ANALOG DEVICES ADES1754 14 Channel Battery Stack Monitoring Systems User Guide
- June 16, 2024
- Analog Devices
Table of Contents
- General Description
- Features and Benefits
- Evaluation Board Contents
- Required Hardware
- Required Software
- Detailed Description of Hardware
- Detailed Description of Software
- Ordering Information
- ADES1754 EV Kit Bill of Materials
- Mechanical Parts
- Parts That Are Part of the PCB or Are NOT to Be Installed
- ADES1754 EV Kit Schematic
- ADES1754 EV Kit PCB Layout
- Revision History
- References
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
ANALOG DEVICES ADES1754 14 Channel Battery Stack Monitoring Systems
General Description
The ADES1754 evaluation kit (EV kit) is used to demonstrate the features and capabilities of the ADES1754/ADES1755/ADES1756 14-channel, highvoltage, smart sensor, data-acquisition interface ICs. The ADES1754 EV kit is coupled with a MAX17851 EV kit to establish communication with a host PC. Once communication is established, control of the ADES1754 EV kit is executed through the EV kit GUI on the host PC. The GUI is Windows XP®-, Windows Vista®-, Windows® 7-, and Windows 10-compatible and is available through your local Analog Devices representative.
The ADES1754 EV kit design provides a convenient platform for evaluating the features and functions of the IC, in addition to the IC’s electrical parameters. The EV kit with vertical communication connectors (TXLP CONN, RXLP CONN, TXUP CONN, and RXUP CONN) and snap-and-lock battery pack connector enables the user to quickly build and evaluate a system with up to 32 daisy chain devices. Design files for this circuit board are available.
Features and Benefits
- Provides a Convenient Platform for Evaluating the Features and Functions of the ADES1754
- Versatile GUI Interface for Features Evaluation
- Plug-and-Play Architecture for Rapid System Prototyping
- Force and Sense Pin Headers for Precision Measurement Assessment
- Built-In Resistor Stack for Battery Emulation
- Proven PCB Layout Fully Assembled and Tested
Evaluation Board Contents
- 1x ADES1754EVKIT# Evaluation Board
- 2x Two Wire CLIK™-Mate 2-wire loop cable, 3 inches
- 14x Shunt, 2.54mm Pitch Open Top Grip, Black
- 2x Two Wire CLIK-Mate Crossover Cable, 6 Inches
Required Hardware
- One single-UART MAX17851 EV kit
- 9V to 65V DC power supplies (refer to the ADES1754 IC data sheet for recommended operating range)
- User-supplied Windows XP-, Windows Vista-, Windows 7-, or Windows 10-compatible PC with a spare USB port
Required Software
- Evaluation software for the ADES1754 EV kit
A Windows PC-based graphical user interface is available through the Software Request Form on the Analog Devices website. Refer to the MAX17851 EV kit data sheet to find out more about how to allow communication to the ADES1754 EV kit board.
Ordering Information appears at end of data sheet.
Detailed Description of Hardware
Battery-Pack Connector (J7)
Power is applied to the ADES1754 EV kit through the J7 battery-pack connector, or the PACK+ and PACK- test points. The PACK+ and PACK- test points are provided, should the user prefer to source power from a laboratory power supply.
Caution: Only apply a jumper to B0P- and P+B14 when using a battery pack. Placing a jumper on any battery pin header with a battery pack connected places a direct short on the battery-pack cell.
To power the ADES1754 EV kit using a bench power supply, terminate PACK+ to the positive post and PACK to the negative post of the power supply and install the P+B14 and B0P- jumpers.
Battery-Cell Emulation
For convenience, the ADES1754 EV kit PCB is equipped with a 2kΩ resistor ladder to emulate a battery pack when using a bench power supply. To apply the emulated battery-pack resistor ladder voltages to the ADES1754 cell-voltage measurement inputs (C0–C14), place all SW1 and SW2 switches in the closed or ON position. Pack voltage from a bench power supply applied to the 2kΩ resistor ladder divides equally across the resistors and is measured by the ADES1754 IC.
