMP
30
321
JMP
29
1 2 3
JMP
28
1
2
3
JMP27
321
JMP2
6
1
2
3
2N39
06
Q12
3
2
1
Q11
2N39
06
4 3 22 23 15
7 6 9
10 12
8
11
24
17
13
18
16
21
14
5
2
1
PAD
2019
U6
1 10 11 12 13 14 152 3 4 5 6 7 8 9P7
1KR37
2
R37
1
1K
100
R16
749
.9
R16
6
R37
0
620
R36
9
499
R36
84.
42K
R36
71K
R36
66.
98K
80.6
R37
C26
1000
0PF
C11
2
0.1U
F
0.1U
F
C11
1
1000
0PF
C25
R36
80.6
80.6
R35
6.98
KR
365
1KR36
4
R16
5
49.9
49.9
R16
4
R16
3
49.9
49.9
R16
2
R16
1
49.9
R16
010
0
100
R15
9
VPO
S
G5_
INP_
C
R5_
INN
_C
G5_
INN
_C
B5_
INN
_C
VNE
G
VN
EG
VN
EG
R5_
INP_
C
B5_
INP_
C
VNE
G
R5_
INP_
B
R5_
INN
_B
G5_
INP_
B
G5_
INN
_B
B5_
INP
_B
VPO
S
B5_
INN
_B
VNE
G
B5_
INP_
A
G5_
INP_
A
R5_
INP_
A
5 6 12 13 10 9
7
14
8
4 11
3
2
1
U10
21
3A2
AD
R28
0AR
T
C10
1000
0PF
C96
0.1U
F
0.1U
F
C95
1000
0PF
C9
0.1U
F
C94
1000
0PF
C8
VPO
SVP
OS
VNE
G
R43
7
499
0.1U
F
C13
0
13649-010
Figure 10. Input 5
AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide UG-890
Rev. 0 | Page 15 of 33
AG
ND
AGN
D
AGN
D
AGN
D
AGN
D
AGN
D
AGN
D
AGN
D
VOV
+V-
AD
A48
61
IN1+
IN1-
IN2+
IN2-
IN3+
IN3-
OU
T1
OU
T2
OU
T3
+VS -VS
PD3
PD2
PD1
-++ --+
AG
ND
AG
ND
AGN
D
AGN
DAG
ND
AG
ND
AG
ND
AGN
D
AGN
DAG
ND
AGN
D
AG
ND
RIN
+
RIN
-
GIN
+
GIN
-
BIN
+
RO
UT+
RO
UT-
GO
UT+
GO
UT-
BOU
T+
VS1+
VS2+
VS4+
VS3+
BOU
T-
SYNCLVL
BIN
-
VS4-
VS3-
VS2-
VS1-
OP
D
PAD
VSYN
C
HS
YNC
AD81
34A
CP
Z
+-+ -+ + -
+
x2
PBG
A-67
6_27
X27
BGR BGR
1.2
* 53.
6 / 1
83.6
= 0.
350
V
1.2V
Ban
dgap
= 0.
507
V5
* (4
99 /
4919
)
VER
TIC
AL S
YNC
HO
RIZ
ON
TAL
SYN
C
ID B
IT 1
ID B
IT 0
SYN
C R
ETU
RN
NC
(DD
C +
5V)
BLU
E SH
IELD
GR
EEN
SH
IELD
RE
D S
HIE
LD
GR
OU
ND
ID B
IT 2
BLU
E
GR
EEN
RED
SYN
C H
IGH
TR
AN
SIST
OR
IS O
N
V =
2.5
* (1
000
/ 798
0) -
2.5
= -2
.19
I = (5
- 0.
7) /
1000
= 4
.3 m
A
V= 4
.2 m
A * 1
K =
4.2
(No
Can
Do!
)
V =
~0V
(Tra
nsis
tor i
s Sa
tura
ted)
VI
SYN
C L
OW
TR
ANS
ISTO
R IS
OFF
AD81
34 J
umpe
r 1 &
2
AD81
47 J
umpe
r 2 &
3
AD
8134
Jum
per 1
& 2
AD
8147
Jum
per 2
& 3
5V S
uppl
y Ju
mpe
r 1 &
2
+- 2
.5V
Supp
ly J
umpe
r 2 &
3
5V S
uppl
y Ju
mpe
r 1 &
2
+- 2
.5V
Supp
ly J
umpe
r 2 &
3
+- 2
.5V
Supp
ly J
umpe
r 2 &
35V
Sup
ply
Jum
per 1
& 2
2.5
* (1
119
/ 553
9)=
0.50
5 V
NC
(ID
BIT
3 o
r DAT
A C
LOC
K)
V2 W3
W1
V1 V3 W2
CH
ANN
EL=
6
SKT1
B6_
FB
499
R33
6
R34
0
499
R6_
FB
G6_
FB
B6_F
B
B6_
INN
_A
G6_
INN
_A
R6_
INN
_A
R33
9
53.6
R38
130
53.6
R33
8
130
R39
R33
7
53.6
R40
130
B6_I
NN
_A
G6_
INN
_A
R6_
INN
_A
1 2 3
JMP3
5
321
JMP
34
1 2 3
JMP
33
1
2
3
JMP32
321
JMP3
1
1
2
3
2N39
06
Q14
3
2
1
Q13
2N39
06
4 3 22 23 15
7 6 9 10 12
8
11
24
17
13
18
16
21
14
5
2
1 PAD
2019
U7
1 10 11 12 13 14 152 3 4 5 6 7 8 9P8
B6_I
NP_
C
1KR38
1
R38
0
1K
100
R17
649
.9
R17
5
R37
9
620
R37
8
499
R37
74.
42K
R37
61K
R37
56.
