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Author Rashid, Muhammad H
Title Power Electronics Handbook : Devices, Circuits and Applications
Imprint Burlington : Elsevier Science & Technology, 2006
©2006
book jacket
Edition 2nd ed
Descript 1 online resource (1189 pages)
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
Series Engineering Ser
Engineering Ser
Note Front cover -- POWER ELECTRONICS HANDBOOK -- Copyright page -- Dedication -- Table of contents -- Preface -- Chapter 1. Introduction -- 1.1 Power Electronics Defined -- 1.2 Key Characteristics -- 1.3 Trends in Power Supplies -- 1.4 Conversion Examples -- 1.5 Tools for Analysis and Design -- 1.6 Summary -- References -- Chapter 2. The Power Diode -- 2.1 Diode as a Switch -- 2.2 Properties of PN Junction -- 2.3 Common Diode Types -- 2.4 Typical Diode Ratings -- 2.5 Snubber Circuits for Diode -- 2.6 Series and Parallel Connection of Power Diodes -- 2.7 Typical Applications of Diodes -- 2.8 Standard Datasheet for Diode Selection -- References -- Chapter 3. Power Bipolar Transistors -- 3.1 Introduction -- 3.2 Basic Structure and Operation -- 3.3 Static Characteristics -- 3.4 Dynamic Switching Characteristics -- 3.5 Transistor Base Drive Applications -- 3.6 SPICE Simulation of Bipolar Junction Transistors -- 3.7 BJT Applications -- Further Reading -- Chapter 4. The Power MOSFET -- 4.1 Introduction -- 4.2 Switching in Power Electronic Circuits -- 4.3 General Switching Characteristics -- 4.4 The Power MOSFET -- 4.5 Future Trends in Power Devices -- References -- Chapter 5. Insulated Gate Bipolar Transistor -- 5.1 Introduction -- 5.2 Basic Structure and Operation -- 5.3 Static Characteristics -- 5.4 Dynamic Switching Characteristics -- 5.5 IGBT Performance Parameters -- 5.6 Gate Drive Requirements -- 5.7 Circuit Models -- 5.8 Applications -- Further Reading -- Chapter 6. Thyristors -- 6.1 Introduction -- 6.2 Basic Structure and Operation -- 6.3 Static Characteristics -- 6.4 Dynamic Switching Characteristics -- 6.5 Thyristor Parameters -- 6.6 Types of Thyristors -- 6.7 Gate Drive Requirements -- 6.8 PSpice Model -- 6.9 Applications -- Further Reading -- Chapter 7. Gate Turn-off Thyristors -- 7.1 Introduction -- 7.2 Basic Structure and Operation
7.3 GTO Thyristor Models -- 7.4 Static Characteristics -- 7.5 Switching Phases -- 7.6 SPICE GTO Model -- 7.7 Applications -- References -- Chapter 8. MOS Controlled Thyristors (MCTs) -- 8.1 Introduction -- 8.2 Equivalent Circuit and Switching Characteristics -- 8.3 Comparison of MCT and Other Power Devices -- 8.4 Gate Drive for MCTs -- 8.5 Protection of MCTs -- 8.6 Simulation Model of an MCT -- 8.7 Generation-1 and Generation-2 MCTs -- 8.8 N-channel MCT -- 8.9 Base Resistance-controlled Thyristor [14] -- 8.10 MOS Turn-off Thyristor [15] -- 8.11 Applications of PMCT -- 8.12 Conclusions -- Acknowledgment -- 8.13 Appendix -- References -- Chapter 9. Static Induction Devices -- Summary -- 9.1 Introduction -- 9.2 Theory of Static Induction Devices -- 9.3 Characteristics of Static Induction Transistor -- 9.4 Bipolar Mode Operation of SI devices (BSIT) -- 9.5 Emitters for Static Induction Devices -- 9.6 Static Induction Diode -- 9.7 Lateral Punch-through Transistor -- 9.8 Static Induction Transistor Logic -- 9.9 BJT Saturation Protected by SIT -- 9.10 Static Induction MOS Transistor -- 9.11 Space Charge Limiting Load (SCLL) -- 9.12 Power MOS Transistors -- 9.13 Static Induction Thyristor -- 9.14 Gate Turn Off Thyristor -- References -- Chapter 10. Diode Recti.ers -- 10.1 Introduction -- 10.2 Single-phase Diode Rectifiers -- 10.3 Three-phase Diode Rectifiers -- 10.4 Poly-phase Diode Rectifiers -- 10.5 Filtering Systems in Rectifier Circuits -- 10.6 High-frequency Diode Rectifier Circuits -- Further Reading -- Chapter 11. Single-phase Controlled Rectifiers -- 11.1 Introduction -- 11.2 Line-commutated Single-phase Controlled Rectifiers -- 11.3 Unity Power Factor Single-phase Rectifiers -- Acknowledgment -- References -- Chapter 12. Three-phase Controlled Rectifiers -- 12.1 Introduction -- 12.2 Line-commutated Controlled Rectifiers
