The Power Electronics Handbook [Skvarenina, CRC Press 2002](602s).part3.rar

Titles included in the series
Supervised and Unsupervised Pattern Recognition:
Feature Extraction and Computational Intelligence
Evangelia Micheli-Tzanakou, Rutgers University
Switched Reluctance Motor Drives: Modeling,
Simulation, Analysis, Design, and Applications
R. Krishnan, Virginia Tech
The Power Electronics Handbook
Timothy L. Skvarenina, Purdue University
The Handbook of Applied Computational Intelligence
Mary Lou Padgett, Auburn University
Nicolaos B. Karayiannis, University of Houston
Lofti A. Zadeh, University of California, Berkeley
The Handbook of Applied Neurocontrols
Mary Lou Padgett, Auburn University
Charles C. Jorgensen, NASA Ames Research Center
Paul Werbos, National Science Foundation
Industrial Electronics Series
Series Editor
J. David Irwin, Auburn University

Introduction
The control of electric power with power electronic devices has become increasingly important over
the last 20 years. Whole new classes of motors have been enabled by power electronics, and the
future offers the possibility of more effective control of the electric power grid using power electronics.
The Power Electronics Handbook
is intended to provide a reference that is both concise and
useful for individuals, ranging from students in engineering to experienced, practicing professionals.
The Handbook covers the very wide range of topics that comprise the subject of power electronics
blending many of the traditional topics with the new and innovative technologies that are at the
leading edge of advances being made in this subject. Emphasis has been placed on the practical
application of the technologies discussed to enhance the value of the book to the reader and to
enable a clearer understanding of the material. The presentations are deliberately tutorial in nature,
and examples of the practical use of the technology described have been included.
The contributors to this Handbook span the globe and include some of the leading authorities
in their areas of expertise. They are from industry, government, and academia. All of them have been
chosen because of their intimate knowledge of their subjects as well as their ability to present them
in an easily understandable manner.
Organization
The book is organized into three parts. Part I presents an overview of the semiconductor devices
that are used, or projected to be used, in power electronic devices. Part II explains the operation of
circuits used in power electronic devices, and Part III describes a number of applications for power
electronics, including motor drives, utility applications, and electric vehicles.
The Power Electronics Handbook
is designed to provide both the young engineer and the experienced
professional with answers to questions involving the wide spectrum of power electronics
technology covered in this book. The hope is that the topical coverage, as well as the numerous
avenues to its access, will effectively satisfy the reader’s needs.

