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Introduction to modern power electronics / Andrzej M. Trzynadlowski.

By: Material type: TextTextPublisher: Hoboken, N.J. : John Wiley & Sons, [2010]Copyright date: ©2010Edition: Second editionDescription: xiv, 436 pages : illustrations ; 25 cmContent type:
  • text
Media type:
  • unmediated
Carrier type:
  • volume
ISBN:
  • 0470401036
  • 9780470401033
Subject(s): DDC classification:
  • 621.317 22
LOC classification:
  • TK7881.15 .T79 2010
Online resources:
Contents:
1. Principles and Methods of Electric Power Conversion -- 1.1. What Is Power Electronics? -- 1.2. Generic Power Converter -- 1.3. Waveform Components and Figures of Merit -- 1.4. Phase Control -- 1.5. Pulse Width Modulation -- 1.6. Calculation of Current Waveforms -- 1.6.1. Analytical Solution -- 1.6.2. Numerical Solution -- 1.6.3. Practical Examples: Single-Phase Diode Rectifiers -- 1.7. Summary -- Example -- Problems -- Computer Assignments -- Literature -- 2. Semiconductor Power Switches -- 2.1. General Properties of Semiconductor Power Switches -- 2.2. Power Diodes -- 2.3. Semicontrolled Switches -- 2.3.1. SCRs -- 2.3.2. Triacs -- 2.4. Fully Controlled Switches -- 2.4.1. GTOs -- 2.4.2. IGCTs -- 2.4.3. Power BJTs -- 2.4.4. Power MOSFETs -- 2.4.5. IGBTs -- 2.5. Comparison of Semiconductor Power Switches -- 2.6. Power Modules -- 2.7. Summary -- Literature -- 3. Supplementary Components and Systems -- 3.1. What Are Supplementary Components and Systems? -- 3.2. Drivers -- 3.2.1. Drivers for SCRs, Triacs, and BCTs -- 3.2.2. Drivers for GTOs and IGCTs -- 3.2.3. Drivers for BJTs -- 3.2.4. Drivers for Power MOSFETs and IGBTs -- 3.3. Overcurrent Protection Schemes -- 3.4. Snubbers -- 3.4.1. Snubbers for Power Diodes, SCRs, and Triacs -- 3.4.2. Snubbers for GTOs and IGCTs -- 3.4.3. Snubbers for Transistors -- 3.4.4. Energy Recovery from Snubbers -- 3.5. Filters -- 3.6. Cooling -- 3.7. Control -- 3.8. Summary -- Literature -- 4. AC-to-DC Converters -- 4.1. Diode Rectifiers -- 4.1.1. Three-Pulse Diode Rectifier -- 4.1.2. Six-Pulse Diode Rectifier -- 4.2. Phase-Controlled Rectifiers -- 4.2.1. Phase-Controlled Six-Pulse Rectifier -- 4.2.2. Dual Converters -- 4.3. PWM Rectifiers -- 4.3.1. Impact of Input Filter -- 4.3.2. Principles of Pulse Width Modulation -- 4.3.3. Current-Type PWM Rectifier -- 4.3.4. Voltage-Type PWM Rectifier -- 4.4. Device Selection for Rectifiers -- 4.5. Common Applications of Rectifiers -- 4.6. Summary -- Examples -- Problems -- Computer Assignments -- Literature -- 5. AC-to-AC Converters -- 5.1. AC Voltage Controllers -- 5.1.1. Phase-Controlled Single-Phase AC Voltage Controller -- 5.1.2. Phase-Controlled Three-Phase AC Voltage Controllers -- 5.1.3. PWM AC Voltage Controllers -- 5.2. Cycloconverters -- 5.3. Matrix Converters -- 5.4. Device Selection for AC-to-AC Converters -- 5.5. Common Applications of AC-to-AC Converters -- 5.6. Summary -- Examples -- Problems -- Computer Assignments -- Literature -- 6. DC-to-DC Converters -- 6.1. Static DC Switches -- 6.2. Step-Down Choppers -- 6.2.1. First-Quadrant Chopper -- 6.2.2. Second-Quadrant Chopper -- 6.2.3. First-and-Second-Quadrant Chopper -- 6.2.4. First-and-Fourth-Quadrant Chopper -- 6.2.5. Four-Quadrant