The battery interface includes a battery force and sense pin header (J6) that can be used for precision measurement testing. A forced simulated-battery voltage between adjacent pins on the J6 pin header can be measured at the pin header and compared with the data conversion values of the ADES1754 IC.
AUX Input/Output/ADC
The auxiliary (AUX) input/output/ADC section of the EV kit PCB (see Figure 1)
gives the user access to the ADES1754 AUX GPIO pins and THRM pin. Each
GPIO_AUX connector is equipped to interface directly to NTC thermistors for
external temperature measurement.
With the THERM jumper installed, the NTC sensor is pulled up through a 10kΩ
resistor to the THRM pin on the ADES1754 IC. This feature allows the user to
turn on or off the 10kΩ pull-up through the THRM pin for energy conservation.
The AUXIN[1:0] pins on the ADES1754 IC can be configured as an I2C controller interface using the I2CEN bit in the AUXGPIOCFG register. When the I2CEN bit is high, AUXIN0 operates as the SDA pin and AUXIN1 operates as the SCL pin. In this configuration, the device is capable of functioning as an I2Ccompatible controller and can read and write to any number of associated I2C-compatible target devices connected to the 2-wire bus at clock rates of 100kHz or 400kHz. By default, I2CEN is low and the I2C controller is disabled.
GPIO_AUX is instrumented with a block header (J5) that allows the user to perform AUX_GPIO force and sense accuracy measurements. To perform accuracy measurement through the J5 header, a voltage is forced onto a pin header and can be sensed through the adjacent pin on the header. The measurement can then be compared to the conversion measurement of the ADES1754 IC.
UART Ports
The UART communication ports are identified as the upper port (RXU/TXU) and the lower port (RXL/TXL), with reference to the ADES1754 device on the EV kit PCB (see Figure 1). Each UART port comprises a differential transmitter and a differential receiver.
Communication data received on the lower receiver is retransmitted through the upper transmitter to the next EV kit in the daisy chain. Communication received on the upper receiver is retransmitted through the lower transmitter and downward through the chain. Each differential pair includes four test points for observing the communication signals. It is critical to note that the upper port (RXP2, RXN2, TXP2, and TXN2) test points are referenced to the next higher ground-potential EV kit.
The EV kit UART network and components are designed for the automotive environment and are capable of enduring battery-management-system compliance testing. This includes BCI, ESD, radiated emission, pulse testing, and deactivation of the service-disconnect switch. The PCB and UART components are designed and selected for 630VDC (max) isolation between each ADES1754 EV kit in the daisy-chained system. However, isolation capability has not been tested on the ADES1754 EV kit.
ALERT IN/ALERT OUT
The redundant ALERT interface provides an additional channel for notifying the host about potential hazards in the daisy chain. It can be programmed to activate on specific alerts of the IC (for example over- and undervoltage conditions) and can propagate a 2MHz signal through the daisy chain to the host where actions can be taken. The propagation is always DOWN the daisy- chain and, since it is not a differential signal (unlike the UART port), additional isolation measures must be taken on the board level.
The EV kit comes with an optical isolation, thus a simple UART cable (blue/black) can be used to connect multiple devices.
ADES1754 IC Pin Headers (J1–J4)
Each pin on the ADES1754 IC is available for easy monitoring through the J1 IC
pin header. Header J1 is terminated to pins 1–16 on the ADES1754 IC, J2 is
terminated to pins 17–32, J3 is terminated to pins 33–48, and J4 is terminated
to pins 49–64. For convenience, certain IC pins are terminated to test points
for monitoring frequently observed device signals. Examples include:
VBLK, DCIN, HV, CPP, CPN, SHDNL _SELSHDNL, VAA UARTSEL, VDDL1, ALERTIN,
ALERTOUT, and THERM.
Hardware Set-up Procedure
The ADES1754 EV kit is fully assembled and functionally tested prior to shipment. Use the following steps to become acquainted with the ADES1754 EV kit and initialize the single-UART EV kit communication.
- Install the ADES1754 EV kit software on your computer by running the MAX1785X_EV kit_Installer.exe.