98K
80.6
R43
C28
1000
0PF
C11
4
0.1U
F
0.1U
F
C11
3
1000
0PF
C27
R42
80.6
80.6
R41
6.98
KR
374
1KR37
3
R17
4
49.9
49.9
R17
3
R17
2
49.9
49.9
R17
1
R17
0
49.9
R16
910
0
100
R16
8
VPO
S
G6_
INP
_C
R6_
INN
_C
G6_
INN
_C
B6_I
NN
_C
VNEG
VNEG
VNE
G
R6_
INP
_C
VNEG
R6_
INP
_B
R6_
INN
_B
G6_
INP
_B
G6_
INN
_B
B6_I
NP
_B
VPO
S
B6_I
NN
_B
VNEG
B6_
INP
_A
G6_
INP_
A
R6_
INP_
A
5 6 12 13 10 9
7 14 8
4 11
3
2
1
U11
21
3A3ADR
280A
RT
C15
1000
0PF
C10
1
0.1U
F
0.1U
F
C10
0
1000
0PF
C14
0.1U
F
C99
1000
0PF
C13
VPO
SVP
OS
VNEG
R43
8
499
R6_
FB
G6_
FB
0.1U
F
C13
1
13649-011
Figure 11. Input 6
UG-890 AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide
Rev. 0 | Page 16 of 33
AGN
DAG
ND
AGN
D
AGN
D
AGN
D
AG
ND
AGN
D
AG
ND
VOV+
V-
ADA4
861
IN1+
IN1-
IN2+
IN2-
IN3+
IN3-
OU
T1
OU
T2
OU
T3
+VS -VS
PD3
PD2
PD1
-++ --+
AGN
D
AG
ND
AG
ND
AG
ND
AG
ND
AGN
D
AGN
DAG
ND
AGN
DA
GN
D
AGN
D
AGN
D
RIN
+
RIN
-
GIN
+
GIN
-
BIN
+
RO
UT+
RO
UT-
GO
UT+
GO
UT-
BOU
T+
VS1+
VS2+
VS4+
VS3+
BOU
T-
SYNCLVL
BIN
-
VS4-
VS3-
VS2-
VS1-
OPD PAD
VSYN
C
HSY
NC
AD81
34A
CP
Z
+-+ -+ + -
+
x2
PBG
A-6
76_2
7X27
BGR BGR
1.2
* 53.
6 / 1
83.6
= 0.
350
V
1.2V
Ban
dgap
= 0.
507
V5
* (49
9 / 4
919)
VER
TIC
AL
SYN
C
HO
RIZ
ON
TAL
SYN
C
ID B
IT 1
ID B
IT 0
SYN
C R
ETU
RN
NC
(DD
C +
5V)
BLU
E S
HIE
LD
GR
EEN
SH
IELD
RE
D S
HIE
LD
GR
OU
ND
ID B
IT 2
BLU
E
GR
EEN
RED
SYN
C H
IGH
TR
ANSI
STO
R IS
ON
V =
2.5
* (1
000
/ 798
0) -
2.5
= -2
.19
I = (5
- 0.
7) /
1000
= 4
.3 m
A
V=
4.2
mA
* 1K
= 4
.2 (N
o C
an D
o!)
V =
~0V
(Tra
nsis
tor i
s Sa
tura
ted)
V
I
SYN
C L
OW
TR
ANS
ISTO
R IS
OFF
AD
8134
Jum
per 1
& 2
AD
8147
Jum
per 2
& 3
AD81
34 J
umpe
r 1 &
2
AD81
47 J
umpe
r 2 &
3
5V S
uppl
y Ju
mpe
r 1 &
2+-
2.5
V Su
pply
Jum
per 2
& 3
5V S
uppl
y Ju
mpe
r 1 &
2+-
2.5
V Su
pply
Jum
per 2
& 3
+- 2
.5V
Supp
ly J
umpe
r 2 &
35V
Sup
ply
Jum
per 1
& 2
2.5
* (1
119
/ 553
9)=
0.50
5 V
NC
(ID
BIT
3 o
r DAT
A C
LOC
K)
R2
T3 T1R1
R3
T2
CH
ANN
EL=
7
SKT
1
R7_
FB
499
R35
0
R35
4
499
R7_
INN
_ A
G7_
INN
_A
B7_
INN
_A
B7_
FB
G7_
FB
R7_
FB
R35
3
53.6
R44
130
53.6
R35
2
130
R45
R35
1
53.6
R46
130
B7_I
NP_
A
B7_
INN
_A
G7_
INN
_A
R7_
INN
_A
1 2 3
JMP
40
321
JMP
39
1 2 3
JMP
38
1
2
3
JMP37
321
JMP3
6
1
2
3
2N39
06
Q16
3
2
1
Q15
2N39
06
4 3 22 23 15
7 6 9 10 12
8
11
24
17
13
18
16
21
14
5
2
1 PAD
2019
U8
1 10 11 12 13 14 152 3 4 5 6 7 8 9P9
B7_
INP_
B
R7_
INN
_B
R7_
INP_
B
G7_
INP
_A
1KR39
0
R38
9
1K
100
R18
549
.9
R18
4
R38
8
620
R38
7
499
R38
64.
42K
R38
51K
R38
46.
