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1. Principals of resonant converters and comparison with classic pulse-width-modulated DC converters,
2. Sinusoidal approximation for analysis of resonant converters,
3. Operation modes for above- and under- resonant frequency, operation with zero current and zero voltage switching,
4. State-plane analysis and averaging,
5. Flux and charge arguments, state-plane trajectories for LC circuits,
6. Series resonant converter: Operating modes, continuous-current mode operation, control and output plane characteristics, boundaries between modes,
7. Series resonant converter: Operating modes, discontinuous-current mode operation, control and output plane characteristics, boundaries between modes,
8. Parallel resonant converter: Operating modes, continuous-current mode operation, control and output plane characteristics, boundaries between modes,
9. Parallel resonant converter: Operating modes, discontinuous-current mode operation, control and output plane characteristics, boundaries between modes,
10. Quasi-resonant converters, half- and full-wave zero current switching and derivation of output characteristics,
11. Analysis of half- and full-wave zero voltage switching resonant converters, derivation of output characteristics,
12. Small-signal modeling of resonant converters and derivation of equivalent circuit,
13. Transfer functions of resonant converters and frequency-controlled regulator design,
14. Three-phase zero current and zero voltage resonant rectifiers. |