12.3 Force-commutated Three-phase Controlled Rectifiers -- Further Reading -- Chapter 13. DC-DC Converters -- 13.1 Introduction -- 13.2 DC Choppers -- 13.3 Step-down (Buck) Converter -- 13.4 Step-up (Boost) Converter -- 13.5 Buck-Boost Converter -- 13.6 Cuk Converter -- 13.7 Effects of Parasitics -- 13.8 Synchronous and Bidirectional Converters -- 13.9 Control Principles -- 13.10 Applications of DC-DC Converters -- Further Reading -- Chapter 14. DC/DC Conversion Technique and Twelve Series Luo-converters -- 14.1 Introduction -- 14.2 Fundamental, Developed, Transformer-type, and Self-lift Converters -- 14.3 Voltage-lift Luo-converters -- 14.4 Double Output Luo-converters -- 14.5 Super-lift Luo-converters -- 14.6 Ultra-lift Luo-converters -- 14.7 Multiple-quadrant Operating Luo-converters -- 14.8 Switched-capacitor Multi-quadrant Luo-converters -- 14.9 Multiple-lift Push-Pull Switched-capacitor Luo-converters -- 14.10 Switched-inductor Multi-quadrant Operation Luo-converters -- 14.11 Multi-quadrant ZCS Quasi-resonant Luo-converters -- 14.12 Multi-quadrant ZVS Quasi-resonant Luo-converters -- 14.13 Synchronous-rectifier DC/DC Luo-converters -- 14.14 Multiple-element Resonant Power Converters -- 14.15 Gate Control Luo-resonator -- 14.16 Applications -- 14.17 Energy Factor and Mathematical Modeling for Power DC/DC Converters -- Further Reading -- Chapter 15. Inverters -- 15.1 Introduction -- 15.2 Single-phase Voltage Source Inverters -- 15.3 Three-phase Voltage Source Inverters -- 15.4 Current Source Inverters -- 15.5 Closed-loop Operation of Inverters -- 15.6 Regeneration in Inverters -- 15.7 Multistage Inverters -- Acknowledgment -- Further Reading -- Effects of PWM-type of Voltage Waveforms -- Chapter 16. Resonant and Soft-switching Converters -- 16.1 Introduction -- 16.2 Classification -- 16.3 Resonant Switch -- 16.4 Quasi-resonant Converters
16.5 ZVS in High Frequency Applications -- 16.6 Multi-resonant Converters (MRC) -- 16.7 Zero-voltage-transition (ZVT) Converters -- 16.8 Non-dissipative Active Clamp Network -- 16.9 Load Resonant Converters -- 16.10 Control Circuits for Resonant Converters -- 16.11 Extended-period Quasi-resonant (EP-QR) Converters -- 16.12 Soft-switching and EMI Suppression -- 16.13 Snubbers and Soft-switching for High Power Devices -- 16.14 Soft-switching DC-AC Power Inverters -- References -- Chapter 17. Multilevel Power Converters -- 17.1 Introduction -- 17.2 Multilevel Power Converter Structures -- 17.3 Multilevel Converter PWM Modulation Strategies -- 17.4 Multilevel Converter Design Example -- 17.5 Fault Diagnosis in Multilevel Converters -- 17.6 Renewable Energy Interface -- 17.7 Conclusion -- References -- Chapter 18. AC-AC Converters -- 18.1 Introduction -- 18.2 Single-phase AC-AC Voltage Controller -- 18.3 Three-phase AC-AC Voltage Controllers -- 18.4 Cycloconverters -- 18.5 Matrix Converter -- 18.6 High Frequency Linked Single- phase to Three- phase Matrix Converters -- 18.7 Applications of AC-AC Converters -- References -- Chapter 19. Power Factor Correction Circuits -- 19.1 Introduction -- 19.2 Definition of PF and THD -- 19.3 Power Factor Correction -- 19.4 CCM Shaping Technique -- 19.5 DCM Input Technique -- 19.6 Summary -- Acknowledgment -- Further Reading -- Chapter 20. Gate Drive Circuitry for Power Converters -- 20.1 Introduction to Gate Drive Circuitry -- 20.2 Semiconductor Drive Requirements -- 20.3 Gate Drivers for Power Converters -- 20.4 Gate Driver Circuit Implementation -- 20.5 Current Technologies -- 20.6 Current and Future Trends -- 20.7 Summary -- References -- Chapter 21. Power Electronics in Capacitor Charging Applications -- 21.1 Introduction -- 21.2 High Voltage DC Power Supply with Charging Resistor -- 21.3 Resonance Charging