Contents
PART I Power Electronic Devices
1 Power Electronics
1.1 Overview
Kaushik Rajashekara
1.2 Diodes
Sohail Anwar
1.3 Schottky Diodes
Sohail Anwar
1.4 Thyristors
Sohail Anwar
1.5 Power Bipolar Junction Transistors
Sohail Anwar
1.6 MOSFETs
Vrej Barkhordarian
1.7 General Power Semiconductor Switch Requirements
Alex Q. Huang
1.8 Gate Turn-Off Thyristors
Alex Q. Huang
1.9 Insulated Gate Bipolar Transistors
Alex Q. Huang
1.10 Gate-Commutated Thyristors and Other Hard-Driven GTOs
Alex Q. Huang
1.11 Comparison Testing of Switches
Alex Q. Huang
PART II Power Electronic Circuits and Controls
2 DC-DC Converters
2.1 Overview
Richard Wies, Bipin Satavalekar, and Ashish Agrawal
2.2 Choppers
Javad Mahdavi, Ali Agah, and Ali Emadi
2.3 Buck Converters
Richard Wies, Bipin Satavalekar, and Ashish Agrawal
2.4 Boost Converters
Richard Wies, Bipin Satavalekar, and Ashish Agrawal
2.5 Cúk Converter
Richard Wies, Bipin Satavalekar, and Ashish Agrawal
2.6 Buck–Boost Converters
Daniel Jeffrey Shortt
3 AC-AC Conversion
Sándor Halász
3.1 Introduction
3.2 Cycloconverters
3.3 Matrix Converters
4 Rectifiers
4.1 Uncontrolled Single-Phase Rectifiers
Sam Guccione
4.2 Uncontrolled and Controlled Rectifiers
Mahesh M. Swamy
4.3 Three-Phase Pulse-Width-Modulated Boost-Type Rectifiers
Ana Stankovic
© 2002 by CRC Press LLC
© 2002 by CRC Press LLC
5 Inverters
5.1 Overview
Michael Giesselmann
5.2 DC-AC Conversion
Attila Karpati
5.3 Resonant Converters István Nagy
5.4 Series-Resonant Inverters Dariusz Czarkowski
5.5 Resonant DC-Link Inverters Michael B. Ropp
5.6 Auxiliary Resonant Commutated Pole Inverters
Eric Walters and Oleg Wasynczuk
6 Multilevel Converters Keith Corzine
6.1 Introduction
6.2 Multilevel Voltage Source Modulation
6.3 Fundamental Multilevel Converter Topologies
6.4 Cascaded Multilevel Converter Topologies
6.5 Multilevel Converter Laboratory Examples
6.6 Conclusion
7 Modulation Strategies
7.1 Introduction Michael Giesselmann
7.2 Six-Step Modulation Michael Giesselmann
7.3 Pulse Width Modulation Michael Giesselmann
7.4 Third Harmonic Injection for Voltage Boost of SPWM Signals
Michael Giesselmann
7.5 Generation of PWM Signals Using Microcontrollers and DSPs
Michael Giesselmann
7.6 Voltage-Source-Based Current Regulation Michael Giesselmann
7.7 Hysteresis Feedback Control Hossein Salehfar
7.8 Space-Vector Pulse Width Modulation
Hamid A. Toliyat and Tahmid Ur Rahman
8 Sliding-Mode Control of Switched-Mode Power Supplies
Giorgio Spiazzi and Paolo Mattavelli
8.1 Introduction
8.2 Introduction to Sliding-Mode Control
8.3 Basics of Sliding-Mode Theory
8.4 Application of Sliding-Mode Control to DC-DC Converters—Basic Principle
8.5 Sliding-Mode Control of Buck DC-DC Converters
8.6 Extension to Boost and Buck–Boost DC-DC Converters
8.7 Extension to Cúk and SEPIC DC-DC Converters
8.8 General-Purpose Sliding-Mode Control Implementation
8.9 Conclusions
© 2002 by CRC Press LLC
Part III Applications and Systems Considerations
9 DC Motor Drives Ralph Staus
9.1 DC Motor Basics
9.2 DC Speed Control
9.3 DC Drive Basics
9.4 Transistor PWM DC Drives
9.5 SCR DC Drives
10 AC Machines Controlled as DC Machines
(Brushless DC Machines/Electronics) Hamid A. Toliyat
and Tilak Gopalarathnam
10.1 Introduction
10.2 Machine Construction
10.3 Motor Characteristics
10.4 Power Electronic Converter
10.5 Position Sensing
10.6 Pulsating Torque Components
10.7 Torque-Speed Characteristics
10.8 Applications
11 Control of Induction Machine Drives
Daniel Logue and Philip T. Krein
11.1 Introduction
11.2 Scalar Induction Machine Control
11.3 Vector Control of Induction Machines
11.4 Summary
12 Permanent-Magnet Synchronous Machine Drives Patrick L. Chapman
12.1 Introduction
12.2 Construction of PMSM Drive Systems
12.3 Simulation and Model
12.4 Controlling the PMSM
12.5 Advanced Topics in PMSM Drives
13 Switched Reluctance Machines Iqbal Husain
13.1 Introduction
13.2 SRM Configuration
13.3 Basic Principle of Operation
13.4 Design
13.5 Converter Topologies
13.6 Control Strategies
13.7 Sensorless Control
13.8 Applications
14 Step Motor Drives Ronald H. Brown
14.1 Introduction
14.2 Types and Operation of Step Motors
14.3 Step Motor Models
14.4 Control of Step Motors
15 Servo Drives Sándor Halász
15.1 DC Drives
15.2 Induction Motor Drives
16 Uninterruptible Power Supplies Laura Steffek, John Hacklesmiller,
Dave Layden, and Brian Young
16.1 UPS Functions
16.2 Static UPS Topologies
16.3 Rotary UPSs
16.4 Alternate AC and DC Sources
17 Power Quality and Utility Interface Issues
17.1 Overview Wayne Galli
17.2 Power Quality Considerations Timothy L. Skvarenina
17.3 Passive Harmonic Filters Badrul H. Chowdhury
17.4 Active Filters for Power Conditioning Hirofumi Akagi
17.5 Unity Power Factor Rectification Rajapandian Ayyanar and Amit Kumar Jain
18 Photovoltaic Cells and Systems Roger Messenger
18.1 Introduction
18.2 Solar Cell Fundamentals
18.3 Utility Interactive PV Applications
18.4 Stand-Alone PV Systems
19 Flexible, Reliable, and Intelligent Electrical Energy Delivery Systems
Alexander Domijan, Jr. and Zhidong Song
19.1 Introduction
19.2 The Concept of FRIENDS
19.3 Development of FRIENDS
19.4 The Advanced Power Electronic Technologies within QCCs
19.5 Significance of FRIENDS
19.6 Realization of FRIENDS
19.7 Conclusions
20 Unified Power Flow Controllers
Ali Feliachi, Azra Hasanovic, and Karl Schoder
20.1 Introduction
20.2 Power Flow on a Transmission Line
© 2002 by CRC Press LLC
© 2002 by CRC Press LLC
20.3 UPFC Description and Operation
20.4 UPFC Modeling
20.5 Control Design
20.6 Case Study
20.7 Conclusion
Acknowledgment
21 More-Electric Vehicles Ali Emadi and Mehrdad Ehsani
21.1 Aircraft Ali Emadi and Mehrdad Ehsani
21.2 Terrestrial Vehicles Ali Emadi and Mehrdad Ehsani
22 Principles of Magnetics Roman Stemprok
22.1 Introduction
22.2 Nature of a Magnetic Field
22.3 Electromagnetism
22.4 Magnetic Flux Density
22.5 Magnetic Circuits
22.6 Magnetic Field Intensity
22.7 Maxwell’s Equations
22.8 Inductance
22.9 Practical Considerations
23 Computer Simulation of Power Electronics Michael Giesselmann
23.1 Introduction
23.2 Code Qualification and Model Validation
23.3 Basic Concepts—Simulation of a Buck Converter
23.4 Advanced Techniques—Simulation of a Full-Bridge (H-Bridge) Converter
23.5 Conclusions

:11bb

:11bb

:11bb

:11bb :11bb :11bb :11bb :11bb :11bb :11bb :11bb

:11bb :11bb :11bb :11bb :11bb :11bb

谢谢楼住的分享!

谢谢楼住的分享!

谢谢楼住的分享!

:21bb:27bb:22bb

什么说呀：17de

:23bb：cacakiki1de:18bb

thank u for provide this book

顶一下，谢谢分享！