Pulse Width Modulation For Power Converters: Principles And Practice

D. Grahame Holmes, Thomas A. Lipo

  • 出版商: Wiley-IEEE Press
  • 出版日期: 2003-10-03
  • 售價: $6,243
  • 貴賓價: 9.5$5,931
  • 語言: 英文
  • 頁數: 744
  • 裝訂: Hardcover
  • ISBN: 0471208140
  • ISBN-13: 9780471208143

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Description:

An integrated and comprehensive theory of PWM

The selection of the best algorithm for optimum pulse width modulation is an important process that can result in improved converter efficiency, better load (motor) efficiency, and reduced electromagnetic interference. However, the identification of the best approach is a complex process requiring extensive mathematical manipulation.

Pulse Width Modulation for Power Converters: Principles and Practice is the first single-volume resource written to help researchers in the field attain a working knowledge of the subject. The authors bring together today’s seemingly diverse approaches into a single integrated and comprehensive theory of modulation.

The book provides a generalized approach to the fundamentals of PWM, looking at:

  • Active switch pulse width determination
  • Active switch pulse placement within a switching period
  • Active switch pulse sequence between phase legs and across switching periods

The main benefit of this generalized concept is that once the common threads are identified, the selection of a modulation strategy for any converter topology becomes immediately clear, leaving only secondary factors, such as practical performance, cost, and difficulty of implementation to consider. Additionally, it allows the performance of any particular converter topology and PWM strategy to be quickly and easily identified without complex and time-consuming analysis. Pulse Width Modulation for Power Converters: Principles and Practice enables the reader to achieve optimum PWM results for any application.

 

Table of Contents:

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.