SLLU385 July   2024

 

  1.   1
  2.   Description
  3.   Features
  4.   4
  5. 1Evaluation Module Overview
    1. 1.1 Introduction
    2. 1.2 Kit Contents
    3. 1.3 Specification
    4. 1.4 Device Information
  6. 2Hardware
    1.     Jumper Information
    2. 2.1 EVM Setup and Operation
      1. 2.1.1 Overview and Basic Operation Settings
        1. 2.1.1.1  VCC Power Supply (J3, P2, TP10)
        2. 2.1.1.2  I/O Power Supply VIO or VRXD (J3, J8, P1,or TP9)
        3. 2.1.1.3  Main Supply and I/O Header (J3)
        4. 2.1.1.4  TXD Input (J3 or TP5)
        5. 2.1.1.5  RXD Output (J3 or TP6)
        6. 2.1.1.6  Generic Pin 8 (J2, J3, or TP3)
        7. 2.1.1.7  Pin 8 - J2 Configurations (3-Way Jumper)
        8. 2.1.1.8  TP3 Configuration
        9. 2.1.1.9  Generic Pin 5 (J1, J3 or TP1)
        10. 2.1.1.10 Pin 5 – J1 Configurations (4-Way Jumper)
        11. 2.1.1.11 TP1 Configuration
        12. 2.1.1.12 J8 Configuration
        13. 2.1.1.13 SIC Network Configuration (J4 & J5)
      2. 2.1.2 Using CAN Bus Load, Termination, and Protection Configurations
      3. 2.1.3 Using Customer Installable I/O Options for Current Limiting, Pullup and Pulldown, Noise Filtering
  7. 3Hardware Design Files
    1. 3.1 Schematics
    2. 3.2 PCB Layouts
    3. 3.3 Bill of Materials (BOM)
  8. 4Additional Information
    1. 4.1 Trademarks

VCC Power Supply (J3, P2, TP10)

The basic setup of the CAN EVM uses a single power supply required to evaluate standard 5V or 3.3V single-supply transceiver device performance. For single-supply transceivers, connect the 5V or 3.3V VCC supply to the P2 banana jack, or the VCC and GND test-point loops. The power supplied must meet the required specification of VCC for the transceiver being tested.