- Follow the on-screen instructions shown in the popup window.
- Click the Install button to confirm the installation of the ADES1754 GUI.
- Click Next in the device driver installation wizard window.
- Click Finish.
Note: The ADES1754 EV kit requires a minimum external supply of 12V. Switching all switches to the ON position enables a 2kΩ resistor ladder, connecting from PACK+ to PACK- and enabling a uniform voltage reading across all battery inputs.
MAX17851 EV Kit
To complete the ADES1754 EV kit battery-management evaluation system, it is
essential to include the MAX17851DUAL SAFEMON_EVKIT. In this EV kit, we only
refer to the ADES1754EVKIT#, as it can use the full potential of the ADI BMS
system. It is critical to note that the ADES1754EVKIT# provides the battery
management evaluation system with capacitive isolation on connectors J3, J4,
J18, and J19.
MAX17851 EV Kit to ADES1754 EV Kit— Typical UART Connection
A typical UART connection is generally point to point meaning the transmitter (Tx) and receiver (Rx) are connected directly to each other. To daisy-chain the devices, the device’s UART Rx and Tx are connected sequentially in a chain.
Power is applied to the ADES1754 EV kit through the J7 battery-pack connector, or the PACK+ and PACK- test points. The PACK+ and PACK- test points are provided, should the user prefer to source power from a laboratory power supply.
Figure 3 shows the following connections for two boards on a stack interfaced to a PC:
- Connect a USB cable from the PC USB port to the MAX17851 EV kit.
- Connect the MAX17851 EV kit to the ADES1754 EV kit. This ADES1754 EV kit is the first (or “bottom”) board of the stack.
- Connect a 2-wire CLIK-Mate crossover cable to the “bottom” ADES1754 EV kit Rx from the MAX17851 EV kit Tx.
- Connect or daisy-chain the ADES1754 EV kit to another ADES1754 EV kit in UART mode. This ADES1754 EV kit is the last (or “top”) board of a twoboard stack. More ADES1754 EV kit “upper” boards can be daisy-chained together in the same manner.
- Connect a two-wire CLIK-Mate crossover cable from the “bottom” ADES1754 EV kit connector to the next “upper” or “top” ADES1754 EV kit connector.
- Connect a two-wire CLIK-Mate crossover cable from the “bottom” ADES1754 EV kit connector to the next “upper” or “top” ADES1754 EV kit connector.
Detailed Description of Software
