视频选集 1-课程介绍 2-课程概况 3-课程内容 Section 2.1 Introduction of converters Section 2.2 Volt-second balance, charge balance and small ripple approximation Section 2.3 Boost converter example Section 2.4&2.5 Cuk converter example and Estimating ripple Section 3.1 The dc transformer model Section 3.1 Review Section 3.2 Inclusion of inductor copper loss Section 3.3 Construction of equivalent circuit model Section 3.4 How to obtain the input port of the model Section 3.5 Inclusion of semiconductor conduction losses in the boost converter Section 4.1.1 Single-quadrant switches Section 4.1.2 Current-bidirectional two-quadrant switches Section 4.1.3-4.1.5 Volt-bidirectional, Four-quadrant and Synchronous rectifiers Section 4.2 Power semiconductor devices Section 4.2.1.1 Diode rectifiers Section 4.2.1.2 Equivalent circuit modeling of switching loss Section 4.2.1.3 Switching loss Section 4.2.1.4 More about rectifiers Section 4.2.2.1 Power MOSFETs Section 4.2.2.2 MOSFET gate drivers Section 4.2.3 BJTs and IGBTs Section 4.3 More about switching loss Section 5.1 Origin of DCM and mode boundary Section 5.2 Analysis of the conversion ratio M(D,K) Section 5.3 Boost converter example Section 6.1.1&6.1.2 DC-DC converter topologies Section 6.1.4 How to synthesize an inverter Section 6.2 A short list of nonisolated converters Section 6.3.1 Transformer Section 6.3.2 The forward converter Section 6.3.4 The flyback converter Section 7.1 Introduction to AC modeling Section 7.2.1&7.2.3&7.2.4 Averaged AC modeling Section 7.2.2 Discussion of averaging Section 7.2.5 Perturbation and linearization Section 7.2.6-7.2.8 Construction of equivalent circuit Section 7.6 Modeling the pulse-width modulator Section 7.5 The canonical model Section 7.3 State-space averaging Section 8.0 Introduction to design-oriented analysis Section 8.1.1 Review of Bode diagrams: pole Section 8.1.2-8.1.4 Other basic terms Section 8.1.5 Combinations Section 8.1.6 Second-order response: resonance Section 8.1.7 The low-Q approximation Section 8.1.8 Analytical factoring of higher-order polynomials Section 8.2.1 Analysis of converter transfer functions Section 8.2.2 Transfer functions of basic converters Section 8.3.1 Graphical construction of impedances Section 8.3.5 Graphical construction of converter transfer functions Section 8.3.3 Graphical construction of parallel and more complex impedances Section 9.1&9.2 Introduction and Effect of negative feedback Section 9.3 Construction of closed-loop transfer functions Section 9.4.1 Stability Section 9.4.2 Phase margin vs. closed-loop Q Section 9.5.1-9.5.3 Regulator design Section 9.5.4 Design example Section9.5.4 Op-amp compensator design Section 9.5.5 Another example Epilog