21.4 Switching Converters -- References -- Chapter 22. Electronic Ballasts -- 22.1 Introduction -- 22.2 High Frequency Supply of Discharge Lamps -- 22.3 Discharge Lamp Modeling -- 22.4 Resonant Inverters for Electronic Ballasts -- 22.5 High Power Factor Electronic Ballasts -- 22.6 Applications -- Further Reading -- Chapter 23. Power Supplies -- 23.1 Introduction -- 23.2 Linear Series Voltage Regulator -- 23.3 Linear Shunt Voltage Regulator -- 23.4 Integrated Circuit Voltage Regulators -- 23.5 Switching Regulators -- Further Reading -- Chapter 24. Uninterruptible Power Supplies -- 24.1 Introduction -- 24.2 Classifications -- 24.3 Performance Evaluation -- 24.4 Applications -- 24.5 Control Techniques -- 24.6 Energy Storage Devices -- Further Reading -- Chapter 25. Automotive Applications of Power Electronics -- 25.1 Introduction -- 25.2 The Present Automotive Electrical Power System -- 25.3 System Environment -- 25.4 Functions Enabled by Power Electronics -- 25.5 Multiplexed Load Control -- 25.6 Electromechanical Power Conversion -- 25.7 Dual/High Voltage Automotive Electrical Systems -- 25.8 Electric and Hybrid Electric Vehicles -- 25.9 Summary References -- Chapter 26. Solar Power Conversion -- 26.1 Introduction -- 26.2 How does a Solar Cell Work? -- 26.3 Solar Energy Conversion -- 26.4 Maximum Power Tracker -- 26.5 Photovoltaic Systems' Components -- 26.6 Factors Affecting Output -- 26.7 System Design -- 26.8 Summary -- References -- Chapter 27. Power Electronics for Renewable Energy Sources -- 27.1 Introduction -- 27.2 Power Electronics for Photovoltaic Power Systems -- 27.3 Power Electronics for Wind Power Systems -- References -- Chapter 28. Fuel-cell Power Electronics for Distributed Generation -- 28.1 Distributed Generation -- 28.2 Fuel-cell Based Energy Systems for DG
28.3 Power-electronic Topologies for Residential Stationary Fuel-cell Energy Systems
Power electronics, which is a rapidly growing area in terms of research and applications, uses modern electronics technology to convert electric power from one form to another, such as ac-dc, dc-dc, dc-ac, and ac-ac with a variable output magnitude and frequency. Power electronics has many applications in our every day life such as air-conditioners, electric cars, sub-way trains, motor drives, renewable energy sources and power supplies for computers. This book covers all aspects of switching devices, converter circuit topologies, control techniques, analytical methods and some examples of their applications. * 25% new content * Reorganized and revised into 8 sections comprising 43 chapters * Coverage of numerous applications, including uninterruptable power supplies and automotive electrical systems * New content in power generation and distribution, including solar power, fuel cells, wind turbines, and flexible transmission
Description based on publisher supplied metadata and other sources
Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2020. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries
Link Print version: Rashid, Muhammad H. Power Electronics Handbook : Devices, Circuits and Applications Burlington : Elsevier Science & Technology,c2006 9780120884797
Subject Power electronics--Handbooks, manuals, etc
Electronic books
Alt Author Afridi, Khurram
Alonso, J. Marcos
Batarseh, Issa
Bryant, Angus
Carrasco, Juan
Chaar, Lana
Chattopadhyay, Ajit K
Chow, Martin
Chung, Henry S. H
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