SPRUIL8B May   2019  – May 2020 TMS320F28384D , TMS320F28384S , TMS320F28386D , TMS320F28386S , TMS320F28388D , TMS320F28388S

 

  1.   TMS320F28388D controlCARD Information Guide
    1.     Trademarks
    2. 1 Introduction
    3. 2 Hardware Quick Setup Guide
    4. 3 Errata
      1. 3.1 Warnings, Notes, and Errata
      2. 3.2 Warnings and Notes for All controlCARDs
      3. 3.3 Warnings About Specific controlCARD Revisions
    5. 4 Getting Familiar With the controlCARD
      1. 4.1 F28388D controlCARD Features
      2. 4.2 Assumed Operating Conditions
      3. 4.3 Using the controlCARD
        1. 4.3.1 Clocking Configuration
      4. 4.4 Experimentation Software
    6. 5 Special Notes
      1. 5.1 XDS100v2 Emulator and SCI (UART) Connectivity
      2. 5.2 External Connector
    7. 6 Hardware References
    8. 7 References
  2.   Revision History

3.3 Warnings About Specific controlCARD Revisions

For more information, see Section 3.2.

MCU063E1

  • The E1 version of the controlCARD contains an error. These controlCARDs have had two cut traces and a blue wire soldered between U17 and R111 to correct this issue.
    • Fix: None, functionality is identical to later versions of the controlCARD.
  • U20 is a non-inverting buffer. D7 and D8 will be inverted when driven by the ECAT module
    • Fix: You must drive D7 and D8 using the GPIO function. Later versions of the controlCARD use an inverting buffer.
  • R44 is populated by default.
    • Fix: None, you can choose to depopulate R44.
  • A 56 Ω resistor is missing from this design, which can effect long-term system reliability.
    • A single 56 Ω resistor (10% or better tolerance) should be placed between VDD and VSS in all end systems. This resistor provides a load to consume an internal VDD3VFL to VDD current source and avoid VDD voltage rising during low power device conditions.

MCU063E2

  • A 56 Ω resistor is missing from this design, which can effect long-term reliability.
    • A single 56 Ω resistor (10% or better tolerance) should be placed between VDD and VSS in all end systems. This resistor provides a load to consume an internal VDD3VFL to VDD current source and avoid VDD voltage rising during low power device conditions.

MCU063A

  • A 56 Ω resistor is missing from this design, which can effect long-term reliability.
    • A single 56 Ω resistor (10% or better tolerance) should be placed between VDD and VSS in all end systems. This resistor provides a load to consume an internal VDD3VFL to VDD current source and avoid VDD voltage rising during low power device conditions.

MCU063B

  • Defaults to a 25 MHz clock input. For more information, see Section 3.2.