Pulse Width Modulation for Power Converters
Principles and Practice
IEEE Press Series on Power Engineering
1. Edition October 2003
744 Pages, Hardcover
Wiley & Sons Ltd
ISBN:
978-0-471-20814-3
John Wiley & Sons
Short Description
The design of inverters employing Pulse Width Modulation (PWM) to vary the voltage and amplitude of power electronic inverters has evolved over the past forty years. This is the first comprehensive textbook to view the subject as a whole and to clarify and unify the many diverse approaches taken by researchers.
* The first single volume resource for researchers in the field who previously had to depend on separate papers and conference records to attain a working knowledge of the subject.
* Brings together the field's diverse approaches into an integrated and comprehensive theory of PWM
Forward.
Nomenclature.
Chapter 1. Introduction to Power Electronic Converters.
Chapter 2. Harmonic Distortion.
Chapter 3. Modulation of One Phase Leg.
Chapter 4. Modulation of Single Phase Voltage Source Inverters.
Chapter 5. Modulation of Three Phase Voltage Source Inverters.
Chapter 6. Zero Space Vector Placement Modulation Strategies.
Chapter 7. Modulation of Current Source Inverters.
Chapter 8. Overmodulation.
Chapter 9. Programmed Pulse Width Modulation.
Chapter 10. Programmed PWM for Multilevel Converters.
Chapter 11. Carrier Based PWM of Multilevel Inverters.
Chapter 12. Space Vector PWM for Multilevel Converters.
Chapter 13. Implementation Requirements for a Modulation Controller.
Chapter 14. Continuing Developments in Modulation.
Appendix 1. Fourier Series Representation of a Double Variable Controlled Waveform.
Appendix 2. Jacobi-Anger and Bessel Function Relationships.
Appendix 3. Three Phase and Half Cycle Symmetry Relationships.
Appendix 4. Overmodulation of a Single Phase Leg.
Appendix 5. Numeric Integration of a Double Fourier Series Representation of a Switched Waveform.
Bibliography.
Nomenclature.
Chapter 1. Introduction to Power Electronic Converters.
Chapter 2. Harmonic Distortion.
Chapter 3. Modulation of One Phase Leg.
Chapter 4. Modulation of Single Phase Voltage Source Inverters.
Chapter 5. Modulation of Three Phase Voltage Source Inverters.
Chapter 6. Zero Space Vector Placement Modulation Strategies.
Chapter 7. Modulation of Current Source Inverters.
Chapter 8. Overmodulation.
Chapter 9. Programmed Pulse Width Modulation.
Chapter 10. Programmed PWM for Multilevel Converters.
Chapter 11. Carrier Based PWM of Multilevel Inverters.
Chapter 12. Space Vector PWM for Multilevel Converters.
Chapter 13. Implementation Requirements for a Modulation Controller.
Chapter 14. Continuing Developments in Modulation.
Appendix 1. Fourier Series Representation of a Double Variable Controlled Waveform.
Appendix 2. Jacobi-Anger and Bessel Function Relationships.
Appendix 3. Three Phase and Half Cycle Symmetry Relationships.
Appendix 4. Overmodulation of a Single Phase Leg.
Appendix 5. Numeric Integration of a Double Fourier Series Representation of a Switched Waveform.
Bibliography.
D. GRAHAME HOLMES is a professor in the Department of Electrical and Computer Systems Engineering at Monash University, Australia.
THOMAS A. LIPO is a professor in the Department of Electrical and Computer Engineering at the University of Wisconsin-Madison.
THOMAS A. LIPO is a professor in the Department of Electrical and Computer Engineering at the University of Wisconsin-Madison.
