Ned Mohan, Tore M. Undeland, William P. Robbins
Power Electronics
Converters, Applications, and Design
Ned Mohan, Tore M. Undeland, William P. Robbins
Power Electronics
Converters, Applications, and Design
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Offering step-by-step, in-depth coverage, the new Third Edition of Power Electronics: Converters, Applications, and Design provides a cohesive presentation of power electronics fundamentals for applications and design in the power range of 500 kW or less. The text describes a variety of practical and emerging power electronic converters made feasible by the new generation of power semiconductor devices. The new edition is now enhanced with a new CD-ROM, complete with PSpice-based examples, a new magnetics design program, and PowerPoint slides.
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Offering step-by-step, in-depth coverage, the new Third Edition of Power Electronics: Converters, Applications, and Design provides a cohesive presentation of power electronics fundamentals for applications and design in the power range of 500 kW or less. The text describes a variety of practical and emerging power electronic converters made feasible by the new generation of power semiconductor devices. The new edition is now enhanced with a new CD-ROM, complete with PSpice-based examples, a new magnetics design program, and PowerPoint slides.
Produktdetails
- Produktdetails
- Verlag: John Wiley & Sons / John Wiley & Sons Inc
- 3. Auflage
- Seitenzahl: 832
- Erscheinungstermin: 8. November 2002
- Englisch
- Abmessung: 261mm x 184mm x 32mm
- Gewicht: 1387g
- ISBN-13: 9780471226932
- ISBN-10: 0471226939
- Artikelnr.: 22222802
- Verlag: John Wiley & Sons / John Wiley & Sons Inc
- 3. Auflage
- Seitenzahl: 832
- Erscheinungstermin: 8. November 2002
- Englisch
- Abmessung: 261mm x 184mm x 32mm
- Gewicht: 1387g
- ISBN-13: 9780471226932
- ISBN-10: 0471226939
- Artikelnr.: 22222802
Ned Mohan is the Oscar A. Schott Professor of Power Electronics at the University of Minnesota, He has numerous patents and publications in this field. He is a Fellow of the IEEE. Tore M. Undeland is a professor in Power Electronics in the Faculty of Information Technology, Mathematics and Electrical Engineering at the Norwegian University of Science and Technology, NTNU, Trondheim, Norway. He is also a scientific advisor to the SINTEF Energy Research. William P. Robbins is a professor in the Department of Electrical and Computer Engineering at the University of Minnesota. Prior to joining the University of Minnesota, he was a research engineer at the Boeing Company.
PART 1. INTRODUCTION. Chapter 1. Power Electronic Systems. Chapter 2.
Overview of Power Semiconductor Switches. Chapter 3. Review of Basic
Electrical and Magnetic Circuit Concepts. Chapter 4. Computer Simulation of
Power Electronic Converters and Systems. PART 2. GENERIC POWER ELECTRONIC
CIRCUITS. Chapter 5. Line-Frequency Diode Rectifiers: Line-Frequency ac
Uncontrolled dc. Chapter 6. Line-Frequency Phase-Controlled Rectifiers and
Inverters: Line-Frequency ac Controlled dc. Chapter 7. dc-dc Switch-Mode
Converters. Chapter 8. Switch-Mode dc-ac Inverters: dc Sinusoidal ac.
Chapter 9. Resonant Converters: Zero-Voltage and/or Zero-Current
Switchings. PART 3. POWER SUPPLY APPLICATIONS. Chapter 10. Switching dc
Power Supplies. Chapter 11. Power Conditioners and Uninterruptible Power
Supplies. PART 4. MOTOR DRIVE APPLICATIONS. Chapter 12. Introduction to
Motor Drives. Chapter 13. dc Motor Drives. Chapter 14. Induction Motor
Drives. Chapter 15. Synchronous Motor Drives. PART 5. OTHER APPLICATIONS.
Chapter 16. Residential and Industrial Applications. Chapter 17. Electric
Utility Applications. Chapter 18. Optimizing the Utility Interface with
Power Electronic Systems. PART 6. SEMICONDUCTOR DEVICES. Chapter 19. Basic
Semiconductor Physics. Chapter 20. Power Diodes. Chapter 21. Bipolar
Junction Transistors. Chapter 22. Power MOSFETs. Chapter 23. Thyristors.
Chapter 24. Gate Turn-Off Thyristors. Chapter 25. Insulated Gate Bipolar
Transistors. Chapter 26. Emerging Devices and Circuits. PART 7. PRACTICAL
CONVERTER DESIGN CONSIDERATIONS. Chapter 27. Snubber Circuits. Chapter 28.
Gate and Base Drive Circuits. Chapter 29. Component Temperature Control and
Heat Sinks. Chapter 30. Design of Magnetic Components. Index.
Overview of Power Semiconductor Switches. Chapter 3. Review of Basic
Electrical and Magnetic Circuit Concepts. Chapter 4. Computer Simulation of
Power Electronic Converters and Systems. PART 2. GENERIC POWER ELECTRONIC
CIRCUITS. Chapter 5. Line-Frequency Diode Rectifiers: Line-Frequency ac
Uncontrolled dc. Chapter 6. Line-Frequency Phase-Controlled Rectifiers and
Inverters: Line-Frequency ac Controlled dc. Chapter 7. dc-dc Switch-Mode
Converters. Chapter 8. Switch-Mode dc-ac Inverters: dc Sinusoidal ac.
