1. Auflage - März 2010
112,- Euro
2010. 452 Seiten, Hardcover
ISBN-10: 0-470-52156-2
ISBN-13: 978-0-470-52156-4 - John Wiley & Sons

Preis inkl. Mehrwertsteuer zzgl. Versandkosten.





Probekapitel

Kurzbeschreibung
This book provides a comprehensive modeling approach, detailed control design methodologies and procedures, and wide coverage of the applications of voltage-sourced power electronic converters in electric power systems. Typical applications include wind power conversion and integration in the utility power system; solar-PV power conversion and integration in electric power systems; and, various types of distributed energy resource integration in electric distribution systems.

Aus dem Inhalt
PREFACE.

ACKNOWLEDGMENTS.

ACRONYMS.

1 Electronic Power Conversion.

1.1 Introduction.

1.2 Power-Electronic Converters and Converter Systems.

1.3 Applications of Electronic Converters in Power Systems.

1.4 Power-Electronic Switches.

1.5 Classification of Converters.

1.6 Voltage-Sourced Converter.

1.7 Basic Configurations.

1.8 Scope of the Book.

PART I FUNDAMENTALS.

2 DC/AC Half-Bridge Converter.

2.1 Introduction.

2.2 Converter Structure.

2.3 Principles of Operation.

2.4 Converter Switched Model.

2.5 Converter Averaged Model.

2.6 Nonideal Half-Bridge Converter.

3 Control of Half-Bridge Converter.

3.1 Introduction.

3.2 AC-Side Control Model of Half-Bridge Converter.

3.3 Control of Half-Bridge Converter.

3.4 Feed-Forward Compensation.

3.5 Sinusoidal Command Following.

4 Space Phasors and Two-Dimensional Frames.

4.1 Introduction.

4.2 Space-Phasor Representation of a Balanced Three-Phase Function.

4.3 Space-Phasor Representation of Three-Phase Systems.

4.4 Power in Three-Wire Three-Phase Systems.

4.5 a²-Frame Representation and Control of Three-Phase Signals and Systems.

4.6 dq-Frame Representation and Control of Three-Phase Systems.

5 Two-Level, Three-Phase Voltage-Sourced Converter.

5.1 Introduction.

5.2 Two-Level Voltage-Sourced Converter.

5.3 Models and Control of Two-Level VSC.

5.4 Classification of VSC Systems.

6 Three-Level, Three-Phase, Neutral-Point Clamped, Voltage-Sourced Converter.

6.1 Introduction.

6.2 Three-Level Half-Bridge NPC.

6.3 PWM Scheme For Three-Level Half-Bridge NPC.

6.4 Switched Model of Three-Level Half-Bridge NPC.

6.5 Averaged Model of Three-Level Half-Bridge NPC.

6.6 Three-Level NPC.

6.7 Three-Level NPC with Capacitive DC-Side Voltage Divider.

7 Grid-Imposed Frequency VSC System: Control in a²-Frame.

7.1 Introduction.

7.2 Structure of Grid-Imposed Frequency VSC System.

7.3 Real-/Reactive-Power Controller.

7.4 Real-/Reactive-Power Controller Based on Three-Level NPC.

7.5 Controlled DC-Voltage Power Port.

8 Grid-Imposed Frequency VSC System: Control in dq-Frame.

8.1 Introduction.

8.2 Structure of Grid-Imposed Frequency VSC System.

8.3 Real-/Reactive-Power Controller.

8.4 Current-Mode Control of Real-/Reactive-Power Controller.

8.5 Real-/Reactive-Power Controller Based on Three-Level NPC.

8.6 Controlled DC-Voltage Power Port.

9 Controlled-Frequency VSC System.

9.1 Introduction.

9.2 Structure of Controlled-Frequency VSC System.

9.3 Model of Controlled-Frequency VSC System.

9.4 Voltage Control.

10 Variable-Frequency VSC System.

10.1 Introduction.

10.2 Structure of Variable-Frequency VSC System.

10.3 Control of Variable-Frequency VSC System.

PART II APPLICATIONS.

11 Static Compensator (STATCOM).

11.1 Introduction.

11.2 Controlled DC-Voltage Power Port.

11.3 STATCOM Structure.

11.4 Dynamic Model for PCC Voltage Control.

11.5 Approximate Model of PCC Voltage Dynamics.

11.6 STATCOM Control.

11.7 Compensator Design for PCC Voltage Controller.

11.8 Model Evaluation.

12 Back-to-Back HVDC Conversion System.

12.1 Introduction.

12.2 HVDC System Structure.

12.3 DVDC Model System.

12.4 HVDC System Control.

12.5 HVDC System Performance Under an Asymmetrical Fault.

13 Variable-SpeedWind-Power System.

13.1 Introduction.

13.2 Constant-Speed and Variable-Speed Wind-Power Systems.

13.3 Wind Turbine Characteristics.

13.4 Maximum Power Extraction from A Variable-Speed Wind-Power System.

13.5 Variable-Speed Wind-Power System Based on Doubly-Fed Asynchronous Machine.

APPENDIXA: Space-Phasor Representation of Symmetrical Three-Phase.

Electric Machines.

A.1 Introduction.

A.2 Structure of Symmetrical Three-Phase Machine.

A.3 Machine Electrical Model.

A.4 Machine Equivalent Circuit.

A.5 Permanent-Magnet Synchronous Machine (PMSM).

APPENDIX B: Per-Unit Values for VSC Systems.

B.1 Introduction.

REFERENCES.

INDEX.