This book will investigate the short-timescale transient phenomena (from microsecond to nanosecond) of power electronic systems, with a focus on high-powerconverters for hybrid electric vehicles and renewable energy systems. The authors will provide guidelines for design that improve system reliability, a crucial issue for high power and high voltage power electronic systems. The book will explore the interrelations among various subsystems with different scalesof time constants, and thereby set up a theoretical framework and relevant methodology for the design, modeling and prototyping of modern power electronicsconverters. Topics to be covered include an introduction to the fundamentals of transients in power electronics; modeling methods for power electronic subsystems; switching processes of semiconductors; dead-band effect and minimum pulse width; modulated error; abnormal pulses and sneak pulse, and concluding with a look to future trends within this field. INDICE: About the authors Preface 1. Power Electronic Device, Circuit, Topology, and Control1.1 Power Electronics1.2 The Evolution of Power Device Technology1.3 Power Electronic Circuit Topology1.4 PWM Control1.5 Typical Power Electronic Converters and Their Applications1.6 Transient Processes in Power Electronics and Book OrganizationReferences 2. Macroscopic and Microscopic Factorsin Power Electronic System2.1 Introduction2.2 Microelectronics vs. Power Electronics2.3 State-of-the-Art Of Research in Short-Timescale Transients2.4 Typical Influential Factors and Transient Processes2.5 Methods to Study the Short-Timescale Transients2.6 SummaryReferences 3. Power Semiconductor Devices, Integrated Power Circuits, and Their Short Time Scale Transients3.1 Major Characteristics of Semiconductors3.2 Modeling Methods of Semiconductors3.3 IGBT3.4 IGCT3.5 Silicon Carbide JFET3.6 System-Level SOA3.7 Soft-Switching Control and ItsApplication in High Power ConvertersReferences 4. Power Electronics in Electric and Hybrid Vehicles4.1 Introduction to Electric and Hybrid Vehicles4.2 Architecture and Control of Hybrid Electric Vehicles4.3 Power Electronics In HEVs4.4 Battery Chargers For EV And PPEVReferences 5. Power Electronics in Alternative Energy and Advanced Power Systems5.1 Typical Alternative Energy Systems5.2Transients in Alternative Energy Systems5.3 Power Electronics, Alternative Energy and Future Micro-Grid Systems5.4 Dynamic Process in the Multi-Source System5.5 Specialty of Control and Analyzing Methods in Alternative Energy Systems5.6 Application of Power Electronics in Electric Power SystemReferences 6. Power Electronics in Battery Management Systems6.1 Application of Power Electronics in Rechargeable Batteries6.2 Battery Charge Management6.3 Cell Balancing6.4Safe Operating Area of Battery Power ElectronicsReferences 7. Dead-band Effect and Minimum Pulse Width7.1 Dead-Band Effect in DC-AC Inverters7.2 Dead-Band Effect in DC-DC Converter7.3 Control Strategy for Dead-Band Compensation7.4 Minimum Pulse Width7.5 Summary 8. Modulated Error in Power Electronic System8.1 Modulated Error Between Information Flow and Power Flow8.2 Modulated Error in Switching Power Semiconductors8.3 Modulated Error in DC-AC Inverter8.4 Modulated Error in The DC-DC Converter8.5 Summary 9. Future Trends 10. Index
- ISBN: 978-0-470-68664-5
- Editorial: John Wiley & Sons
- Encuadernacion: Cartoné
- Páginas: 288
- Fecha Publicación: 08/07/2011
- Nº Volúmenes: 1
- Idioma: Inglés