MAX1785X Evaluation Software GUI
Request the GUI software with the Software Request Form on the Analog Devices website.
Ordering Information
PART NUMBER | PACKAGE DESCRIPTION |
---|---|
ADES1754EVKIT# | Evaluation Board for ADES1754 |
ADES1754 EV Kit Bill of Materials
ITEM#| LOCATION| DNI| QTY| MFG _PN| MFG|
VALUE| DESCRIPTION
---|---|---|---|---|---|---|---
1| –| –| 1| 08 _ 075909a| ANALOG DEVICES| –| PCB
2| ALARM_IN_UP.ALARM_OUT_LP.CUR REN TSENSE ,GPIO_AUX0 ,GPIO_AUX 1,GPIO_AUX2,G
PIO_AUX3,GPIO_AUX 4,GPIO_AUX5 ,RX LP_CONN,RXUP_C ONN,TXLP _CONN,TXUP_CONN| –|
13| 502584-0270| MOLEX| 502584-0270| CONN-PCB 2 POSITION RECEPTACLE CONNECTOR
0.059
3| ALER TIN,ALERTIN_N ,ALER TIN_P ,AL ERTOU T,CPN,CPP ,DCIN,HV,RXLN,RX
LP,RXP1,RXP2 ,RXUN, RXUP,TXLN,TX LP,TXP1 ,TXP2 ,TXUN, T XUP ,UARTSEL ,VAA,VB
LK| –| 23| 5000| KEYSTONE ELECTRONICS| RED| CONN-PCB TEST POINT RED
4| AUXGND ,OPTO_OU T,SHDNL,THERM, VDDL1,VDDL2/3| –| 6| 5004| KEYSTONE
ELECTRONICS| YEL| CONN-PCB TEST POINT YELLOW
5| BOP – ,B1BO, 8281,8382,8483,8584,8685 ,87 B6,B887 ,B9B8,B10B9 ,B11
B10,812811 ,B13812 ,B14813 ,P+B14| –| 16| PEC02SAAN| SULLINS| PEC02SAAN| CONN-
PCB 2.54MM HEADER SINGLE STR 2POS
6| BAT0,BAT1 ,BAT2,BAT3 ,BAT 4,BAT5,B AT6,BAT7,BAT8 ,BAT9 ,BAT10 ,BAT11 ,B AT
12,BAT13 ,BAT14,GND_A ,GND_A 1, GNDA2 ,GND A3,PACK+,PACK-| –| 21| 9020|
WEICO W1RE AND CAB LE INC.| 9020| CONN-PCB BUS BAR 20 AWG , CUSTOM MEASURED
LENGT H: 7.2 MM (283.465 MIL)
7| C1| –| 1| CC0603KRX7R0BB 104| YAGEO| 0.1UF| CAP CER 0.1UF 100V 10% X7R 0603
9| C34,C35,C36 ,C37 ,C38,C39,C40,C41,C 42,C43,C44 ,C45 ,C46 ,C47 ,C100| –| 15|
12061C104JAT2A| AVX| 0.1uF| CAP CER 0. 1u F 100V 5% X7R 1206
11| C86 ,C104, C105,C106,C 107,C108,C109| –| 7| 0603YC 103KAT2A| AVX
CORPORATION| 0.01uF| CAP CER 0.01uF 16V 10% X7R 0603
12| C14| –| 1| 04025A101FAT2A| AVX CORPORATION| 100pF| CAP GER 100p F 50V 1%
COG 0402
13| C15| –| 1| C0603C392J5GACTU| KEMET| 3900pF| CAP GER 3900pF 50V 5% COG 0603
EXTREME LOW ESR
16| C18| –| 1| CGA6N3X7R2A225K230AB| TDK| 2.2UF| CAP CER 2.2UF 100V 10% X7R
1210 AEC -O200
18| C2| –| 1| GRM155R72A 102KA01D| MURATA| 1000pF| CAP GER 1000pF 100V 10% X7R
0402
19| C20,C22 ,C23 ,C24 ,C25,C26 ,C27 ,C28 ,C 29,C30 ,C31 ,C32 ,C33 ,C84| –| 14|
C32 16X8R2A 104K115 AA| TDK| 0.1uF| CAP GER 0.1uF 100V 10% X8R 1206
20| C21| –| 1| GRM21BR72A474KA73L| MURATA| 0.47uF| CAP CER 0.47uF 100V 10% X7R
0805
