Modern Power Electronics and AC Drives
Published on 24. October 2001
Book
Hardback
736 pages
978-0-13-016743-9 (ISBN)
Description
For upper level undergraduate and graduate level courses in electrical engineering, as well as a reference book for professionals and researchers.
This text presents the basics of electrical power conversion and control through the use of power semiconductor switches. In addition, by demonstrating the practical applications of power electronics and motion control using AC electrical machines in transportation and industry, among other uses, Modern Power Electronics and AC Drives reflects the latest advances in industrial automation.
This text presents the basics of electrical power conversion and control through the use of power semiconductor switches. In addition, by demonstrating the practical applications of power electronics and motion control using AC electrical machines in transportation and industry, among other uses, Modern Power Electronics and AC Drives reflects the latest advances in industrial automation.
More details
Person
DR. BIMAL K. BOSE is recognized worldwide as an authority and pioneer in the field of power electronics and drive technology. He has over 40 years of professional experience in R&D, design, and teaching. A seven-time IEEE Award winner, he holds 21 U.S. patents. He is currently at the University of Tennessee, where he holds the Condra Chair of Excellence in Power Electronics.
Content
(NOTE: Each chapter begins with an Introduction and concludes with a Summary and References.)
Preface.
List of Principal Symbols.
1. Power Semiconductor Devices.
Diodes. Thyristors. Triacs. Gate Turn-Off Thyristors (GTOs). Bipolar Power or Junction Transistors (BPTs or BJTs). Power MOSFETs. Static Induction Transistors (SITs). Insulated Gate Bipolar Transistors (IGBTs). MOS-Controlled Thyristors (MCTs). Integrated Gate-Commutated Thyristors (IGCTs). Large Band-Gap Materials for Devices. Power Integrated Circuits (PICs).
2. AC Machines for Drives.
Induction Machines. Synchronous Machines. Variable Reluctance Machine (VRM).
3. Diodes and Phase-Controlled Converters.
Diode Rectifiers. Thyristor Converters. Converter Control. EMI and Line Power Quality Problems.
4. Cycloconverters.
Phase-Controlled Cycloconverters. Matrix Converters. High-Frequency Cycloconverters.
5. Voltage-Fed Converters.
Single-Phase Inverters. Three-Phase Bridge Inverters. Multi-Stepped Inverters. Pulse Width Modulation Techniques. Three-Level Inverters. Hard Switching Effects. Resonant Inverters. Soft-Switched Inverters. Dynamic and Regenerative Drive Braking. PWM Rectifiers. Static VAR Compensators and Active Harmonic Filters. Introduction to Simulation-MATLAB/SIMULINK.
6. Current-Fed Converters.
General Operation of a Six-Step Thyristor Inverter. Load-Commutated Inverters. Force-Commutated Inverters. Harmonic Heating and Torque Pulsation. Multi-Stepped Inverters. Inverters with Self-Commutated Devices. Current-Fed vs Voltage-Fed Converters.
7. Induction Motor Slip-Power Recovery Drives.
Doubly-Fed Machine Speed Control by Rotor Rheostat. Static Kramer Drive. Static Scherius Drive.
8. Control and Estimation of Induction Motor Drives.
Induction Motor Control with Small Signal Model. Scalar Control. Vector or Field-Oriented Control. Sensorless Vector Control. Direct Torque and Flux Control (DTC). Adaptive Control. Self-Commissioning of Drive.
9. Control and Estimation of Synchronous Motor Drives.
Sinusoidal SPM Machine Drives. Synchronous Reluctance Machine Drives. Sinusoidal IPM Machine Drives. Trapezoidal SPM Machine Drives. Wound-Field Synchronous Machine Drives. Sensorless Control. Switched Reluctance Motor (SRM) Drives.
10. Expert System Principles and Applications.
Expert System Principles. Expert System Shell. Design Methodology. Applications. Glossary.
11. Fuzzy Logic Principles and Applications.
Fuzzy Sets. Fuzzy System. Fuzzy Control. General Design Methodology. Applications. Fuzzy Logic Toolbox. Glossary.
12. Neural Network Principles and Applications.
The Structure of a Neuron. Artificial Neural Network. Other Networks. Neural Network in Identification and Control. General Design Methodology. Applications. Neuro-Fuzzy Systems. Demo Program with Neural Network Toolbox. Glossary.
Index.
Preface.
List of Principal Symbols.
1. Power Semiconductor Devices.
Diodes. Thyristors. Triacs. Gate Turn-Off Thyristors (GTOs). Bipolar Power or Junction Transistors (BPTs or BJTs). Power MOSFETs. Static Induction Transistors (SITs). Insulated Gate Bipolar Transistors (IGBTs). MOS-Controlled Thyristors (MCTs). Integrated Gate-Commutated Thyristors (IGCTs). Large Band-Gap Materials for Devices. Power Integrated Circuits (PICs).
2. AC Machines for Drives.
Induction Machines. Synchronous Machines. Variable Reluctance Machine (VRM).
3. Diodes and Phase-Controlled Converters.
Diode Rectifiers. Thyristor Converters. Converter Control. EMI and Line Power Quality Problems.
4. Cycloconverters.
Phase-Controlled Cycloconverters. Matrix Converters. High-Frequency Cycloconverters.
5. Voltage-Fed Converters.
Single-Phase Inverters. Three-Phase Bridge Inverters. Multi-Stepped Inverters. Pulse Width Modulation Techniques. Three-Level Inverters. Hard Switching Effects. Resonant Inverters. Soft-Switched Inverters. Dynamic and Regenerative Drive Braking. PWM Rectifiers. Static VAR Compensators and Active Harmonic Filters. Introduction to Simulation-MATLAB/SIMULINK.
6. Current-Fed Converters.
General Operation of a Six-Step Thyristor Inverter. Load-Commutated Inverters. Force-Commutated Inverters. Harmonic Heating and Torque Pulsation. Multi-Stepped Inverters. Inverters with Self-Commutated Devices. Current-Fed vs Voltage-Fed Converters.
7. Induction Motor Slip-Power Recovery Drives.
Doubly-Fed Machine Speed Control by Rotor Rheostat. Static Kramer Drive. Static Scherius Drive.
8. Control and Estimation of Induction Motor Drives.
Induction Motor Control with Small Signal Model. Scalar Control. Vector or Field-Oriented Control. Sensorless Vector Control. Direct Torque and Flux Control (DTC). Adaptive Control. Self-Commissioning of Drive.
9. Control and Estimation of Synchronous Motor Drives.
Sinusoidal SPM Machine Drives. Synchronous Reluctance Machine Drives. Sinusoidal IPM Machine Drives. Trapezoidal SPM Machine Drives. Wound-Field Synchronous Machine Drives. Sensorless Control. Switched Reluctance Motor (SRM) Drives.
10. Expert System Principles and Applications.
Expert System Principles. Expert System Shell. Design Methodology. Applications. Glossary.
11. Fuzzy Logic Principles and Applications.
Fuzzy Sets. Fuzzy System. Fuzzy Control. General Design Methodology. Applications. Fuzzy Logic Toolbox. Glossary.
12. Neural Network Principles and Applications.
The Structure of a Neuron. Artificial Neural Network. Other Networks. Neural Network in Identification and Control. General Design Methodology. Applications. Neuro-Fuzzy Systems. Demo Program with Neural Network Toolbox. Glossary.
Index.