EV-ADE9000SHIELDZ User Guide
UG-1170
One Technology Way • P. O. Box 9106 • Norwood, MA 02062-9106, U.S.A. • Tel: 781.329.4700 • Fax: 781.461.3113 • www.analog.com
ADE9000 Arduino-Compatible Energy and Power Quality Measurement Shield
Rev. 0 | Page 1 of 11
FEATURES
Arduino-compatible energy and power quality measurement
shield with ADE9000 multiphase energy and power quality
monitoring IC
3P4W, 3P3W, or 3-wire single phase measurements
Direct interface with current output current transformers
Up to 240 V rms nominal line neutral voltage measurement
Arduino software library
Calibration and example application sketches
ADDITIONAL EQUIPMENT NEEDED
Arduino Zero or equivalent
Current transformers
Voltage leads
USB microcable
DOCUMENTS NEEDED
ADE9000 data sheet
ADE9000 Technical Reference Manual
SOFTWARE NEEDED
Arduino IDE 1.8.1 or later
ADE9000 library files
GENERAL DESCRIPTION
The EV-ADE9000SHIELDZ is an Arduino shield compatible
with Arduino Zero. The shield can be directly interfaced with
current transformers and voltage leads. It enables quick
evaluation and prototyping of energy and power quality
measurement systems with the ADE9000. Arduino library and
application examples are provided to simplify implementation
of larger systems.
HAZARDOUS HIGH VOLTAGE
This equipment is connected to hazardous line voltages. Exercise
proper caution when connecting the sensors and voltage leads.
Ensure that the system is enclosed in a protective casing.
CONNECTION DIAGRAM
CURRENT INPUTS
PHASE A
ISOLATION
BARRIER ARDUINO S E CTI ONADE9000
PHASE B
PHASE C
NEUTRAL
VOLTAGE INPUTS
PHASE A
PHASE B
PHASE C
NEUTRAL
16137-001
Figure 1. EV-ADE9000SHIELDZ Connection Diagram
UG-1170 EV-ADE9000SHIELDZ User Guide
Rev. 0 | Page 2 of 11
TABLE OF CONTENTS
Features .............................................................................................. 1
Additional Equipment Needed ....................................................... 1
Documents Needed .......................................................................... 1
Software Needed ............................................................................... 1
General Description ......................................................................... 1
Hazardous High Voltage .................................................................. 1
Connection Diagram ....................................................................... 1
Revision History ............................................................................... 2
Module Hardware ............................................................................. 3
Powering the ADE9000 Shield ................................................... 3
Arduino Zero ................................................................................ 3
ESP8266 WiFi Module ................................................................. 3
Current Sensors .............................................................................3
Voltage Sensors ..............................................................................3
Libraries ..............................................................................................4
Installing the Libraries ..................................................................4
ADE9000 Arduino Library ..........................................................4
Line Voltage Connections ................................................................5
3-Phase, 4-Wire (3P4W) Wye .....................................................5
3-Phase, 3-Wire (3P3W) Delta ....................................................6
Evaluation Board Schematics ...........................................................7
Components .......................................................................................9
Bill of Materials ............................................................................... 10
REVISION HISTORY
1/2018—Revision 0: Initial Version
EV-ADE9000SHIELDZ User Guide UG-1170
Rev. 0 | Page 3 of 11
MODULE HARDWARE
POWERING THE ADE9000 SHIELD
The EV-ADE9000SHIELDZ requires 3.3 V and 5 V. It is
powered from the 3.3 V power pin and 5 V power pin from
Arduino or ESP8266.
ARDUINO ZERO
The ADE9000 shield has Arduino R3 headers directly
compatible with Arduino Uno and Arduino Zero. Using the
EV-ADE9000SHIELDZ with Arduino Zero or equivalent is
recommended. The Arduino pins used by the ADE9000 shield
are given in Table 1.