21| C3,C85| –| 2| C0603X105K9RACTU| KEME T| 1UF| CAP CER 1UF 6.3V 10% X7R 0603
22| C4,C5,C7| –| 3| GRM188R71 C474KA88D| MURATA| 0.47u F| CAP GER 0.47uF 16V
10% X7R 0603
24| C6| –| 1| CGA4J1X7R 1V475K125AC| TDK| 4.7uF| CAP GER 4.7uF 35V 10% X7R
0805 AEC-Q200 LOW ESR
25| C62 ,C63 ,C64 ,C65 ,C66,C67 ,C68,C69,C 70,C71,C72,C73,C74,C75| –| 14|
C0603C 104K3RACTU| KEME T| 0.1uF| CAP CER 0.1uF 25V 10% X7R 0603
27| C77,C80,C81,C83| –| 4| GJM1555C1H180JB01D| MURATA| 18pF| CAP GER 18pF 50V
5% COG 0402
28| C87| –| 1| C0603C390K1GACTU| KEMET| 39PF| CAP CER 39PF 100V 10% COG 0603
EXTREMELY LOW
ESL
29| C88| –| 1| C1206C101J1GAC TU| KEME T| 100pF| CAP GER 100p F 100V 5% COG
1206 EXTREME LOW ESR
30| C89,C90,C91,C92| –| 4| CGA5H4C0G2J222J115 AA| TDK| 2200PF| CAP GER 2200PF
630V 5% COG 1206 AEC-O200
31| C93| –| 1| 06031A150JAT2A| AVX CORPORATION| 15pF| CAP CER 15pF 1DOV 5% COG
0603
33| D9,D10| –| 2| PESD3V3U1UB,115| NEXPERIA| PESD3V3U1UB,115| DIO TVS ESD
UNIDIRECTIONAL 3.3V SOD-523 AEC- 0101
34| D3,D4,D5,D6,D7,D8,D11,D12,D13,D14, D16,D18,D19,D20,D2 1,D24 ,D25| –| 17|
SP4021-01 FTG| LITTELFUSE, INC.| SP4021-01FTG| D1O TVS UN IDIREC TIONAL 5V 25A
2.5PF AEC-O101
36| D26,D28 ,D30 ,D31| –| 4| DF LS1100-7| DIODES INCORPORATED| DFLS1100-7| DIO
SCHOTTKY BARRIER RECT IFI ER, COMMERCIA L
37| D29,D32 ,D33 ,D34| –| 4| SESDO NCAN1 LT1G| ONSEMI| SESDONCAN1 LT1G| D1O
TVS ESD BIDIREC TI ONAL 24V 3A SOT-23
39| GP/AUX0,GP/AUX1 ,GP/AUX2 ,GP/AUX 3,GP/AUX4,GP/AUX5,RXN 1,RXN2,TX N1,TXN2|
–| 10| 5001| KEYSTONE ELECTRONICS| BLK| CONN-PCB TST PNT BLK
40| J1,J2,J3,J4| –| 4| TSW-116-07-G -S| SAMTEC INC.| TSW-116-07-G-S| CONN-PCB
16POS MALE HEADER SINGLE ROW ST 0.625MM SQ POST, 2.54MM PITCH, 5.84MM POST
HEIGHT, 2.54MM SOLDER TAIL
41| J5| –| 1| PEC12DAAN| SULLINS| PEC12DAAN| CONN-PCB 24POS MALE UN SHROUDED
HDR DUA L ROW ST, 2.54MM PITCH, 3.05MM SOLDER TAIL, 5.84MM POST HEIGHT
42| J6| –| 1| PBC15DAAN| SULLINS| PBC15DAAN| CONN-PCB UNSHROUDED HDR VERT DUAL
ROW 30POS 2.54MM PITCH, 5.84MM POST HEIGHT, 3.05MM SOLDET TAIL
43| J7| –| 1| 5031541890| MOLEX| 5031541890| CONN-PCB 18POS FEMALE CLIK-MATE
PCB RECEP TACLE DUAL ROW 1.5MM PITCH NATURAL
45| L1,L2,L3,L4| –| 4| MMZ2012S601ATD25| TDK| 600OHM AT 100MEGHZ| IND FERRITE
BEAD, 0.3OHM DCR, 0.5A, 0805
46| MINIQ1| –| 1| PEC08DAAN| SULLINS| PEC08DAAN| CONN-PCB 16POS MALE HDR UNS
HROUD ED DUA L ROW ST, 5.84MM POST HEIGHT, 3.05MM SOLDER TA IL, 2.54MM PITCH
