Principles of Power ElectronicsThis textbook offers broad coverage of the subject of power electronics. Each topic is developed in sufficient depth to expose the fundamental principles, concepts, techniques, methods, and circuits necessary to understand power electronic systems. The applications are diverse enough to expose students to numerous types of systems. The authors have paid particular attention to developing examples and exercises that promote innovative ways of thinking about problems, methods of analysis, and the use of approximations. |
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Contents
Introduction | 1 |
FORM AND FUNCTION | 9 |
Introduction to Rectifier Circuits | 31 |
Copyright | |
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ac/dc amplitude approximately assume averaged model base current behavior bipolar Bode plots capacitance capacitor carrier Chapter circuit of Fig closed-loop collector commutation component constant converter of Fig core cycle cycloconverter D₁ D₂ dc/dc converter determine device diode dissipation doped drive duty ratio emitter energy Example Figure filter flow flux gate harmonic indirect converter inductance inductor inductor current inverter leakage inductance linearized linearized model load current magnetic MOSFET negative Nyquist plot operation output voltage parameters phase-controlled pin diode power circuit power electronic Q₂ rectifier region resistance resistor resonant converter result reverse ripple sampled-data model Schottky diode semiconductor shown in Fig sinusoidal snubber state-space model switching frequency t₁ temperature terminal thermal thyristor topology transfer function transformer transistor TRIAC turn turn-off turn-on up/down converter V₁ V₂ variables voltage and current voltage source waveforms zero