Table 1. Arduino GPIO Connections
Arduino Pin ADE9000 Signal Type
ICSP-SCK
SCLK
SPI
ICSP-MISO
MISO
SPI
ICSP-MOSI MOSI SPI
GPIO 8 CS (pulled up) SPI, output
GPIO 4 PM1 (pulled down) Output
GPIO 5 RESET (pulled up) Output
GPIO 2 IRQ0 Input (interrupt)
GPIO 3 IRQ1 Input (interrupt)
GPIO 6 CF4/DREADY/EVENT Input (interrupt)
GPIO 7 CF3/ZX Input (interrupt)
3.3 V Not applicable Power
5 V Not applicable Power
ESP8266 WIFI MODULE
The shield can also be used with the ESP8266 WiFi module. The
on-board header makes the shield compatible with ESP8266
ESP-12E NodeMCU. To use ESP8266, do the following:
• Solder 15-pin headers (SV1 and SV2)
• Populate 0 Ω resistors on R49, R51, R67, and R68 located
on the bottom of the board to establish an SPI connection.
• Optionally, supply external 5 V at J9 if the computer USB
does not provide enough current during debugging.
The ESP8266 pins used by the EV-ADE9000SHIELDZ are given
in Table 2.
Table 2. Arduino General-Purpose Input/Output (GPIO)
Connections
ESP8266 Pin ADE9000 Signal Type
D5 (GPIO 14) SCLK SPI
D6 (GPIO 12) MISO SPI
D7 (GPIO 13) MOSI SPI
D0 (GPIO 16) CS (pulled up) SPI, output
D8 (GPIO 15) PM1 (pulled down) Output
D1 (GPIO 5) IRQ0 Input
D2 (GPIO 4) IRQ1 Input
3.3 V
Not applicable
Power
5 V Not applicable Power
CURRENT SENSORS
The EV-ADE9000SHIELDZ is designed to work directly with
current output current transformers (C Ts). Connect the CT
leads to the SL1, SL2, SL3, and SL4 terminal blocks.
Current Output CTs
The EV-ADE9000SHIELDZ has on-board burden resistors in
differential configuration to allow direct connection with
current output CTs. With a typical 2500:1 CT, the maximum
recommended current is 86 A rms. Refer to the ADE9000
Technical Reference Manual to modify burden resistors for
different current ranges.
Voltage Output CTs
To use voltage output CTs, remove burden Resistors R1, R2, R3,
R4, R10, R11, R19, and R20. The maximum recommended CT
output voltage is ±0.353 V rms.
Rogowski Coils
To use Rogowski coils with EV-ADE9000SHIELDZ, do the
following:
• Remove burden Resistors R1, R2, R3, R4, R10, R11, R19,
and R20.
• Replace 0 Ω Resistors R5, R6, R14, R15, R21, R22, R23, and
R24 with 100 Ω resistors.
• Populate C15, C16, C17, C18, C21, C22, C26, and C28 with
22 nF ceramic C0G grade capacitors.
• In the ADE9000API.h file, do the following:
• Set the INTEN and ININTEN bits in the CONFIG0
register.
• Set DICOEFF to 0xFFFFE000.
• If the Rogowski output signal is too low, increase the
PGA gain.
VOLTAGE SENSORS
The EV-ADE9000SHIELDZ has on-board resistor dividers to
attenuate the incoming input voltage. The attenuation factor is
801. Do not exceed the 240 V rms nominal line to neutral
voltage in the 3-phase, 4-wire (3P4W) wye configuration. In
3-wire delta configuration, when Phase B is used as the reference,
do not exceed 250 V rms line to line voltage. There are 4 mm
banana jacks on board to connect the voltage inputs. Use TPI
A079 or equivalent leads with alligator clips to connect the
voltage inputs.
UG-1170 EV-ADE9000SHIELDZ User Guide
Rev. 0 | Page 4 of 11
LIBRARIES
The EV-ADE9000SHIELDZ Arduino libraries provide basic
functions to access the ADE9000. The calibration sketch can be
used to calibrate the ADE9000 using an accurate source.
INSTALLING THE LIBRARIES
Download ADE9000ArduinoLibrary.zip.
Install the ADE9000 Arduino library, as shown in Figure 2.