47| MINIQ2| –| 1| SSW- 108-01-G-S| SAMTEC| SSW-108-01-G-S| CONN-PCB RCPT .100
8POS SNGL GOLD
48| Q1,Q2| –| 2| BC857BS-7- F| DIODES INCORPORATED| BC857BS-7- F| TRAN BJT
DUAL PNP 45V SOT-363 AEC-Q101
51| R96 ,R97 ,R98 ,R99 ,R100,R101,R102 ,R1 03,R104,R105,R106 ,R107,R108 ,R109|
–| 14| RC0603FR-072KL| YAGEO| 2K| RES SMD2KOhm 1% 1/10W0603
52| R11| –| 1| RMC F0603Z T0R00| STACKPOLE ELECTRONICS, INC.| 0| RES 0 OHM
JUMPER 1/10W 0603
53| R110,R 155,R161 ,R168,R169| –| 5| ERJ-3GEYJ 104V| PANASONIC| 100K| RES SMD
100K OHM 5% 1/10W0603 AEC-Q200
54| R111,R112| –| 2| CRCW0805360RFK EA| VISHAY| 360| RES SMD 360 OHM 1%
1/8W0805 AEC-Q200
55| R113| –| 1| ERJ-3GEYJ 102V| PANASONIC| 1K| RES SMD 1K OHM 5% 1/1OW 0603
AEC-O200
56| R9,R114 ,R115,R122,R123,R124 ,R125 , R126,R127,R128 ,R132,R133,R134,R14
6,R147 ,R150 ,R151,R152 ,R154| –| 19| CRCW060310K0FKEA| VISHAY| 10K| RES SMD
10K OHM 1/10W 1% 0603
57| R116 ,R117 ,R118 ,R119 ,R120 ,R121| –| 6| CRCW06031 K00FKEA HP| VISHAY|
1K| RES SMD 1K Ohm 1% 1/3W0603 AEC-Q200
58| R12| –| 1| SFR03EZPF1003| ROHM| 100K| RESSMD 100KOHM 1% 1/10W0603
59| R129,R130,R138,R140,R179,R180,R18 1,R182| –| 8| CRCW12060000Z0EA| VISHAY|
0| RES SMD 0 Ohm 5% 1/4W 1206 AEC-Q200
60| R13 ,R14 ,R15 ,R16 ,R136| –| 5| RC0603JR-070RL| YAGEO| 0| RES SMD 0 Ohm
JUMPER 1/10W 0603
61| R131| –| 1| ERJ-3EKF1002V| PANASONIC| 10K| RES SMD 10K Ohm 1% 1/10W0603
AEC-0200
63| R157,R158,R159 ,R160| –| 4| ERJ-6EN F49R9V| PANASONIC| 49.9| RES SMD 49.9
Ohm 1% 1/8W0805 AEC-Q200
64| R162,R164,R172 ,R173| –| 4| RC1206 FR-071K5L| YAGEO| 1.5K| RES SMD 1. 5K
Ohm 1% 1/4W 1206
65| R17| –| 1| RNCP1206F TD100R| STACKPOLE ELEC T RONICS, INC.| 100| RES SMD
100 Ohm 1% 1/2W 1206 SULFUR RES IS T AN T
66| R18| –| 1| ERA-3AEB1021V| PANASONIC| 1.02K| RES SMD 1.02KOHM 0.1% 1/10W
0603 AEC-Q200
67| R20 ,R27 ,R183,R 184| –| 4| RC0805FR -070R L| YAGEO| 0| RES SMD 0 OHM 1%
1/8W 0805
68| R28 ,R185 ,R186| –| 3| RCS06030000Z0EA| VISHAY| 0| RES SMD 0 OHM 1/4W
JUMPER 0603 AEC -Q200
70| R19| –| 1| ESR03EZPF1ORO| ROHM| 10| RESSMD 10OHM 1% 1/4W 0603 AEC-Q200
71| R21,R25 ,R29 ,R33 ,R35,R36 ,R37,R38,R 39,R40 ,R4 1,R42 ,R43 ,R44 ,R45 ,R46
,R47,R48 ,R49 ,R50 ,R51,R52,R53,R54,R55, R56 ,R57 ,R58 ,R59 ,R60,R6 1,R62 ,R63
,R 64 ,R65 ,R66 ,R67 ,R68 ,R69 ,R70,R71 ,R7 2,R73,R74,R77| –| 45| ERJ-
14YJ220U| PANASONIC| 22| RES SMD 22 Ohm 5% 1/2W 1210 AEC-Q200