98K
80.6
R49
C30
1000
0PF
C11
6
0.1U
F
0.1U
F
C11
5
1000
0PF
C29
R48
80.6
80.6
R47
6.98
KR
383
1KR38
2
R18
3
49.9
49.9
R18
2
R18
1
49.9
49.9
R18
0
R17
9
49.9
R17
810
0
100
R17
7
VPO
S
G7_
INP_
C
R7_
INN
_C
G7_
INN
_C
B7_
INN
_C
VN
EG
VNEG
VNE
G
R7_
INP_
C
B7_
INP_
C
VNE
G
G7_
INP_
B
G7_
INN
_B
VPO
S
B7_
INN
_B
VNE
G
R7_
INP
_A
5 6 12 13 10 9
7
14
8
4 11
3
2
1
U12
21
3A4
ADR
280A
RT
C20
1000
0PF
C10
6
0.1U
F
0.1U
F
C10
5
1000
0PF
C19
0.1U
F
C10
4
1000
0PF
C18
VPO
SVP
OS
VNEG
R43
9
499
B7_
FB
G7_
FB
0.1U
F
C13
2
13649-012
Figure 12. Input 7
AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide UG-890
Rev. 0 | Page 17 of 33
AG
ND
AG
ND
AG
ND
AG
ND
PIN
SG
ND
PIN
SG
ND
PIN
SG
ND
PIN
SG
ND
PB
GA
-676
_27X
27
BGR BGR
PB
GA
-676
_27X
27
BGR BGR
PB
GA
-676
_27X
27
BGR BGR
PB
GA
-676
_27X
27
BGR BGR
B16
C17
A17
A16
C16
B17
SK
T1
CH
AN
NE
L=8
B7
C8
A8
A7
C7
B8
SK
T1
CH
AN
NE
L =
11
B11
C10
A10
A11
C11
B10
CH
AN
NE
L=10
SK
T1
B14
C13
A13
A14
C14
B13
CH
AN
NE
L =
9
SK
T1
1 2 3 4 5 6 7 8 9 10P13
10987654321P12
10987654321P11
1 2 3 4 5 6 7 8 9 10P10
B8_
INN
B8_
INP
G8_
INN
G8_
INP
R8_
INN
R8_
INP
100
R18
8
100
R18
6
R18
710
0
R9_
INN
R9_
INP
B9_
INN
G9_
INP
B9_
INP
100
R19
1
R19
010
0
R18
910
0
G9_
INN
G11
_IN
N
100
R19
7
100
R19
6
R19
510
0
B11
_IN
P
G11
_IN
P
B11
_IN
N
R11
_IN
P
R11
_IN
NR
10_I
NN
R10
_IN
P
B10
_IN
N
G10
_IN
P
B10
_IN
P
100
R19
4
R19
310
0
R19
210
0
G10
_IN
N
13649-013
Figure 13. Input 8 to Input 11
UG-890 AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide
Rev. 0 | Page 18 of 33
AGN
DAG
ND
AG
ND
AG
ND
AG
ND
AGN
D
PBG
A-6
76_2
7X27
BGR BGR
PBG
A-6
76_2
7X27
BGR BGR
B4
C5
A5
A4
C4
B5
SKT1
CH
ANN
EL=
12
B13_
INN
B13_
INP
G13
_IN
N
G13
_IN
P
R13
_IN
N
R13
_IN
P
B12
_IN
N
B12
_IN
P
G12
_IN
N
G12
_IN
P
R12
_IN
N
R12
_IN
P
D2
E3 E1D1
D3
E2
CH
ANN
EL=
13
SKT
1
J19
RO
S32
K24
3-40
ME3
RO
S32
K24
3-40
ME3
J18
J17
RO
S32
K24
3-40
ME3
RO
S32
K24
3-40
ME3
J16
J15
RO
S32
K24
3-40
ME3
RO
S32
K24
3-40
ME3
J14
RO
S32K
243-
40M
E3
J13
J12
RO
S32K
243-
40M
E3
RO
S32K
243-
40M
E3
J11
J10
RO
S32K
243-
40M
E3
RO
S32K
243-
40M
E3
J9J8
RO
S32K
243-
40M
E3
49.9
R20
9R
208
49.9
R20
749
.949
.9R
206
49.9
R20
5
49.9
R20
449
.9R
203
R20
249
.9
R20
149
.9
49.9
R20
0
R19
949
.9
R19
849
.9
13649-014
Figure 14. Input 12 to Input 13
AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide UG-890
Rev. 0 | Page 19 of 33
AGN
DAG
ND
AG
ND
AG
ND
AG
ND
AG
ND
****
GN
DPI
NS
****
GN
DPI
NS
PBG
A-67
6_27
X27
BGR BGR
PBG
A-6
76_2
7X27
BGR BGRPI
N S
WAP
PIN
SW
AP
PIN
SW
AP
PIN
SW
AP
PIN
SW
AP
PIN
SW
AP
PIN
SW
AP
PIN
SW
AP
J2H3
H1
J1J3H2
SKT
1
CH
ANN
EL=
14
B15_
INN
B15_
INP
G15
_IN
N
G15
_IN
P
R15
_IN
N
R15
_IN
P
B14
_IN
N
B14
_IN
P
G14
_IN
N
G14
_IN
P
R14
_IN
N
R14
_IN
P
L2 M3
M1
L1 L3 M2
CH
ANN
EL=
15
SKT1
7812 252423222120191817161514131210 1194 5 63P15
3 654 9 1110 12 13 14 15 16 17 18 19 20 21 22 23 24 252 1 8 7P14
49.9
R21
3
R21
249
.949
.9R
211
R21
049
.9
49.9
R21
5R
214
49.9
49.9
R21
8R
217
49.9
R21
649
.9
49.9
R22
149
.9R
220
R21
949
.9
13649-015
Figure 15. Input 14 to Input 15
UG-890 AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide
Rev. 0 | Page 20 of 33
AGN
DA
GN
D
AG
ND
AGN
D
AG
ND
AG
ND
AG
ND
AG
ND
AGN
D
AGN
D
PBG
A-67
6_27
X27
BG
H
R
V
BGR
AGN
D
AD80
03A
CP
Z
OU
T3
OU
T2
OU
T1IN
1+
IN1-
FB1
IN2-
FB2
IN3-
FB3
IN2+
IN3+
VS2-
VS3-
VS1+
VS2+
VS3+
VS1-
PAD
PD1
PD2
PD3
NC1
NC2
NC3
-++ --+
HO
RIZ
ON
TAL
SYN
C
NC
(DD
C +
5V)
VER
TIC
AL
SYN
C
ID B
IT 1
GR
EEN
SH
IELD
SYN
C R
ETU
RN
ID B
IT 0
RE
D
GR
EEN
BLU
E
ID B
IT 2
GR
OU
ND
RE
D S
HIE
LD
BLU
E SH
IELD
1/2
of V
CM
CM
(See
Pag
e 2)
12108
4 3 2 21 20 16 1722 15
24
13
1
19
18
6
PAD
5
23
14
7
9
11
U13
VN
EG
H0_
OU
T_B
AE2
0
AD
19
AC
19
AF1
9
AC
20
AF2
0
AD
20
AE1
9
SKT1
CH
ANN
EL=
0
G0_
OU
TP_B
R0_
OU
TP_B
R0_
OU
TN_B
V0_
OU
T_A
H0_
OU
T_A
G0_
OU
TN_A
G0_
OU
TP_A
R0_
OU
TN_A
R0_
OU
TP_A
V0_O
UT_
B
B0_
OU
TP_D
G0_
OU
TP_D
G0_
OU
TP_C
R0_
OU
TP_C
98765432 1514131211101
P16
VC
MB
0VC
MG
0V
CM
R0
R39
915
030
0R
398
R39
730
0
R0_
OU
TP_D
B0_
OU
TP_C
B0_O
UTN
_B
G0_
OU
TN_B
B0_
OU
TN_A
R22
2
75
499
R62
R61
499
75R22
3
R22
5
7575R22
4
75R22
7
R22
6
75
R60 0
24.9
R39
4
B0_O
UTP
_B
R39
3
300
75R55
75R5875R56
VCM
B0
VCM
G0
VCM
R0
0R59
R39
1
300
R57 75
C11
8
0.1U
F
C32
1000
0PF
1000
0PF
C31
0.1U
F
C11
7
R54
7575R
53
75R52
R51
7575R
50
B0_
OU
TP_A
300
R39
2
R39
5
24.9
24.9
