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Instantaneous Power Theory and Applications to Power Conditioning

ISBN: 978-0-470-10761-4
379 pages
March 2007, Wiley-IEEE Press
Instantaneous Power Theory and Applications to Power Conditioning (0470107618) cover image
This book presents a deep review of various power theories and shows how the instantaneous active and reactive power theory provides an important basic knowledge for understanding and designing active filters for power conditioning. The only book of its kind, it also demonstrates how the instantaneous active and reactive power theory can be used for combined shunt-series filters and in Flexible AC Transmission Systems (FACTS).
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Preface.

1. Introduction.

1.1. Concepts and Evolution of Electric Power Theory.

1.2. Applications of the p-q Theory to Power Electronics Equipment.

1.3. Harmonic Voltages in Power Systems.

1.4. Identified and Unidentified Harmonic-Producing Loads.

1.5. Harmonic Current and Voltage Sources.

1.6. Basic Principles of Harmonic Compensation.

1.7. Basic Principles of Power Flow Control.

References.

2. Electric Power Definitions: Background.

2.1. Power Definitions Under Sinusoidal Conditions.

2.2. Voltage and Current Phasors and the Complex Impedance.

2.3. Complex Power and Power Factor.

2.4. Concepts of Power Under Non-Sinusoidal Conditions -Conventional Approaches.

2.5. Electric Power in Three-Phase Systems.

2.6. Summary.

References.

3 The Instantaneous Power Theory.

3.1. Basis of the p-q Theory.

3.2. The p-q Theory in Three-Phase, Three-Wire Systems.

3.3. The p-q Theory in Three-Phase, Four-Wire Systems.

3.4. Instantaneous abc Theory.

3.5. Comparisons between the p-q Theory and the abc Theory.

3.6. Summary.

References.

4 Shunt Active Filters.

4.1. General Description of Shunt Active Filters.

4.2. Three-Phase, Three-Wire Shunt Active Filters.

4.3. Three-Phase, Four-Wire Shunt Active Filters.

4.4. Shunt Selective Harmonic Compensation.

4.5. Summary.

References.

5 Hybrid and Series Active Filters.

5.1. Basic Series Active Filter.

5.2. Combined Series Active Filter and Shunt Passive Filter.

5.3. Series Active Filter Integrated with a Double-Series Diode Rectifier.

5.4. Comparisons Between Hybrid and Pure Active Filters.

5.5. Conclusions.

References.

6 Combined Series and Shunt Power Conditioners.

6.1. The Unified Power Flow Controller (UPFC).

6.2. The Unified Power Quality Conditioner (UPQC).

6.3. The Universal Active Power Line Conditioner (UPLC).

6.4. Summary.

References.

Index.

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Hirofumi Akagi is Professor of Electrical Engineering at the Tokyo Institute of Technology, where he teaches power electronics. He was elected as a Fellow of the IEEE in 1996, and as a Distinguished Lecturer of the IEEE Industry Applications and Power Electronics Societies for 1998–1999. He was the recipient of both the IEEE William E. Newell Power Electronics Award in 2001 and the IEEE Industry Applications Society Outstanding Achievement Award in 2004.

Edson Hirokazu Watanabe is Professor of Electrical Engineering at the Federal University of Rio de Janeiro (UFRJ), where he teaches power electronics. He is a Senior Member of IEEE and has published papers in IEEE Transactions and IEE Proceedings. In 2005, he was admitted to the National Order of Scientific Merit (Brazil).

Mauricio Aredes is Associate Professor of Electrical Engineering at the Federal University of Rio de Janeiro (UFRJ), where he teaches power electronics. He has published more than twenty peer-reviewed journal papers and eighty in conference proceedings.

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