72| R22| –| 1| RMC F0603JT100K| STACKPOLE ELECTRONICS, INC.| 100K| RES SMD
100K OHM 5% 1/10W 0603 AEC-Q200
75| R5,R6,R7 ,R8| –| 4| CRCW06030000Z0EA HP| VISHAY| 0| RES SMD 0 Ohm JUMPER
1/4W 0603 AEC-Q200
76| R81,R82 ,R83 ,R84 ,R85,R86 ,R87,R88,R 89,R90,R91,R92,R93,R94,R95| –| 15|
RC0603FR -07 1KL| YAGEO| 1K| RES SMD 1K Ohm 1% 1/10W 0603
77| SHDNL_SEL| –| 1| FTS-103-01-F-S| SAMTEC| FTS-103-01-F-S| CONN-PCB , MICRO
LOW PROFILE TERM STRIPS
78| SW1,SW2| –| 2| ADE0804| TYCO (ALCOSWITCH)| ADE0804| SWITCH 16 DIP SPST
79| THERM1,THERM2,THERM3 ,TH ERM4 , THERM5,THERM6| –| 6| 3-644456-2| TE
CONNECTIVITY| 3-644456-2| CONN-PCB HDR ST 2.54MM PITCH, 2A
80| U1| –| 1| ADES1754GCBN +| ANALOG DEVICES| ADES1754GCBN+| PRELIM, IC-ADI
14-CHANNEL HIGH VOLTAGE DATA- ACQUISITION SYSTEM
81| U2| –| 1| MAX3378EEUD+| M AXIM| MAX3378EEUD+| IC DUAL/QUAD LOW-VOL LVL
XLTR
82| U3| –| 1| AT24CS08 -SSHM-T| MICROCHIP TECHNOLOGY| AT24CS08-SSHM-T| IC I2C
COMPATIBLE TWO VV1RE , SERIAL EEPROM WITH UNIQUE FACTORY PROGRAMMED 128-BIT
SERIAL NUMBER
83| U4| –| 1| MAX3390EEUD+| MAXIM INTEGRATED| MAX3390EEUD+| IC QUAD LOW
VOLTAGE LEVEL TRANSLATOR, UNIDIRECTIONAL
84| U5| –| 1| TLP2770(TP,E)| TOSHIBA| TLP2770(TP,E)| TRAN PHOTOCOUPLER 1-CH
20MBPS LOW-POWER
Mechanical Parts
ITEM#| LOCATION| DNI| QTY| MFG_PN| MFG|
VALUE| DESCRIPTION
---|---|---|---|---|---|---|---
2| —| —| 2| 881545-2| TE CONNECTIVITY| —| SHUNT, 2.54MM PITCH OPEN TOP GRIP,
BLACK
3| —| —| 4| NY PMS 440 0025 PH| B&F FASTENER SUPPLY| —| SCREW, MACHINE NYLON
PAN HEAD PHILLIPS 4-40 THREAD, 1/4 INCH LONG
4| —| —| 4| 1902C| KEYSTONE| —| STANDOFF, NYLON HEX FEMALE 6.35MM O.D, 4-40
THREAD, 1/2 INCH LONG
Parts That Are Part of the PCB or Are NOT to Be Installed
ITEM#| LOCATION| DNI| QTY| MFG_PN| MFG|
VALUE| DESCRIPTION
---|---|---|---|---|---|---|---
8| C8,C9,C10,C11,C12,C13| DNI| 6| VJ0402Y103KXJCW1BC| VISHAY| 0.01uF| CAP CER
0.01uF 16V 10% X7R 0402
10| C101,C102| DNI| 2| 08051A101JAT2A| AVX| 100pF| CAP CER 100pF 100V 5% C0G
0805
14| C16| DNI| 1| GRM188R71C474KA88D| MURATA| 0.47uF| CAP CER 0.47uF 16V 10%
X7R 0603
15| C17| DNI| 1| 0603YC103KAT2A| AVX CORPORATION| 0.01uF| CAP CER 0.01uF 16V
10% X7R 0603
17| C19| DNI| 1| CGA6N3X7R2A225K230A B| TDK| 2.2UF| CAP CER 2.2UF 100V 10% X7R
1210 AEC-Q200
23| C48,C49,C50,C51,C52,C53,C54,C55,C 56,C57,C58,C59,C60,C61| DNI| 14|
CGA3E2X7R1H104K080A A| TDK| 0.1uF| CAP CER 0.1uF 50V 10% X7R 0603 AEC-Q200 LOW
