SLVUDN0 November   2025

 

  1.   1
  2.   Description
  3.   Get Started
  4.   Features
  5.   Applications
  6.   6
  7. 1Evaluation Module Overview
    1. 1.1 Introduction
    2. 1.2 Kit Contents
    3. 1.3 Specification
    4. 1.4 Device Information
      1. 1.4.1 MSPM0G3507
      2. 1.4.2 AM62L
  8. 2Hardware
    1. 2.1 Additional Images
    2. 2.2 Power Requirements
    3. 2.3 Setup
    4. 2.4 Connector, Pin Header, and Jumper Settings
    5. 2.5 Interfaces
      1. 2.5.1 RS-485
      2. 2.5.2 RS-232
      3. 2.5.3 CAN
    6. 2.6 Debug Information - XDS110 Debug Probe
      1. 2.6.1 Application (or Back Channel) UART
      2. 2.6.2 Using an External Debug Probe Instead of the Onboard XDS110
    7. 2.7 Assembly Instructions
  9. 3Implementation Results
    1. 3.1 Performance Data and Results
  10. 4Hardware Design Files
    1. 4.1 Schematics
    2. 4.2 PCB Layouts
    3. 4.3 Bill of Materials (BOM)
  11. 5Additional Information
    1. 5.1 Trademarks
  12. 6Related Documentation
    1. 6.1 Supplemental Content
  13. 7Revision History

2.4 Connector, Pin Header, and Jumper Settings

Table 2-1 lists the header names and jumper settings for the AM62L-EVSE-DEV-EVM. Table 2-2 shows the screw terminal pinouts.

Table 2-1 Header Names and Jumper Settings
DESIGNATOR FUNCTIONALITY COMMENTS
J2 5V connector 5V output
J3 Lumissil debug header

UART connection for Lumissil IS31CG5317-LQLS3

  • Pin 1: UART RX
  • Pin 2: GND
  • Pin 3: UART TX
J5 CCS configuration

Configures the CCS hardware ether as EVSE or EV for back-to-back testing

  • Pin 1 and 2: EVSE
  • Pin 2 and 3: EV
J6 CCS proximity pilot header

Configures PP between Type 1, NACS, and Type 2 plugs

  • Populated: Type 2
  • Unpopulated: Type 1, NACS
J8 GB/T configuration header

Configures the GB/T hardware ether as EVSE or EV for back-to-back testing

  • Pin 1 and 2: EVSE
  • Pin 2 and 3: EV
J9 GB/T – ChaoJi test setup selection header

Configures the GB/T test hardware ether for GB/T or ChaoJi

  • Pin 1 and 2: ChaoJi
  • Pin 2 and 3: GB/T
J12 Pluck lock mode setting

Configures the control mode of the DRV8220. Must be set before the device starts-up.

  • Populated: PH/EN Mode
  • Unpopulated: Half Bridge Mode
J24 MSP debug header

Header to connect or disconnect the onboard XDS110 debug probe. Remove jumper to connect an external debug probe to the MSPM0.

  • Pin 1: 3.3V
  • Pin 2: 3.3V
  • Pin 3: GND
  • Pin 4: GND
  • Pin 5: MSPM0 PA9 (55) – UART1 RX
  • Pin 6: XDS110 – TXD
  • Pin 7: MSPM0 PA8 (54) – UART1 TX
  • Pin 8: XDS110 – RXD
  • Pin 9: MSPM0 nRST (38)
  • Pin 10: XDS110 reset out
  • Pin 11: MSPM0 PA19 (12) – SWDIO
  • Pin 12: XDS110 TMS SWDIO
  • Pin 13: MSPM0 PA20 (13) – SWCLK
  • Pin 14: XDS110 TCK SWDCLK
J29 CAN 2 header

