SLYT710B september   2017  – august 2023 LM22670 , LM25145 , LM2696 , LM3100 , LM3150 , LM3475 , LM3485 , LM5017 , LM5116 , LM5119 , LM5140-Q1 , LM5145 , TPS40040 , TPS40057 , TPS40170 , TPS51116 , TPS53014 , TPS53219A , TPS53355 , TPS54325 , TPS54336A , TPS543B20 , TPS543C20 , TPS543C20A , TPS54478 , TPS54610 , TPS54620 , TPS548A20 , TPS548D22 , TPS54A20 , TPS56121 , TPS56C215 , TPS62097 , TPS62130 , TPS82130

 

  1.   1
  2. Overview
  3. Voltage mode
  4. Voltage mode with voltage feed-forward
  5. Peak current mode
  6. Average current mode
  7. Emulated current mode
  8. Internally-compensated advanced current mode (ACM)
  9. Hysteretic control mode
  10. Constant on-time
  11. 10Constant on-time with emulated ripple mode
  12. 11DCS-Control™: Direct control with seamless transition into power-save mode
  13. 12Direct connection to the output capacitor (D-CAP™)
  14. 13D-CAP+™
  15. 14D-CAP2™
  16. 15D-CAP3™
  17. 16D-CAP4™

1 Overview

TI is active in the development of leading-edge control circuits to help engineers address specific design challenges. Since no control mode is optimal for every application, various control modes for non-isolated step-down controllers and converters are referenced with their advantages and how to learn more about each mode. The TI portfolio contains 15 types of control architectures for non-isolated TPS- and LM-series switching DC/DC converters and controllers.

Voltage mode Internally-compensated advanced current mode (ACM) Direct connection to the output capacitor (D-CAP™)
Voltage mode with voltage feed-forward Hysteretic control mode D-CAP+ control mode
Peak current mode Constant on-time D-CAP2™ control mode
Average current mode Constant on-time with emulated ripple mode D-CAP3™ control mode
Emulated current mode DCS-Control™: Direct control with seamless transition into power-save mode D-CAP4 control mode