16137-002
Figure 2. Installing Arduino Library. Original Content Hosted by Arduino,
Available at www.arduino.cc; Content from Arduino Republished Here Under
the Creative Commons Attribution-ShareAlike 3.0 Unported License, License
Available At www.arduino.cc/en/Main/CopyrightNotice; All Other Rights
Reserved by Analog Devices, Inc.
ADE9000 ARDUINO LIBRARY
ADE9000API.cpp
The ADE9000API.cpp file contains functions to communicate,
initialize, and read calculated parameters from the chip.
ADE9000API.h
The ADE9000API.h file contains register constants that are
written into the device by the SetupADE9000 function.
ADE9000CalibrationInputs.h
The ADE9000CalibrationInputs.h file contains the system
information used to calibrate the ADE9000. It is used by the
ADE9000 Calibration.ino sketch to compute the calibration
constants. The calibration constants are stored in the EEPROM.
ADE9000 Application Examples
The application examples demonstrate the use of functions in
ADE9000API.cpp and ADE9000API.h library files to obtain the
parameters calculated by the ADE9000. Connect Arduino Zero,
and compile and load the application examples to start
measuring energy and power quality.
EV-ADE9000SHIELDZ User Guide UG-1170
Rev. 0 | Page 5 of 11
LINE VOLTAGE CONNECTIONS
The EV-ADE9000SHIELDZ is connected to hazardous line
voltages. Exercise proper caution when connecting the sensors
and voltage leads. Ensure that the system is enclosed in a
protective casing.
3-PHASE, 4-WIRE (3P4W) WYE
The 3P4W wye connection is shown in Figure 3. Do not exceed
the nominal voltage of a 240 V rms line to neutral in wye
configuration.
CURRENT
INPUTS
PHASE A
PHASE B
PHASE C
NEUTRAL
VOLTAGE
INPUTS
PHASE A
PHASE B
PHASE C
NEUTRAL
240V rms
LINE
NEUTRAL
16137-003
Figure 3. 3P4W Wye Connection
UG-1170 EV-ADE9000SHIELDZ User Guide
Rev. 0 | Page 6 of 11
3-PHASE, 3-WIRE (3P3W) DELTA
The 3P3W delta connection is shown in Figure 4. Phase B is
used as the reference; therefore, the neutral channel on the
board is connected to Phase B. Do not exceed the 250 V rms
line to line voltage in the delta configuration. When using the delta
configuration, take the following actions in the ADE9000API.h file:
• Set VCONSEL to 001 so that VB = VA – VC.
• Set ICONSEL to 1 so that IB = −IA – IC.
CURRENT
INPUTS
PHASE A
PHASE C
VOLTAGE
INPUTS
PHASE A
PHASE B
PHASE C
NEUTRAL
400V rms
LINE TO LINE
16137-004
Figure 4. 3P3W Delta Connection
EV-ADE9000SHIELDZ User Guide UG-1170
Rev. 0 | Page 7 of 11
EVALUATION BOARD SCHEMATICS