ESR
26| C76,C78,C79,C82| DNI| 4| CL05C150JB5NNNC| SAMSUNG| 15pF| CAP CER 15pF 50V
5% C0G 0402
32| CM1,CM2| DNI| 2| ACT45B-510-2P-TL003| TDK| 2800 OHMS| FLTR COMMON MODE
CAN-BUS
35| D15,D22,D23| DNI| 3| SP4021-01FTG| LITTELFUSE, INC.| SP4021-01FTG| DIO TVS
UNIDIRECTIONAL 5V 25A 2.5PF AEC-Q101
38| D40| DNI| 1| BAT20J| Stmicroelectronics| BAT20J| DIODE Schottky BAT20J 23V
SOD-323
44| J8| DNI| 1| SSW-104-01-G-S| SAMTEC INC.| SSW-104-01-G-S| CONN-PCB SQ POST
SOCKET STRIP ST SINGLE ROW, 2.54MM PITCH
49| R1,R2,R3,R4,R23,R24,R26,R141,R143 ,R144,R145,R148| DNI| 12| RC0603JR-
070RL| YAGEO| 0| RES SMD 0 Ohm JUMPER 1/10W 0603
50| R10,R142| DNI| 2| CRCW060310K0FKEA| VISHAY| 10K| RES SMD 10K OHM 1/10W 1%
0603
62| R137,R139| DNI| 2| CRCW060315K0FKEB| VISHAY| 15K| RES SMD 15K OHM 1% 1/10W
0603 AEC-Q200
69| R187| DNI| 1| CRCW12060000Z0EA| VISHAY| 0| RES SMD 0 Ohm 5% 1/4W 1206
AEC-Q200
73| R30,R31| DNI| 2| RCS06030000Z0EA| VISHAY| 0| RES SMD 0 OHM 1/4W JUMPER
0603 AEC-Q200
74| R32,R34| DNI| 2| ERJ-6GEY0R00V| PANASONIC| 0| RES SMD 0 Ohm 1/8W 0805
AEC-Q200
ADES1754 EV Kit Schematic
ADES1754 EV Kit PCB Layout
ADES1754 EV Kit Component Placement Guide—Top Silkscreen
ADES1754 EV Kit PCB Layout—Layer 2
ADES1754 EV Kit PCB Layout—Top
ADES1754 EV Kit PCB Layout—GND 3
ADES1754 EV Kit PCB Layout—Bottom
ADES1754 EV Kit Component Placement Guide—Bottom Silkscreen
Revision History
REVISION NUMBER | REVISION DATE | DESCRIPTION | PAGES CHANGED |
---|---|---|---|
0 | 10/23 | Initial release | — |
ALL INFORMATION CONTAINED HEREIN IS PROVIDED “AS IS” WITHOUT REPRESENTATION OR WARRANTY. NO RESPONSIBILITY IS ASSUMED BY ANALOG DEVICES FOR ITS USE, NOR FOR ANY INFRINGEMENTS OF PATENTS OR OTHER RIGHTS OF THIRD PARTIES THAT MAY RESULT FROM ITS USE. SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE. NO LICENSE, EITHER EXPRESSED OR IMPLIED, IS GRANTED UNDER ANY ADI PATENT RIGHT, COPYRIGHT, MASK WORK RIGHT, OR ANY OTHER ADI INTELLECTUAL PROPERTY RIGHT RELATING TO ANY COMBINATION, MACHINE, OR PROCESS IN WHICH ADI PRODUCTS OR SERVICES ARE USED. TRADEMARKS AND REGISTERED TRADEMARKS ARE THE PROPERTY OF THEIR RESPECTIVE OWNERS.
References
- Document Feedback Form | Analog Devices
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- Mixed-signal and digital signal processing ICs | Analog Devices
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