R39
6
VNEG
VPO
SVP
OS
VNEG
300
R40
2
R40
130
015
0R
400
VPO
S
VNE
GR40
530
0
300
R40
4R
403
150
VPO
S
13649-016
Figure 16. Output 0 and 1/2 of VCM Circuit
AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide UG-890
Rev. 0 | Page 21 of 33
AGN
DA
GN
D
AGN
DA
GN
D
AGN
D
AGN
D
AG
ND
AGN
D
AGN
D
AG
ND
PBG
A-67
6_27
X27
BG
H
R
V
BGR
AG
ND
AD80
03AC
PZ
OU
T3
OU
T2
OU
T1IN
1+
IN1-
FB1
IN2-
FB2
IN3-
FB3
IN2+
IN3+
VS2-VS3-
VS1+VS2+VS3+
VS1-
PAD
PD1PD2PD3
NC1NC2NC3
-++ --+
HO
RIZ
ON
TAL
SYN
C
NC
(DD
C +
5V)
VER
TIC
AL S
YN
C
ID B
IT 1
GR
EEN
SH
IELD
SYN
C R
ETU
RN
ID B
IT 0
RE
DG
REE
NBL
UE
ID B
IT 2
GR
OU
ND
RE
D S
HIE
LD
BLU
E SH
IELD
1/2
of V
CM
CM
(See
Pag
e 2)
12108
4 3 2 21 20 16 1722 15
2413
11918
6
PAD
52314
79
11
U14
VPO
S
0.1U
F
C11
9
VNEG
H1_
OU
T_B
AE2
3
AD
22
AC
22
AF2
2
AC
23
AF2
3
AD
23
AE2
2
SKT1
CH
ANN
EL=
1
G1_
OU
TP_B
R1_
OU
TN_B
R1_
OU
TP_B
V1_
OU
T_A
H1_
OU
T_A
B1_
OU
TN_A
B1_
OU
TP_A
G1_
OU
TN_A
G1_
OU
TP_A
R1_
OU
TN_A
R1_
OU
TP_A
98765432 1514131211101P1
7
VCM
R1
B1_
OU
TP_D
G1_
OU
TP_D
R1_
OU
TP_D
B1_
OU
TP_C
G1_
OU
TP_C
R1_
OU
TP_C
VC
MR
1
V1_O
UT_
B
B1_O
UTN
_BB1
_OU
TP_B
G1_
OU
TN_B
VC
MB
1VC
MG
1
R41
415
030
0R
413
R41
230
0
R22
8
75
499
R75
R74
499
75R22
9
R23
1
7575
R23
0
75R23
3
R23
2
75
R73 0
24.9
R40
9
R40
8
300
75R68
75R7175R69
VC
MB
1
VC
MG
1
0R72
R40
6
300
R70 75
C12
0
0.1U
F
C34
1000
0PF
1000
0PF
C33
R67
7575R
66
75R65
R64
7575R
63
300
R40
7
R41
0
24.9
24.9
R41
1
VNEG
VPO
SV
POS
VN
EG30
0R
417
R41
630
015
0R
415
VPO
S
VN
EGR
420
300
300
R41
9R
418
150
13649-017
Figure 17. Output 1 and 2/2 of VCM Circuit
UG-890 AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide
Rev. 0 | Page 22 of 33
AGN
DAG
ND
AG
ND
AGN
D
AG
ND
AGN
D
AGN
D
AGN
D
AG
ND
AGN
D
PBG
A-6
76_2
7X27
BG
H
R
V
BGR
AGN
D
AD
8003
ACPZ
OU
T3
OU
T2
OU
T1
IN1+
IN1-
FB1
IN2-
FB2
IN3-
FB3
IN2+
IN3+
VS2-VS3-
VS1+VS2+VS3+
VS1-
PAD
PD1PD2PD3
NC1NC2NC3
-++ --+
HO
RIZ
ON
TAL
SYN
C
NC
(DD
C +
5V)
VER
TIC
AL
SYN
C
ID B
IT 1
GR
EEN
SH
IELD
SYN
C R
ETU
RN
ID B
IT 0
RED
GR
EEN
BLU
EID
BIT
2G
RO
UN
DR
ED S
HIE
LD
BLU
E S
HIE
LD
1/2
of V
CM
CM
(See
Pag
e 2)
121084 3 2 21 20 16 1722 15
2413
11918
6
PAD
52314
79
11
U15
H2_
OU
T_B
W25
Y24
Y23
Y26
W23
W26
W24
Y25
SKT
1
CH
ANN
EL=2
98765432 1514131211101P
18
VC
MB
2V
CM
R2
B2_O
UTP
_DG
2_O
UTP
_DR
2_O
UTP
_D
VC
MB
2
VC
MG
2
VC
MR
2
V2_O
UT_
B
B2_O
UTN
_B
G2_
OU
TN_B
R2_
OU
TN_B
V2_
OU
T_A
H2_
OU
T_A
B2_
OU
TN_A
B2_
OU
TP_A
G2_
OU
TN_A
G2_
OU
TP_A
R2_
OU
TN_A
R2_
OU
TP_A
VCM
G2
R42
915
030
0R
428
R42
730
0
R23
4
75
499
R88
R87
499
75
R23
5
R23
7
7575
R23
6
75
R23
9
R23
8
75
R86 0
24.9
R42
4
R42
3
300
75R81
75R8475R82
0
R85
R42
1
300
R83 75
C12
2
0.1U
F
C36
1000
0PF
1000
0PF
C35
0.1U
F
C12
1
R80
7575R
79
75R78
R77
7575R
76
300
R42
2
R42
5
24.9
24.9
R42
6
VNEG
VPO
SVP
OS
VNEG
300
R4 3
2
R43
130
015
0R
430
VPO
S
VN
EGR
435
300
R43
4R
433
150
R2_
OU
TP_C
G2_
OU
TP_C
B2_O
UTP
_C
B2_O
UTP
_B
G2_
OU
TP_B
R2_
OU
TP_B
VNE
G
VPO
S
13649-018
Figure 18. Output 2
AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide UG-890
Rev. 0 | Page 23 of 33
AG
ND
AG
ND
AG
ND
AG
ND
PB
GA
-676
_27X
27
BG
H
R
V
BGR
BLU
E S
HIE
LD
RE
D S
HIE
LD
GR
OU
ND
ID B
IT 2
BLU
E
GR
EE
N
RE
D
ID B
IT 0
SY
NC
RE
TUR
N
GR
EE
N S
HIE
LD
ID B
IT 1
VE
RTI
CA
L S
YN
C
NC
(DD
C +
5V)
HO
RIZ
ON
TAL
SY
NC
NC
(ID
BIT
3 o
r DA
TA C
LOC
K)
T25
U24
U23
U26
T23
T26
T24
U25
SK
T1
CH
AN
NE
L=3
1 10 11 12 13 14 152 3 4 5 6 7 8 9
P19
R3_
OU
TN_B
G3_
OU
TN_B
B3_
OU
TN_B
R3_
OU
TP_B
G3_
OU
TP_B
B3_
OU
TP_B
R93 0R
241
75
H3_
OU
T_B
V3_
OU
T_B
B3_
OU
TN_A
G3_
OU
TN_A
R3_
OU
TN_A
V3_
OU
T_A
H3_
OU
T_A
B3_
OU
TP_A
G3_
OU
TP_A
R3_
OU
TP_A
R24
0
75
R91
75R
9075
75R89
499
R95
R94
499
0R92
75R24
3
75R24
2
R24
5
75R
244
75
13649-019
Figure 19. Output 3
UG-890 AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide
Rev. 0 | Page 24 of 33
AG
ND
AG
ND
AG
ND
AG
ND
PB
GA
-676
_27X
27
BG
H
R
V
BGR
BLU
E S
HIE
LD
RE
D S
HIE
LD
GR
OU
ND
ID B
IT 2
BLU
E
GR
EE
N
RE
D
ID B
IT 0
SY
NC
RE
TUR
N
GR
EE
N S
HIE
LD
ID B
IT 1
VE
RTI
CA
L S
YN
C
NC
(DD
C +
5V)
HO
RIZ
ON
TAL
SY
NC
NC
(ID
BIT
3 o
r DA
TA C
LOC
K)
N25
P24
P23
P26
N23
N26
N24
P25
SK
T1
CH
AN
NE
L=4
1 10 11 12 13 14 152 3 4 5 6 7 8 9
P20
V4_
OU
T_B
H4_
OU
T_B
B4_
OU
TN_B
B4_
OU
TP_B
G4_
OU
TN_B
G4_
OU
TP_B
R4_
OU
TN_B
R4_
OU
TP_B
V4_
OU
T_A
H4_
OU
T_A
B4_
OU
TN_A
B4_
OU
TP_A
G4_
OU
TN_A
G4_
OU
TP_A
