Sustainable Development Goals
Abstract/Objectives
This content outlines a curriculum for learning about power electronics technology and application. It covers basic DC to DC converters, graft and layer techniques for power converters, dynamic modeling, closed loop control of DC converters, soft switching techniques, quasi resonant and resonant converters, and switched capacitor converters. The scope of learning covers the topology structure, working principle, and composition of power converters, as well as dynamic time-domain/frequency-domain analysis and modeling of step-up/step-down converters. Voltage and current control, switching analysis and combination, introduction to buffers are also explained. Boost-type converters are also introduced.
Results/Contributions
1. Introduction: Introduction and scope of learning of power electronics technology and application.
2. Basic DC to DC converters: Introduction to the basic components of power converters and their applications.
3. Graft & layer techniques: Topology structure, working principle, and composition of power converters.
4. Dynamic modeling of DC converters: Dynamic time-domain/frequency-domain analysis, modeling of step-up/step-down converters.
5. Closed loop control of DC converters: Voltage and current control.
6. Soft switching techniques: Switching analysis and combination, introduction to buffers.
7. Quasi resonant & resonant converters: Quasi-resonant and resonant converters.
8. Switched capacitor converters: Boost-type converters.
Keywords
Dynamic modeling of DC converterstime-domain/frequency-domain analysismodelingClosed-loop control of DC convertersvoltagecurrent control
Contact Information
吳財福教授
tfwu@ee.nthu.edu.tw