SLUAAS7 December   2023 UCD3138 , UCD3138064 , UCD3138064A , UCD3138128 , UCD3138128A , UCD3138A , UCD3138A64

 

  1.   1
  2.   Abstract
  3.   Trademarks
  4. Quick Start
  5. Ecosystem
  6. Introduction
  7. TI Controller Options for Power Supplies
    1. 4.1 Power Controller Landscape
    2. 4.2 UCD3138x Product Selection
  8. TI Hardware
    1. 5.1 Open Loop EVMs
    2. 5.2 Application EVMs
    3. 5.3 Control Cards
    4. 5.4 Reference Designs
  9. Programmers and Debuggers
    1. 6.1 USB-to-GPIO2 Interface Adapter
    2. 6.2 JTAG Debuggers
  10. Software
    1. 7.1 UCD3138x Training Labs
    2. 7.2 UCD3138 Application Development Firmware Kit
    3. 7.3 Custom Firmware
  11. Development Tools
    1. 8.1 Code Composer Studio (CCS)
    2. 8.2 Fusion Digital Power Studio
    3. 8.3 UniFlash
  12. Application
    1. 9.1 Multiple Series Power Stages
    2. 9.2 Multiple Parallel Power Stages
    3. 9.3 High Performance and External Communication
    4. 9.4 High Power Density
  13. 10Support Resources
    1. 10.1 Documentation
    2. 10.2 TI E2E Support Forum
  14. 11Summary
  15. 12References

9 Application

This section discusses how to use the UCD3138x devices in various power converters and how these devices can improve your design.

The UCD3138x devices excel in a wide variety of applications. Five of the main categories are highlighted below:

  • Multiple Series Power Stages
  • Multiple Parallel Power Stages
  • High Performance
  • External Communication
  • High Power Density

The UCD3138x devices achieve high performance and high flexibility with a dedicated hardware-based power stage controller. This is a configurable control loop that is etched into the silicon and is independent from the MCU. Thus, the control loop is easy to configure and is not limited by the MCU bandwidth.

GUID-20231127-SS0I-0TC0-0R6L-BCSV05X0Z797-low.svg Figure 9-1 Functional Block Diagram of the UCD3138x Devices