CAN input from the AM62L to the TCAN device

  • Pin 1: CAN TX
  • Pin 2: CAN RX
  • Pin 3: GND
J32 I2C header

Connected to the AM62L for possible I2C communication

  • Pin 1: I2C SCL
  • Pin 2: I2C SDA
  • Pin 3: GND
Table 2-2 Screw Terminal Pinouts
DESIGNATOR FUNCTIONALITY COMMENTS
J1 Auxiliary power supply input External 12V input (10.08V–13.2V, 5A)
J4 CCS, NACS

Connects to charging plug for CCS or NACS

  • Pin 1: CCS PP - Proximity Pilot
  • Pin 2: CCS PE - Protective Earth
  • Pin 3: CCS CP - Control Pilot
J7 GB/T, ChaoJi

Connects to charging plug for GB/T or ChaoJi

  • Pin 1: GBT PE - Protective earth
  • Pin 2: GBT CC1 - charging conformation 1
J10 CHAdeMO

Connects to charging plug for CHAdeMO

  • Pin 1: CDM PE - Protective earth
  • Pin 2: CDM PD - Proximity detection
J11 CHAdeMO

Connects to charging plug for CHAdeMO

  • Pin 1: CDM CP - Vehicle Charge Permission
  • Pin 2: CDM CS2 - Charge Sequence 2
  • Pin 3: CDM CS1 - Charge Sequence 1
J13 Pluck lock

Connects to charging Inlet or plug

  • Pin 1: LO+ Lock Motor Positive Terminal
  • Pin 2: LO- Lock Motor Negative Terminal
  • Pin 3: LO- CDM – CHAdeMO Lock Negative Terminal
J14 Pluck lock feedback

Connects to charging Inlet or plug

  • Pin 1: LO GND – Ground for Feedback
  • Pin 2: LO 12V – 12V Supply for Feedback
  • Pin 3: LO FB – Feedback input
J15 Temperature sensing

Connects to charging Inlet or plug

  • Pin 1: PTC GND – Ground for temperature sensors
  • Pin 2: PTC 2 – Temperature Sensor 2 input
  • Pin 3: PTC 1 – Temperature Sensor 1 input
J16 RS-485

RS-485 connector

  • Pin 1: RS GND – Ground
  • Pin 2: RS485 P – Bus I/O port, A
  • Pin 3: RS485 N – Bus I/O port, B
J17 RS-232

RS-232 connector

  • Pin 1: RS GND
  • Pin 2: RS232 TX – RS232 line data output
  • Pin 3: RS232 RX – RS232 line data input
J18 CAN 1

CAN 1 connector

  • Pin 1: CAN GND
  • Pin 2: CAN 1 N – Low-level CAN bus I/O
  • Pin 3: CAN 1 P – High-level CAN bus I/O
J19 CAN 2

CAN 2 connector

  • Pin 1: CAN GND
  • Pin 2: CAN 2 N – Low-level CAN bus I/O
  • Pin 3: CAN 2 P – High-level CAN bus I/O
J20 Digital output

Digital output connector

  • Pin 1: IO OUT 3 – Digital output 3
  • Pin 2: IO OUT 2 – Digital output 2
  • Pin 3: IO OUT 1 – Digital output 1
J21 Digital input

Digital input connector:

  • Pin 1: IO IN 2 – Digital input 2
  • Pin 2: IO IN 1 – Digital input 1
J22 Analog input

Analog input connector

  • Pin 1: IO GND – Ground
  • Pin 2: IO IN 3 – Analog input
J23 Digital output

Digital output connector

  • Pin 1: IO GND – Ground
  • Pin 2: IO COM – Supply input
J30 RCD input

RCD input connector

  • Pin 1: RCD 12V – 12V output for RCD
  • Pin 2: RCD GND – Ground
  • Pin 3: RCD ER – Error input
J31 RCD input

RCD input connector

  • Pin 1: RCD RST – Reset output
  • Pin 2: RCD TST – Test output
  • Pin 3: RCD nER – Negative active Error input