PLACE DEC OUPL ING CAPS CL OSE TO IC PINS
VOLTAGE CHANNELSCURRENT CHANNELS
4 * 200k = 80 0k
0.287mV rms AT 230Vrms input
ALL ANT IALISING CAPS ARE C0 G NP0 GRADE
PHASE A
PHASE B
PHASE C
NEUTRAL
5.15.1
200k 200k 200k 200k
0
0
1k
1k
DNP
DNP
0.022u 0.022u
0.022u
0.022u
1k
1k
18p18p
ADE9000ACPZ
10k
1u
4.7u4.7u4.7u4.7u 0.1u0.1u0.1u0.1u
3k
GND
GND
10k
GND
25.161.0253.0
GND GND
200k 200k 200k 200k
1k
0.022u
GND
200k 200k 200k 200k
1k
0.022u
GND
GND
1k
0.022u
GND
1k
0.022u
GND
5.15.1
0
0
DNP
DNP
0.022u
0.022u
1k
1k
25.161.0253.0
GND
5.15.1
0
0
DNP
DNP
0.022u
0.022u
1k
1k
25.161.0253.0
GND
5.15.1
0
0
DNP
DNP
0.022u
0.022u
1k
1k
25.161.0253.0
GND
GND GND GND GND
GND
APT1608LSECK/J3-PRV
3k
3k
3k
GND
GND GND
APT1608LZGCK
3k
GND
+ 3V3_ADE + 3V3_ADE + 3V3_ADE
+ 3V3_ISO
+3V3_ADE
+ 3V3_ADE
+3V3_ADE
+3V3_ISO
GND
10k
+3V3_ADE
APT1608LSECK/J3-PRV
APT1608LSECK/J3-PRV
APT1608LSECK/J3-PRV
51p
51p
51p
R1R2
R12 R13 R9 R18
R21
R22
R29
R33
C15
C16
C23 C27
C29
C30
R35
R36
Q1
Q2
C37C38
VDD 27
IAN
8IAP
7
IBN
10 IBP
9
ICN
12 ICP
11
INN
14 INP
13
CF1 33
CF2 34
CF3/ ZX 35
CF4/ EVENT / DREADY 36
PM0 4
PM1 5
PULL_ HI GH 1
REF 16
DVDDOUT 3
AVDDOUT 25
SS 40
IRQ0 31
IRQ1 32
VAN
19 VAP
20
VBN
21 VBP
22
VCN
23 VCP
24
CLKI N 29
CLKOUT 30
MISO 38
MOSI 39
SCLK 37
RESET 6
NC1 17
NC2 18
GND
28
AGND
26
DGND
2
REFGND
15
EP(GND)
41
U1
R43
C39 C40C41C42C43 C44C45C46C47
R47
R48
31
4
2
Q8
1
2
SL1
R27 R28 R30 R31
R32
C33
R34 R37 R38 R39
R40
C34
R41
C35
R42
C36
R3R4
R5
R6
C17
C18
C19
C20
R7
R8
Q3
Q4
1
2
SL2
R10R11
R14
R15
C21
C22
C24
C25
R16
R17
Q5
Q6
1
2
SL3
R19R20
R23
R24
C26
C28
C31
C32
R25
R26
Q7
Q9
1
2
SL4
LED1
R44
R45
R46
LED5
R50
R54
LED6
LED2
LED3
L1
L2
L3
L4
C52
C54
C55
MISO_ADE
MOSI_ADE
SCLK_ADE
SS_ADE
PM1_ADE
IRQ0_ADE IRQ0_ADE
IRQ1_ADE IRQ1_ADE
DREADY_ADE
DREADY_ADE
ZX_ADE
ZX_ADE
CF2_I SO
CF1_I SO
IAN
IAN
IAP
IAP
IBN
IBN
IBP
IBP
ICN
ICN
ICP
ICP
INN
INN
INP
INP
VAP
VAP
VAN
VAN
VBP
VBP
VBN
VBN
VCP
VCP
VCN
VCN
DVDDOUT
DVDDOUT
AVDDOUT
AVDDOUT
REF
REF
RESET_ADE
RECEPTABLE_RED
RECEPTABLE_RED
RECEPTABLE_RED
RECEPTABLE_BLACK
16137-005
Figure 5. EV-ADE9000SHIELDZ Schematic Sheet 1
UG-1170 EV-ADE9000SHIELDZ User Guide
Rev. 0 | Page 8 of 11
5V Signal from I sopower. 3. 3V Signal to Arduino
UNCONNECTED HEADER PINS ARE PASS-THROUGH HOT/ LIVE SIDE
SAFE SIDE
3.3V SIGNAL FROM ADE9000. 5V SIGNAL TO ISOPOWER
EEPROM SECTI ON
ARDUINO DI G I TAL PI NS D2- D7
RESET SECTI ON
HI GH VOLTAGE CAUTI ON
ESP8266 REDUCED CONNECTION SET
0.1u
GNDA
GNDA
GND
GND
0.1u
0.1u
ADP122AUJZ-3.3-R7
10u 0.1u
ADUM4151BRIZ
SN74LV4T125PWR
SN74LV4T125PWR
GND
ADUM6404ARIZ