Chapter 9. Resonant Converters: Zero-Voltage and/or Zero-Current
Switchings. PART 3. POWER SUPPLY APPLICATIONS. Chapter 10. Switching dc
Power Supplies. Chapter 11. Power Conditioners and Uninterruptible Power
Supplies. PART 4. MOTOR DRIVE APPLICATIONS. Chapter 12. Introduction to
Motor Drives. Chapter 13. dc Motor Drives. Chapter 14. Induction Motor
Drives. Chapter 15. Synchronous Motor Drives. PART 5. OTHER APPLICATIONS.
Chapter 16. Residential and Industrial Applications. Chapter 17. Electric
Utility Applications. Chapter 18. Optimizing the Utility Interface with
Power Electronic Systems. PART 6. SEMICONDUCTOR DEVICES. Chapter 19. Basic
Semiconductor Physics. Chapter 20. Power Diodes. Chapter 21. Bipolar
Junction Transistors. Chapter 22. Power MOSFETs. Chapter 23. Thyristors.
Chapter 24. Gate Turn-Off Thyristors. Chapter 25. Insulated Gate Bipolar
Transistors. Chapter 26. Emerging Devices and Circuits. PART 7. PRACTICAL
CONVERTER DESIGN CONSIDERATIONS. Chapter 27. Snubber Circuits. Chapter 28.
Gate and Base Drive Circuits. Chapter 29. Component Temperature Control and
Heat Sinks. Chapter 30. Design of Magnetic Components. Index.
PART 1. INTRODUCTION. Chapter 1. Power Electronic Systems. Chapter 2.
Overview of Power Semiconductor Switches. Chapter 3. Review of Basic
Electrical and Magnetic Circuit Concepts. Chapter 4. Computer Simulation of
Power Electronic Converters and Systems. PART 2. GENERIC POWER ELECTRONIC
CIRCUITS. Chapter 5. Line-Frequency Diode Rectifiers: Line-Frequency ac
Uncontrolled dc. Chapter 6. Line-Frequency Phase-Controlled Rectifiers and
Inverters: Line-Frequency ac Controlled dc. Chapter 7. dc-dc Switch-Mode
Converters. Chapter 8. Switch-Mode dc-ac Inverters: dc Sinusoidal ac.
Chapter 9. Resonant Converters: Zero-Voltage and/or Zero-Current
Switchings. PART 3. POWER SUPPLY APPLICATIONS. Chapter 10. Switching dc
Power Supplies. Chapter 11. Power Conditioners and Uninterruptible Power
Supplies. PART 4. MOTOR DRIVE APPLICATIONS. Chapter 12. Introduction to
Motor Drives. Chapter 13. dc Motor Drives. Chapter 14. Induction Motor
Drives. Chapter 15. Synchronous Motor Drives. PART 5. OTHER APPLICATIONS.
Chapter 16. Residential and Industrial Applications. Chapter 17. Electric
Utility Applications. Chapter 18. Optimizing the Utility Interface with
Power Electronic Systems. PART 6. SEMICONDUCTOR DEVICES. Chapter 19. Basic
Semiconductor Physics. Chapter 20. Power Diodes. Chapter 21. Bipolar
Junction Transistors. Chapter 22. Power MOSFETs. Chapter 23. Thyristors.
Chapter 24. Gate Turn-Off Thyristors. Chapter 25. Insulated Gate Bipolar
Transistors. Chapter 26. Emerging Devices and Circuits. PART 7. PRACTICAL
CONVERTER DESIGN CONSIDERATIONS. Chapter 27. Snubber Circuits. Chapter 28.
Gate and Base Drive Circuits. Chapter 29. Component Temperature Control and
Heat Sinks. Chapter 30. Design of Magnetic Components. Index.
Overview of Power Semiconductor Switches. Chapter 3. Review of Basic
Electrical and Magnetic Circuit Concepts. Chapter 4. Computer Simulation of
Power Electronic Converters and Systems. PART 2. GENERIC POWER ELECTRONIC
CIRCUITS. Chapter 5. Line-Frequency Diode Rectifiers: Line-Frequency ac
Uncontrolled dc. Chapter 6. Line-Frequency Phase-Controlled Rectifiers and
Inverters: Line-Frequency ac Controlled dc. Chapter 7. dc-dc Switch-Mode
Converters. Chapter 8. Switch-Mode dc-ac Inverters: dc Sinusoidal ac.
Chapter 9. Resonant Converters: Zero-Voltage and/or Zero-Current
Switchings. PART 3. POWER SUPPLY APPLICATIONS. Chapter 10. Switching dc
Power Supplies. Chapter 11. Power Conditioners and Uninterruptible Power
Supplies. PART 4. MOTOR DRIVE APPLICATIONS. Chapter 12. Introduction to
Motor Drives. Chapter 13. dc Motor Drives. Chapter 14. Induction Motor
Drives. Chapter 15. Synchronous Motor Drives. PART 5. OTHER APPLICATIONS.
Chapter 16. Residential and Industrial Applications. Chapter 17. Electric
Utility Applications. Chapter 18. Optimizing the Utility Interface with
Power Electronic Systems. PART 6. SEMICONDUCTOR DEVICES. Chapter 19. Basic
Semiconductor Physics. Chapter 20. Power Diodes. Chapter 21. Bipolar
Junction Transistors. Chapter 22. Power MOSFETs. Chapter 23. Thyristors.
Chapter 24. Gate Turn-Off Thyristors. Chapter 25. Insulated Gate Bipolar
Transistors. Chapter 26. Emerging Devices and Circuits. PART 7. PRACTICAL
CONVERTER DESIGN CONSIDERATIONS. Chapter 27. Snubber Circuits. Chapter 28.
Gate and Base Drive Circuits. Chapter 29. Component Temperature Control and
Heat Sinks. Chapter 30. Design of Magnetic Components. Index.