R4_
OU
TN_A
R4_
OU
TP_A
R10
0
0
R24
7
75R
246
75
R98
75R
9775
75R96
499
R10
2R
101
499
0R99
75R24
9
75R24
8
R25
1
75R
250
75
13649-020
Figure 20. Output 4
AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide UG-890
Rev. 0 | Page 25 of 33
AG
ND
AG
ND
AG
ND
AG
ND
PB
GA
-676
_27X
27
BG
H
R
V
BGR
BLU
E S
HIE
LD
RE
D S
HIE
LD
GR
OU
ND
ID B
IT 2
BLU
E
GR
EE
N
RE
D
ID B
IT 0
SY
NC
RE
TUR
N
GR
EE
N S
HIE
LD
ID B
IT 1
VE
RTI
CA
L S
YN
C
NC
(DD
C +
5V)
HO
RIZ
ON
TAL
SY
NC
NC
(ID
BIT
3 o
r DA
TA C
LOC
K)
K25
L24
L23
L26
K23
K26
K24
L25
SK
T1
CH
AN
NE
L=5
1 10 11 12 13 14 152 3 4 5 6 7 8 9
P21
V5_
OU
T_B
H5_
OU
T_B
B5_
OU
TN_B
B5_
OU
TP_B
G5_
OU
TN_B
G5_
OU
TP_B
R5_
OU
TN_B
R5_
OU
TP_B
V5_
OU
T_A
H5_
OU
T_A
B5_
OU
TN_A
B5_
OU
TP_A
G5_
OU
TN_A
G5_
OU
TP_A
R5_
OU
TN_A
R5_
OU
TP_A
R10
7
0
R25
3
75R
252
75
R10
575
R10
475
75R10
349
9R
109
R10
849
9
0
R10
6
75R25
5
75R25
4
R25
7
75R
256
75
13649-121
Figure 21. Output 5
UG-890 AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide
Rev. 0 | Page 26 of 33
AGND
PINSGND
PBGA-676_27X27
B
G
H
R
V
B
G
R
G25
H24
H23
H26
G23
G26
G24
H25
SKT1
CHANNEL =6
10
9
8
7
6
5
4
3
2
1
P22
B6_OUTN_A B6_OUTN_B
B6_OUTP_B
G6_OUTN_B
G6_OUTP_B
R6_OUTN_B
R6_OUTP_B
B6_OUTP_A
G6_OUTN_A
G6_OUTP_A
R6_OUTN_A
R6_OUTP_A
R258
49.9
49.9
R263
49.9
R260
R262
49.9
R261
49.9
49.9
R259
1364
9-12
2
Figure 22. Output 6
AGND
PBGA-676_27X27
B
G
H
R
V
B
G
R B23
C22
A22
D22
A23
D23
C23
B22
CHANNEL=7
SKT1
J27
ROS32K243-40ME3
ROS32K243-40ME3
J26
J25
ROS32K243-40ME3
ROS32K243-40ME3
J24
J23
ROS32K243-40ME3
ROS32K243-40ME3
J22
J21
ROS32K243-40ME3
ROS32K243-40ME3
J20
V7_OUT_B
H7_OUT_B
B7_OUTN_B
B7_OUTP_B
G7_OUTN_B
R7_OUTN_B
R7_OUTP_B
R110
442
R266
49.9
R269
49.9
49.9
R26849.9
R267
R265
49.9
49.9
R264
442
R111V7_OUT_A
H7_OUT_A
B7_OUTN_A
B7_OUTP_A
G7_OUTN_A
G7_OUTP_A
R7_OUTN_A
R7_OUTP_A
G7_OUTP_B
1364
9-12
3
Figure 23. Output 7
AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide UG-890
Rev. 0 | Page 27 of 33
1364
9-12
2
AGND
*
*
GNDPINS
*
*
PBGA-676_27X27
B
G
H
R
V
B
G
R
PIN SWAP
PIN SWAP
PIN SWAP
PIN SWAP
B19
C20
D20
A20
D19
A19
C19
B20
SKT1
CHANNEL=8
9
11
10
12
13
14
15
16
17
18
19
20
21
22
23
24
25
1
2
3
4
6
5
7
8
P23
R272
49.9
V8_OUT_B
V8_OUT_A
H8_OUT_A
H8_OUT_B
442
R112
R113
442
R8_OUTN_B
G8_OUTP_B
G8_OUTN_B
B8_OUTN_A
B8_OUTP_B
B8_OUTN_BB8_OUTP_A
G8_OUTN_A
G8_OUTP_A
R8_OUTN_A
R275
49.9
49.9
R27449.9
R273
49.9
R271
R270
49.9
R8_OUTP_A
R8_OUTP_B
Figure 24. Output 8
UG-890 AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide
Rev. 0 | Page 28 of 33
AGND
AGND
AGND
AGND
AGND
AGND
GNDPINS
GNDPINS
25
24
23
22
21
20
19
18
17
16
15
14
13
12
10
11
9
4
5
6
7
8
3
2
1
LEODE09STUCD1
P25
1
2
3
8
7
6
5
4
9
11
10
12
13
14
15
16
17
18
19
20
21
22
23
24
25
P24
LEODE09STUCD1
J31
ROS32K243-40ME3
ROS32K243-40ME3
J30
ROS32K243-40ME3
J29
J28
ROS32K243-40ME3
THRU_UHD_3N
THRU_UHD_3P
THRU_UHD_2N
THRU_UHD_2P
THRU_UHD_1N
THRU_UHD_1P
THRU_SMA_1N
THRU_SMA_1P
1364
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Figure 25. Network Analyzer Calibration Paths
AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide UG-890
Rev. 0 | Page 29 of 33
AGND
AGND
AGND
AGND
AD8175_SOCKETAD8175 DIFFERENTIAL CROSSPOINT SWITCHIO
PBGA-676_27X27
VnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVneg
Vneg
Vneg
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Vneg Vneg
VnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVneg
VnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVnegVneg
IOAD8175 DIFFERENTIAL CROSSPOINT SWITCHAD8175_SOCKET
PBGA-676_27X27
VposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVpos
Vpos
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Vpos Vpos
VposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVpos
VposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVposVpos
AD8175PositivePowerPins
AD8175NegativePowerPins
A6A12A18B6
B12B18C6
C12C18
D4D5D6D7D8D9
D10D11D12D13D14D15D16D17D18D21
E4E5
E19E20E21E22E23
F1F2F3F4F5F6F7F8F9
F10F11F12F13F14F15F16F17F18F19F20F21F22F23F24F25F26G1G2G3G4G5G6
G7
G8
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G10
G11
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G13
G14
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G22 H
4H
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22 J4 J5 J6 J7 J21
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J23 K4 K5 K6 K7 K21