GND
GND
GND
GND
+3V3_ADE
GND
10u 0.1u
GNDA GNDA
10u0.1u
GND
GNDA
GNDA
0.1u
GNDA
GNDA
GNDA 10k
1u
+3V3_ADE
GNDA
10u 0.1u
GNDA
+5V_ARDUINO
GNDA
10u 0.1u
GNDA
+5V_ARDUINO
24LC32A/SN
GNDA
10k
10k
10k
0
DNP
DNP
0
GNDA
GNDA
GNDA
GNDA
GNDA
+5V_ARDUINO
0.1u 4.7u
GNDA
10u 0.1u
GND
4.7u0.1u
0
0
0
0
0
0
GND
3V3_ISO
3V3_ISO3V3_ISO
3V3_ISO
3V3_ISO
3V3_ISO
3V3_ISO 3V3_ISO
3V3_ISO
3V3_ISO
3V3_ISO
DNI
DNI DNP
DNP
DNP
DNP
10u0.1u
GNDA
GNDA
10u 0.1u
GNDA
GNDA
3V3_ISO 3V3_ISO
GNDA
GNDA
GNDA
+5V_ARDUINO
22u0.1u
GNDA
10k
GNDA
C3
C6
C8
EN
3GND 2
NC 4
VIN
1
VOUT
5
U4
C11 C12
VDD1
1VDD2 20
VOA 14
VOB 13
VOC
9
VIA
7
VIB
8
VIC 12
MCLK
3SCLK 18
MI
5MO
4SI 17
SO 16
*MSS
6*SSS 15
GND1_2
10 GND1
2
GND2_2 19
GND2 11
U5
1OE_N 1
1A 2
1Y
3
2OE_N 4
2A 5
2Y
6
GND
7
3Y
83A 9
3OE_N 10
4Y
11 4A 12
4OE_N 13
VCC 14
U3
1OE_N 1
1A 2
1Y
3
2OE_N 4
2A 5
2Y
6
GND
7
3Y
83A 9
3OE_N 10
4Y
11 4A 12
4OE_N 13
VCC 14
U6
12
34
56
J10
VDD1
1
VDDL
7
VIA 14
VIB 13
VIC 12
VID 11
VISO 16
VSEL 10
VOA
3
VOB
4
VOC
5
VOD
6
GNDI SO_2 15
GNDI SO 9
GND_2
2GND
8
U2
C48 C49 C50C51
C53
R53
C56
1
2
3
4
5
6
7
8
9
10
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
C57 C58C59 C60
VCC
GND
IC1
84
SCL
6
SDA 5
A0
1A1
2A2
3
WP
7
TP15TP16 TP17 TP18TP19 TP20
R52
R55
R56
R57
R58
R61
R62
TP5TP6 TP7 TP8TP9 TP10
C1 C7
C2 C4
C5C61
R59
R60
R63
R64
R65
R66
D1
D2
TP1 TP2 TP4TP3 TP21TP22
SV1
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
SV2
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15 TP11 TP12 TP13 TP14
R49
R51
R67
R68
C9C10 C13 C14
TP23 TP24 TP25 TP26
TP27 TP28 TP29 TP30
C62C63
TP31TP32
VBUS
D-
D+
ID
GND
SHLD1* 6
R69
5V_ADE
5V_ADE 5V_ADE
5V_ADE
5V_ADE
RESET_ADE
RESET_ADE
MISO_ADE
MISO_ADE
MOSI_ADE
MOSI_ADE
SCLK_ADE
SCLK_ADE
SCLK_I SO
SCLK_I SO
SCLK_ISO
SCLK_I SO
MOSI_ISO
MOSI_ISO
MOSI_ISO
MOSI_ISO
MISO_ISO
MISO_ISO
MI SO_ISO
MISO_ISO
SS_I SO
SS_I SO
SS_I SO
SS_I SO
PM1_I SO
PM1_ISO
PM1_ISO
PM1_ISO
ZX_ISO
ZX_ISO
ZX_ISO
DREADY_ISO
DREADY_ISO
DREADY_ISO
IRQ0_ISO
IRQ0_ISO
IRQ0_ISO
IRQ1_ISO
IRQ1_ISO
IRQ1_ISO
RESET_ISO
RESET_ISO
RESET_ISO
SCL_ARDUI NO
SCL_ARDUI NO
SDA_ARDUI NO
SDA_ARDUI NO
SS_ADE
SS_ADE
PM1_ADE
PM1_ADE
ZX_ADE
ZX_ADE
DREADY_ADE
DREADY_ADE
IRQ1_ADE
IRQ1_ADE
IRQ0_ADE
IRQ0_ADE
ZX_ARD
PM1_ARD
IRQ1_ARD
IRQ1_ARD
IRQ0_ARD
IRQ0_ARD
RESET_ARD
RESET_ARD
DREADY_ARD
Array
EEPROM
16137-006
Figure 6. EV-ADE9000SHIELDZ Schematic Sheet 2
EV-ADE9000SHIELDZ User Guide UG-1170
Rev. 0 | Page 9 of 11
COMPONENTS
Table 3 and Table 4 list required current transformers, voltage
leads, and clips. Equivalent components can also be used.
