SWRU630 December   2024 AWRL6844 , IWRL6844

 

  1.   1
  2.   Description
  3.   Getting Started
  4.   Features
  5. 1Evaluation Module Overview
    1. 1.1 Introduction
    2. 1.2 Key Features
    3. 1.3 Kit Contents
    4. 1.4 Specification
    5. 1.5 Device Information
  6. 2Hardware
    1. 2.1  xWRL6844EVM Antenna
      1. 2.1.1 PCB Material
        1. 2.1.1.1 Transmitter and Receiver Virtual Array
    2. 2.2  EVM Mux Block Diagram
    3. 2.3  Switch Settings
    4. 2.4  Push Button Switches
    5. 2.5  LEDs
    6. 2.6  DC Input Jack
    7. 2.7  USB Connector
    8. 2.8  DCA1000 HD Connector
    9. 2.9  BoosterPack Connector for LaunchPad Connectivity
    10. 2.10 CAN-FD_B Connector
    11. 2.11 CAN-FD_A Connector
    12. 2.12 LIN-PHY Connector
    13. 2.13 I2C Connections
      1. 2.13.1 EEPROM
    14. 2.14 XDS110 Interface
    15. 2.15 FTDI Interface
    16. 2.16 DCA1000EVM Mode
    17. 2.17 PCB Storage and Handling Recommendations:
      1. 2.17.1 PCB Storage and Handling Recommendations
      2. 2.17.2 Higher Power Demanding Applications
  7. 3Software, Development Tools, and Example Code
  8. 4Hardware Design Files
    1. 4.1 Schematics, PCB Layout and Bill of Materials (BOM)
    2. 4.2 EVM Design Database
    3. 4.3 Hardware Design Checklist
  9. 5Additional Information
    1. 5.1 Trademarks
  10. 6References
    1. 6.1 TI E2E Community
  11. 7Revision History

DC Input Jack

The xWRL6844EVM can be powered-up using the 5V to 12V DC Jack. When DC Jack is connected, the Priority switchover is given to DC-jack's Voltage at the power mux(TPS2121).

AWRL6844EVM IWRL6844EVM
Note: After the 5V-12V power supply is provided to the EVM, TI recommends pressing the NRST switch one time to verify for a reliable boot-up state.
Note: All digital IO pins of the device (except NRESET) are not fail safe. Therefore, care needs to be taken that the digital IO pins are not driven externally without the VIO supply being present to the device.