K22 L4 L5 L6 L7 L21
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M26 N1
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P2P3P4P6P7P21P22R4R6R7R21R22R23T4T5T6T7T21T22U4U5U6U7U21U22V4V5V6V7V21V22V23V24V25V26W4W5W6W7W21W22Y1Y2Y3Y4Y5Y6Y7Y8Y9Y10Y11Y12Y13Y14Y15Y16Y17Y18Y19Y20Y21Y22AA1
AA2AA3AA4AA5AA6AA7AA8AA9
AA10AA11AA12AA13AA14AA15AA16AA17AA18AA19AA20AA21AA22AA23
AB4AB5
AB19AB20AB21AB22AB23AC
4AC
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21AD
9AD
15AD
21AE9
AE15AE21
AF9AF15AF21
SKT1
A1A2A3A9
A15A21A24A25A26B1B2B3B9
B15B21B24B25B26C1C2C3C9
C15C21C24C25C26D24D25D26E24E25E26H8H9
H10H11H12H13H14H15H16H17H18H19H20
J8J9
J10J11J12J13J14J15J16J17J18J19J20J24J25J26K1K2
K3 K8 K9 K10
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K20
L8 L9 L10
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P8 P9 P10
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P15P16P17P18P19P20R8R9R10R11R12R13R14R15R16R17R18R19R20R24R25R26T8T9T10T11T12T13T14T15T16T17T18T19T20U1U2U3U8U9U10U11U12U13U14U15U16U17U18U19U20V8V9V10V11V12V13V14V15V16V17V18V19V20
W8
W9
W10
W11
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W15
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W20
AA24AA25AA26AB24AB25AB26AC
24AC
25AC
26AD
1AD
2AD
3AD
6AD
12AD
18AD
24AD
25AD
26AE1AE2AE3AE6
AE12AE18AE24AE25AE26
AF1AF2AF3AF6
AF12AF18AF24AF25AF26
SKT1
VNEG
VNEG
VPOS
.1UF
C56 C55
.1UF .1UF
C54 C53
.1UF .1UF
C52 C51
.1UF .1UF
C50 C49
.1UF .01UF
C78C77
.01UF.01UF
C76C75
.01UF .01UF
C74 C73
.01UF .01UF
C72 C71
.01UF
C70
.01UF .01UF
C69
.1UF
C48C47
.1UF
VPOS
.1UF
C66 C65
.1UF.1UF
C64C63
.1UF.1UF
C62C61
.1UF.1UF
C60C59
.1UF.1UF
C58C57
.1UF
C88
.01UF.01UF
C87
.01UF
C86C85
.01UF.01UF
C84C83
.01UF.01UF
C82 C81
.01UF .01UF
C80 C79
.01UF
1UF
C46C45
1UF 1UF
C44 C43
1UF
C42
1UF
C128
68UF68UF
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C126
68UF
1UF
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1UF
C40C39
1UF1UF
C38 C37
1UF
68UF
C125
VNEG
VPOS
1364
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Figure 26. VPOS and VNEG
UG-890 AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide
Rev. 0 | Page 30 of 33
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Figure 27. AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ Evaluation Board, Top View
1364
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Figure 28. AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ Evaluation Board, Bottom View
AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide UG-890
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ORDERING INFORMATION BILL OF MATERIALS
Table 2. Item Reference Designator Qty Description Manufacturer Part Number 1 A1 to A4 4 ADR280ART-REEL7, SOT-23, SNWD Analog Devices, Inc. ADR280ARTZ-REEL7 2 C1, C2, C37 to C46 12 Capacitor, ceramic, chip, 1 μF, 6.3 V, 10%, 0603, X5R Panasonic ECJ-1VBOJ105K 3 C3 to C36 34 Capacitor, ceramic, chip, 10000 pF, 50 V, 0603, X7R
(0.01 μF) Yageo CC0603KRX7R9BB103
4 C47 to C66 20 Capacitor, ceramic, chip, 0.1 μF, 25 V, 10%, 0508, X7R Panasonic ECY-29RE104KV 5 C67 to C88 22 Capacitor, ceramic, chip, 0.01 μF, 16 V, 0402 (10,000 pF) Panasonic ECJ-0EBIC103K 6 C89 to C122, C129 to
C132 38 Capacitor, ceramic, chip, 0.01 μF, 50 V, 10%, 0805, X7R Panasonic ECJ-2YB1H104K
7 C123 to C128 6 Capacitor, chip, tantalum, 68 μF, 20 V, 7343, 10% Kemet T495X686K020ATE150 8 FID1 to FID6 6 50 mil, pad Do not include 9 FID7 to FID9 3 40 mil pad Do not include 10 J1 1 Connector, banana jack, yellow Johnson/Emerson 108-0907-001 11 J2, J4, J6 3 Connector, banana jack, green Johnson/Emerson 108-0904-001 12 J3 1 Connector, banana jack, red Johnson/Emerson 108-0902-001 13 J5 1 Connector, banana jack, black Johnson/Emerson 108-0903-001 14 J7 1 Connector, SMA, female, PC mount Pasternack
Enterprise PE4117
15 J8 to J31 24 Connector, SMA, right angle jack Rosenberger of North America
32K243-40ME3
16 JMP1 to JMP40 40 Socket, header, 3-pin FCI 69190-403HLF 17 P1 1 Connector, 34-pin, straight header 3M N2534-6002RB 18 P2 to P9 8 Connector, 15-pin, right angle, D plug (HD) Tyco/AMP 5749767-1 19 P10 to P13, P22 5 CAT5, RJ45, jack Do not include 20 P14, P15, P23 to P25 5 Connector, 8 position, UHD, header W. L. Gore &
Associates, Inc. HFN1158-G-KES1