Table 3. Required Current Transformers
Manufacturer Part No.
TDK
CCT272440
VAC T60404-E4626-X002
Table 4. Required Voltage Leads and Clips
Manufacturer Part No.
Leads-TPI A079
Clips-TPI A058
Clips-Ponoma Electronics 6041B
UG-1170 EV-ADE9000SHIELDZ User Guide
Rev. 0 | Page 10 of 11
BILL OF MATERIALS
Qty Designator Description Manufacturer Part No.
16 R5, R6, R14, R15, R21 to
R24, R57, R59, R60, R62
to R66
Resistors, 0 Ω, 0.1 W, 0603 SMT,
RoHS
Yageo RC0603JR-070RL
8 R43, R48, R52 to R56,
R69
Resistors, 10 kΩ, 0.1 W, 0603
SMT, RoHS
Yageo RC0603JR-0710KL
14 R7, R8, R16, R17, R25,
R26, R29, R32, R33,
R35, R36, R40 to R42
Resistors, 1 kΩ, 0.1 W, 0603 SMT,
RoHS
Yageo RC0603FR-071KL
12
R9, R12, R13, R18, R27,
R28, R30, R31, R34,
R37 to R39
Resistors, 200 kΩ, 0.1 W, 2010
SMT, RoHS
Rohm Semiconductor
MCR50JZHF2003
5 R44 to R47, R50 Resistors, 3 kΩ, 0.1 W, 0603 SMT,
RoHS
Yageo RC0603FR-073KL
8 R1 to R4, R10, R11, R19,
R20
Resistors, 5.1 Ω, 0.1 W, 0805 SMT,
RoHS
TE Connectivity Passive Product CPF0805B5R1E1
12 C19, C20, C24, C25,
C29 to C36
Capacitors, 0.022 µF, 50 V, 5%,
0805 SMT, RoHS, C0G
TDK Corporation CGA4J2C0G1H223J125AA
19 C1, C3, C4, C6, C8, C10,
C12, C14, C44 to C47,
C49, C51, C53, C58,
C60, C61, C63
Capacitors, 0.1 µF, 25 V, 10%,
0603 SMT, RoHS, X7R
Murata Electronics North America GRM188R71E104KA01D
8 C2, C9, C11, C13, C48,
C50, C57, C59
Capacitors, 10 µF, 16 V, 10%, 0805
SMT, RoHS, X7R
Samsung Electro-Mechanics America, Inc. CL21B106KOQNNNE
2 C37, C38 Capacitors, 18 pF, 50 V, 1%, 0402
SMT, RoHS C0G
Murata Electronics North America GRM1555C1H180FA01D
2 C39, C56 Capacitors, 1 µF, 50 V, 10%, 0603
SMT, RoHS, X7R
Taiyo Yuden UMK107AB7105KA-T
1 C62 Capacitors, 22 µF, 25 V, 20%, 0805
SMT, RoHS, X5R
Murata Electronics North America GRM21BR61E226ME44L
3 C5, C7, C40 Capacitors, 4.7 µF, 25 V, 10%,
0805 SMT, RoHS, X5R
Murata Electronics North America GRM21BR61E475KA12L
3 C41 to C43 Capacitors, 4.7 µF, 25 V, 10%,
0603 SMT, RoHS, X5R
TDK Corporation C1608X5R1E475M080AC
3 C52, C54, C55 Capacitors, 51 pF, 50 V, 5%, 0402
SMT, RoHS, C0G
Samsung Electro-Mechanics America, Inc. CL05C510JB5NNNC
4 L1 to L4 Ferrite bead, 1500 Ω, 0805 SMT Murata Electronics North America BLM21BD152SN1D
1 J8 VOLTAGE_SOCKET_4MM_BLACK STAUBLI/Multi Contact 23.3200-21
3 J5 to J7 VOLTAGE_SOCKET_4MM_RED STAUBLI/Multi Contact 23.3200-22
1 IC1 IC, EEPROM, 32 KBIT, 400 KHz,
8-lead SOIC, 3.9 mm
Microchip Technology 24LC32AT-I/SN