Chopper -- 6.3. Step-Up Chopper -- 6.4. Current Control in Choppers -- 6.5. Device Selection for Choppers -- 6.6. Common Applications of Choppers -- 6.7. Summary -- Example -- Problems -- Computer Assignments -- Literature -- 7. DC-to-AC Converters -- 7.1. Voltage-Source Inverters -- 7.1.1. Single-Phase Voltage-Source Inverter -- 7.1.2. Three-Phase Voltage-Source Inverter -- 7.1.3. Voltage Control Techniques for Voltage-Source Inverters -- 7.1.4. Current Control Techniques for Voltage-Source Inverters -- 7.2. Current-Source Inverters -- 7.2.1. Three-Phase Square-Wave Current-Source Inverter -- 7.2.2. Three-Phase PWM Current-Source Inverter -- 7.3. Multilevel Inverters -- 7.4. Soft-Switching Inverters -- 7.5. Device Selection for Inverters -- 7.6. Common Applications of Inverters -- 7.7. Summary -- Examples -- Problems -- Computer Assignments -- Literature -- 8. Switching Power Supplies -- 8.1. Basic Types of Switching Power Supplies -- 8.2. Nonisolated Switched-Mode DC-to-DC Converters -- 8.2.1. Buck Converter -- 8.2.2. Boost Converter -- 8.2.3. Buck-Boost Converter -- 8.2.4. C -- Uk Converter -- 8.2.5. SEPIC and Zeta Converters -- 8.2.6. Comparison of Nonisolated Switched-Mode DC-to-DC Converters -- 8.3. Isolated Switched-Mode DC-to-DC Converters -- 8.3.1. Single-Switch Isolated DC-to-DC Converters -- 8.3.2. Multiple-Switch Isolated DC-to-DC Converters -- 8.3.3. Comparison of Isolated Switched-Mode DC-to-DC Converters -- 8.4. Resonant DC-to-DC Converters -- 8.4.1. Quasi-Resonant Converters -- 8.4.2. Load-Resonant Converters -- 8.4.3. Comparison of Resonant DC-to-DC Converters -- 8.5. Summary -- Examples -- Problems -- Computer Assignments -- Literature -- 9. Power Electronics and Clean Energy -- 9.1. Why Is Power Electronics Indispensable in Clean Energy Systems? -- 9.2. Solar and Wind Renewable Energy Systems -- 9.2.1. Solar Energy Systems -- 9.2.2. Wind Energy Systems -- 9.3. Fuel Cell Energy Systems -- 9.4. Electric and Hybrid Cars -- 9.5. Power Electronics and Energy Conservation -- 9.6. Summary -- Literature -- Appendix A. PSpice Simulations -- Appendix B. Fourier Series -- Appendix C. Three-Phase Systems.
Summary: "Since 1998 when the 1st edition of this book was published, new trends in power electronics have developed, such as the greatly increased focus on PWM rectifiers and multilevel inverters, or the widespread application of power converters in electric and hybrid vehicles and renewable energy systems. Novel and improved semiconductor power switches, such as IGCTs, have appeared on the market. The issue of electromagnetic interference (EMI) generated in power electronic systems has increased in importance in the context of the revolution in wireless communications. The Second edition of this book_provides_comprehensive and straightforward coverage of modern power electronics together with_an extensive body of examples, exercises, computer assignments, and simulations making it highly suitable as a_textbook.;"--Publisher description.
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Holdings
Item type Current library Call number Copy number Status Date due Barcode
Book City Campus City Campus Main Collection 621.317 TRZ (Browse shelf(Opens below)) 1 Available A453863B