21 P16 to P21 6 Connector, DB, 15-pin, right angle, D receptacle Norcomp 181-015-213R171 22 Q1 to Q16 16 Transistor, PNP, low, 2N3906G TO92 On Semi 2N3906G 23 R1, R110 to R113 5 Resistor, chip, 1%, 1/10 W, 0603, 442 Ω Panasonic ERJ-3EKF4420V 24 R2 to R4, R10 to R12,
R16 to R18, R22 to R24, R26 to R28, R35 to R37, R41 to R43, R47 to R49
24 Resistor, chip, 1/10 W, 0603, 80.6 Ω Panasonic ERJ-3EKF80R6V
25 R5 to R9, R13 to R15, R19 to R21, R25
12 Resistor, chip, 1%, 1/10 W, 0603, 37.4 Ω Yageo RC0603FR-0737R4L
26 R29 to R34 12 Resistor, chip, 1%, 1/10 W, 0603, 130 Ω Panasonic ERJ-3EKF1300V 27 R50 to R58, R63 to R71,
R76 to R84, R89 to R91, R96 to R98, R103 to R105
36 Resistor, chip, 1%, 1/10 W, 0603, 75 Ω Panasonic ERJ-3EKF75R0V, full reel
28 R59, R60, R72, R73, R85, R86, R92, R93, R99, R100, R106, R107
12 Resistor, chip, 5%, 1/10 W, 0603, 0 Ω Panasonic ERJ-3GEY0R00V
29 R61, R62, R74, R75, R87, R88, R94, R95, R101, R102, R108, R109
24 Resistor, chip, 1%, 1/10 W, 0603, 499 Ω Panasonic ERJ-3EKF4990V
30 R114 to R119, R125 to R130, R134 to R139, R143 to R148, R152 to R157, R161 to R166, R170 to R175, R179 to R184, R198 to R221, R158 to R160
90 Resistor, chip, 1%, 1/16 W, 0402, 49.9 Ω Panasonic ERJ-2RKF49R9X, full reel
UG-890 AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide
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Item Reference Designator Qty Description Manufacturer Part Number 31 R120 to R124, R131 to
R133, R140 to R142, R149 to R151, R158 to R160, R167 to R169, R176 to R178, R185 to R197
36 Resistor, chip, 5%, 1/16 W, 0402, 100 Ω Panasonic ERJ-2GEJ101X, full reel
32 R222 to R257 36 Resistor, chip, 1%, 1/16 W, 0402, 75 Ω Panasonic ERJ-2RKF75R0X, full reel
33 R276 to R292 17 Resistor, chip, 1%, 1/8 W, 0805, 10 kΩ Panasonic ERJ-6ENF1002V 34 R334, R335, R341, R344,
R348, R349, R355, R358, R362 to R364, R367, R293 to R299, R301, R302, R304, R313, R316, R320, R321, R327, R330
38 Resistor, chip, 1%, 1/8 W, 0805, 1 kΩ Panasonic ERJ-6ENF1001V, full reel
35 R300, R317, R331, R345, R359, R368, R377, R386
8 Resistor, chip, 1%, 1/8 W, 0805, 4.42 kΩ Panasonic ERJ-6ENF4421V
36 R303, R305, R314, R315, R328, R329, R342, R343, R356, R357, R365, R366, R374, R375, R383, R384
16 Resistor, chip, 1%, 1/8 W, 0805, 6.98 kΩ Panasonic ERJ-6ENF6981V
37 R306, R318, R332, R346, R360, R369, R378, R387
8 Resistor, chip, 1%, 1/8 W, 0805, 499 Ω Panasonic ERJ-6ENF4990V
38 R307, R319, R333, R347, R361, R370, R379, R388
8 Resistor, chip, 0.1%, 1/10 W, 0805, 620 Ω Panasonic ERA-6YEB621V
39 R309 to R311, R323 to R325, R337 to R339, R351 to R353
12 Resistor, chip, 1%, 1/10 W, 0603, 53.6 Ω Panasonic ERJ-6EKF53R6V
40 R391 to R393, R397, R398, R401, R402, R404 to R408, R412, R413, R416, R417, R419 to R423, R427, R428, R431, R432, R434, R435
27 Resistor, chip, 5%, 1/8 W, 0805, 300 Ω Panasonic ERJ-6GEYJ301, full reel
41 R394 to R396, R409 to R411, R424 to R426
9 Resistor, chip, 1%, 1/8 W, 0805, 24.9 Ω Panasonic ERJ-6ENF24R9V
42 R399, R400, R403, R414, R415, R418, R429, R430, R433
9 Resistor, chip, 1%, 1/8 W, 0805, 150 Ω Panasonic ERJ-6ENF1500V
43 SKT1 1 AD8175 differential crosspoint switch matrix Analog Devices, Inc. Do not include 44 TP1 1 Test point, yellow Component Corp TP-104-01-04 45 TP2 1 Test point, blue Component Corp TP-104-01-06 46 TP3 1 Test point, white Component Corp TP-104-01-09 47 TP4 1 Test point, green Component Corp TP-104-01-05 48 U1 to U8 8 LFCSP-24, AD8147ACPZ-REEL7 Analog Devices, Inc. AD8147ACPZ-REEL7 49 U9 to U12 4 ADA4861, IC, triple, 730 MHz, op amp Analog Devices, Inc. ADA4861-3YRZ 50 U13 to U15 3 AD8003ACPZ, IC, triple, 1.5 GHz, op amp Analog Devices, Inc. AD8003ACPZ-REEL7
AD8175-EVALZ/AD8176-EVALZ/AD8177-EVALZ/AD8178-EVALZ User Guide UG-890
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NOTES
ESD Caution ESD (electrostatic discharge) sensitive device. Charged devices and circuit boards can discharge without detection. Although this product features patented or proprietary protection circuitry, damage may occur on devices subjected to high energy ESD. Therefore, proper ESD precautions should be taken to avoid performance degradation or loss of functionality.
