Fundamentals of Power Electronics
R. W. Erickson
Table of Contents
Chapter titles only
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Part I. Converters in Equilibrium
2. Principles of steady state converter analysis
3. Steady-state equivalent circuit modeling, losses, and efficiency
4. Switch realization
5. The discontinuous conduction mode
6. Converter circuits
Part II. Converter Dynamics and Control
7. AC modeling
8. Converter transfer functions
9. Controller design
10. Ac and dc equivalent circuit modeling of the discontinuous conduction mode
11. Current programmed control
Part III. Magnetics
12. Basic magnetics theory
13. Filter inductor design
14. Transformer design
Part IV. Modern Rectifiers, and Power System Harmonics
15. Power and harmonics in nonsinusoidal systems
16. Line-commutated rectifiers
17. The ideal rectifier
18. Low harmonic rectifier modeling and control
Part V. Resonant Converters
19. Resonant conversion
20. Quasi-resonant converters
Appendices
Appendix 1. RMS values of commonly-observed converter waveforms
Appendix 2. Magnetics design tables
Appendix 3. Averaged switch modeling of a CCM SEPIC
Index