SLVAEV3A June 2020 – November 2022 TPS546D24A , TPS54824
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 discussed with their advantages and how to learn more about each mode. The TI portfolio contains 12 types of control architectures for non-isolated buck switching DC/DC modules, converters and controllers.
| Document Title | Literature Number |
|---|---|
| Choosing the Right Variable-Frequency Buck-Regulator Control Strategy | SLUP319 |
| Choosing the Right Fixed-Frequency Buck-Regulator Control Strategy | SLUP317 |
| Internally Compensated Advanced Current Mode (ACM) Overview | SLYY118 |
| Understanding Frequency Variation in the DCS-Control™ Topology | SLYT646 |
| Comparing Internally-compensated Advanced Current Mode (ACM) with D-CAP3™ Control | SLYT732A |
| How to Measure the Loop Transfer Function of Power Supplies | SNVA364A |
| Control-Mode Quick Reference Guide | SLYT710A |
| Practical Comparisons of DC/DC Control Modes: 21-Part Training Series | On-line training |
| Survey of Control Modes for Step Down Converters and Controllers | On-line training |