Legal Terms and Conditions By using the evaluation board discussed herein (together with any tools, components documentation or support materials, the “Evaluation Board”), you are agreeing to be bound by the terms and conditions set forth below (“Agreement”) unless you have purchased the Evaluation Board, in which case the Analog Devices Standard Terms and Conditions of Sale shall govern. Do not use the Evaluation Board until you have read and agreed to the Agreement. Your use of the Evaluation Board shall signify your acceptance of the Agreement. This Agreement is made by and between you (“Customer”) and Analog Devices, Inc. (“ADI”), with its principal place of business at One Technology Way, Norwood, MA 02062, USA. Subject to the terms and conditions of the Agreement, ADI hereby grants to Customer a free, limited, personal, temporary, non-exclusive, non-sublicensable, non-transferable license to use the Evaluation Board FOR EVALUATION PURPOSES ONLY. Customer understands and agrees that the Evaluation Board is provided for the sole and exclusive purpose referenced above, and agrees not to use the Evaluation Board for any other purpose. Furthermore, the license granted is expressly made subject to the following additional limitations: Customer shall not (i) rent, lease, display, sell, transfer, assign, sublicense, or distribute the Evaluation Board; and (ii) permit any Third Party to access the Evaluation Board. As used herein, the term “Third Party” includes any entity other than ADI, Customer, their employees, affiliates and in-house consultants. The Evaluation Board is NOT sold to Customer; all rights not expressly granted herein, including ownership of the Evaluation Board, are reserved by ADI. CONFIDENTIALITY. This Agreement and the Evaluation Board shall all be considered the confidential and proprietary information of ADI. Customer may not disclose or transfer any portion of the Evaluation Board to any other party for any reason. Upon discontinuation of use of the Evaluation Board or termination of this Agreement, Customer agrees to promptly return the Evaluation Board to ADI. ADDITIONAL RESTRICTIONS. Customer may not disassemble, decompile or reverse engineer chips on the Evaluation Board. Customer shall inform ADI of any occurred damages or any modifications or alterations it makes to the Evaluation Board, including but not limited to soldering or any other activity that affects the material content of the Evaluation Board. Modifications to the Evaluation Board must comply with applicable law, including but not limited to the RoHS Directive. TERMINATION. ADI may terminate this Agreement at any time upon giving written notice to Customer. Customer agrees to return to ADI the Evaluation Board at that time. LIMITATION OF LIABILITY. THE EVALUATION BOARD PROVIDED HEREUNDER IS PROVIDED “AS IS” AND ADI MAKES NO WARRANTIES OR REPRESENTATIONS OF ANY KIND WITH RESPECT TO IT. ADI SPECIFICALLY DISCLAIMS ANY REPRESENTATIONS, ENDORSEMENTS, GUARANTEES, OR WARRANTIES, EXPRESS OR IMPLIED, RELATED TO THE EVALUATION BOARD INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTY OF MERCHANTABILITY, TITLE, FITNESS FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT OF INTELLECTUAL PROPERTY RIGHTS. IN NO EVENT WILL ADI AND ITS LICENSORS BE LIABLE FOR ANY INCIDENTAL, SPECIAL, INDIRECT, OR CONSEQUENTIAL DAMAGES RESULTING FROM CUSTOMER’S POSSESSION OR USE OF THE EVALUATION BOARD, INCLUDING BUT NOT LIMITED TO LOST PROFITS, DELAY COSTS, LABOR COSTS OR LOSS OF GOODWILL. ADI’S TOTAL LIABILITY FROM ANY AND ALL CAUSES SHALL BE LIMITED TO THE AMOUNT OF ONE HUNDRED US DOLLARS ($100.00). EXPORT. Customer agrees that it will not directly or indirectly export the Evaluation Board to another country, and that it will comply with all applicable United States federal laws and regulations relating to exports. GOVERNING LAW. This Agreement shall be governed by and construed in accordance with the substantive laws of the Commonwealth of Massachusetts (excluding conflict of law rules). Any legal action regarding this Agreement will be heard in the state or federal courts having jurisdiction in Suffolk County, Massachusetts, and Customer hereby submits to the personal jurisdiction and venue of such courts. The United Nations Convention on Contracts for the International Sale of Goods shall not apply to this Agreement and is expressly disclaimed.
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