Includes bibliographical references and index.

1. Principles and Methods of Electric Power Conversion -- 1.1. What Is Power Electronics? -- 1.2. Generic Power Converter -- 1.3. Waveform Components and Figures of Merit -- 1.4. Phase Control -- 1.5. Pulse Width Modulation -- 1.6. Calculation of Current Waveforms -- 1.6.1. Analytical Solution -- 1.6.2. Numerical Solution -- 1.6.3. Practical Examples: Single-Phase Diode Rectifiers -- 1.7. Summary -- Example -- Problems -- Computer Assignments -- Literature -- 2. Semiconductor Power Switches -- 2.1. General Properties of Semiconductor Power Switches -- 2.2. Power Diodes -- 2.3. Semicontrolled Switches -- 2.3.1. SCRs -- 2.3.2. Triacs -- 2.4. Fully Controlled Switches -- 2.4.1. GTOs -- 2.4.2. IGCTs -- 2.4.3. Power BJTs -- 2.4.4. Power MOSFETs -- 2.4.5. IGBTs -- 2.5. Comparison of Semiconductor Power Switches -- 2.6. Power Modules -- 2.7. Summary -- Literature -- 3. Supplementary Components and Systems -- 3.1. What Are Supplementary Components and Systems? -- 3.2. Drivers -- 3.2.1. Drivers for SCRs, Triacs, and BCTs -- 3.2.2. Drivers for GTOs and IGCTs -- 3.2.3. Drivers for BJTs -- 3.2.4. Drivers for Power MOSFETs and IGBTs -- 3.3. Overcurrent Protection Schemes -- 3.4. Snubbers -- 3.4.1. Snubbers for Power Diodes, SCRs, and Triacs -- 3.4.2. Snubbers for GTOs and IGCTs -- 3.4.3. Snubbers for Transistors -- 3.4.4. Energy Recovery from Snubbers -- 3.5. Filters -- 3.6. Cooling -- 3.7. Control -- 3.8. Summary -- Literature -- 4. AC-to-DC Converters -- 4.1. Diode Rectifiers -- 4.1.1. Three-Pulse Diode Rectifier -- 4.1.2. Six-Pulse Diode Rectifier -- 4.2. Phase-Controlled Rectifiers -- 4.2.1. Phase-Controlled Six-Pulse Rectifier -- 4.2.2. Dual Converters -- 4.3. PWM Rectifiers -- 4.3.1. Impact of Input Filter -- 4.3.2. Principles of Pulse Width Modulation -- 4.3.3. Current-Type PWM Rectifier -- 4.3.4. Voltage-Type PWM Rectifier -- 4.4. Device Selection for Rectifiers -- 4.5. Common Applications of Rectifiers -- 4.6. Summary -- Examples -- Problems -- Computer Assignments -- Literature -- 5. AC-to-AC Converters -- 5.1. AC Voltage Controllers -- 5.1.1. Phase-Controlled Single-Phase AC Voltage Controller -- 5.1.2. Phase-Controlled Three-Phase AC Voltage Controllers -- 5.1.3. PWM AC Voltage Controllers -- 5.2. Cycloconverters -- 5.3. Matrix Converters -- 5.4. Device Selection for AC-to-AC Converters -- 5.5. Common Applications of AC-to-AC Converters -- 5.6. Summary -- Examples -- Problems -- Computer Assignments -- Literature -- 6. DC-to-DC Converters -- 6.1. Static DC Switches -- 6.2. Step-Down Choppers -- 6.2.1. First-Quadrant Chopper -- 6.2.2. Second-Quadrant Chopper -- 6.2.3. First-and-Second-Quadrant Chopper -- 6.2.4. First-and-Fourth-Quadrant Chopper -- 6.2.5. Four-Quadrant Chopper -- 6.3. Step-Up Chopper -- 6.4. Current Control in Choppers -- 6.5. Device Selection for Choppers -- 6.6. Common Applications of Choppers -- 6.7. Summary -- Example -- Problems -- Computer Assignments -- Literature -- 7. DC-to-AC Converters -- 7.1. Voltage-Source Inverters -- 7.1.1. Single-Phase Voltage-Source Inverter -- 7.1.2. Three-Phase Voltage-Source Inverter -- 7.1.3. Voltage Control Techniques for Voltage-Source Inverters -- 7.1.4. Current Control Techniques for Voltage-Source Inverters -- 7.2. Current-Source Inverters -- 7.2.1. Three-Phase Square-Wave Current-Source Inverter -- 7.2.2. Three-Phase PWM Current-Source Inverter -- 7.3. Multilevel Inverters -- 7.4. Soft-Switching Inverters -- 7.5. Device Selection for Inverters -- 7.6. Common Applications of Inverters -- 7.7. Summary -- Examples -- Problems -- Computer Assignments -- Literature -- 8. Switching Power Supplies -- 8.1. Basic Types of Switching Power Supplies -- 8.2. Nonisolated Switched-Mode DC-to-DC Converters -- 8.2.1. Buck Converter -- 8.2.2. Boost Converter -- 8.2.3. Buck-Boost Converter -- 8.2.4. C -- Uk Converter -- 8.2.5. SEPIC and Zeta Converters -- 8.2.6. Comparison of Nonisolated Switched-Mode DC-to-DC Converters -- 8.3. Isolated Switched-Mode DC-to-DC Converters -- 8.3.1. Single-Switch Isolated DC-to-DC Converters -- 8.3.2. Multiple-Switch Isolated DC-to-DC Converters -- 8.3.3. Comparison of Isolated Switched-Mode DC-to-DC Converters -- 8.4. Resonant DC-to-DC Converters -- 8.4.1. Quasi-Resonant Converters -- 8.4.2. Load-Resonant Converters -- 8.4.3. Comparison of Resonant DC-to-DC Converters -- 8.5. Summary -- Examples -- Problems -- Computer Assignments -- Literature -- 9. Power Electronics and Clean Energy -- 9.1. Why Is Power Electronics Indispensable in Clean Energy Systems? -- 9.2. Solar and Wind Renewable Energy Systems -- 9.2.1. Solar Energy Systems -- 9.2.2. Wind Energy Systems -- 9.3. Fuel Cell Energy Systems -- 9.4. Electric and Hybrid Cars -- 9.5. Power Electronics and Energy Conservation -- 9.6. Summary -- Literature -- Appendix A. PSpice Simulations -- Appendix B. Fourier Series -- Appendix C. Three-Phase Systems.

"Since 1998 when the 1st edition of this book was published, new trends in power electronics have developed, such as the greatly increased focus on PWM rectifiers and multilevel inverters, or the widespread application of power converters in electric and hybrid vehicles and renewable energy systems. Novel and improved semiconductor power switches, such as IGCTs, have appeared on the market. The issue of electromagnetic interference (EMI) generated in power electronic systems has increased in importance in the context of the revolution in wireless communications. The Second edition of this book_provides_comprehensive and straightforward coverage of modern power electronics together with_an extensive body of examples, exercises, computer assignments, and simulations making it highly suitable as a_textbook.;"--Publisher description.

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