4 LED1 to LED3, LED6 LED, 1.8 V, 2 mA, red, 0603 Kingbright APT1608LSECK/J3-PRV
1 LED5 LED, 2.65 V, 2 mA, green, 0603 Kingbright APT1608LZGCK
2 D1, D2 Diodes, Schottky, 30 V, 100 mA,
SOD323
Diodes Incorporated BAT54WS-7-F
1 Q8 Crystal, 24.576 MHz, 12 pF,
4-SMD
ECS Inc. ECS-245.7-12-33Q-JES-TR
8 Q1 to Q7, Q9 Diodes, dual series connection,
100 V, SOT-23-3
Fairchild/ON Semiconductor MMBD4148SE
1 J9 Connector, receptable, USB
MICRO AB, SMD
Hirose Electric Co Ltd ZX62-AB-5PA(31)
4 SL1 to SL4 Terminal blocks, 2 position, 5 mm
pitch, through hole
On Shore Technology Inc. ED350/2
1 U1 IC, ADE9000, poly phase
metering AFE, 40-lead LFCSP
Analog Devices, Inc. ADE9000ACPZ
1 U4 IC, ADP122, linear regulator, 3.3 V,
5-lead TSOT
Analog Devices, Inc. ADP122AUJZ-3.3-R7
EV-ADE9000SHIELDZ User Guide UG-1170
Rev. 0 | Page 11 of 11
Qty Designator Description Manufacturer Part No.
1 U5 IC, ADuM4151, SPI isolator,
17 MHz, 2/1 Data, 20-lead SOIC
Analog Devices, Inc. ADuM4151BRIZ-RL
1 U2 IC, ADuM6404, ISO power, 4
Channels, 16-lead SOIC
Analog Devices, Inc. ADuM6404ARIZ
1 S2 Switch, tactile SPST-NO,
surface- mount, 6 mm × 6 mm,
4 lead
C&K PTS645SM43SMTR92 LFS
2 U3, U6 ICs, SN74LV4T125, level translator,
noninverting, 14-TSSOP
Texas Instruments SN74LV4T125PWR
16 TP5 to TP10, TP15 to
TP22, TP31, TP32
Test points, 0.063", white Keystone Electronics 5007
1 J10 Connector, receptable, 3 × 2,
0.1" pitch
Sullins Connector Solutions PPTC032LFBN-RC
1 J4 Connector, receptable, 6 × 1,
0.1" pitch, long tail
Samtec Inc. 311-43-106-41-001000
2 J2, J3 Connectors, receptable, 8 × 1,
0.1" pitch, long tail
Samtec Inc. 311-43-108-41-001000
1 J1 Connector, receptable, 10 × 1,
0.1" pitch, long tail
Samtec Inc. 311-43-110-41-001000
16 TP1 to TP4, TP11 to
TP14, TP23 to TP30
Test pad
6 H1 to H6 Mount hole
6 R49, R51, R58, R61,
R67, R68
Do not install (DNI)
8 C15 to C18, C21, C22,
C26, C28
DNI
2 SV1, SV2 DNI Sullins Connector Solutions PPTC151LFBN-RC
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
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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”),
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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:
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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,
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($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
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UG16137-0-1/18(0)
