Advanced Power Conversion Techniques (Volume VII)

About the Book
Table of Contents
7.1.01 : "Basic Concepts in Quasi-Resonant and Multi-Resonant Power Conversion"
7.1.02 : "An overview of Soft-Switching Techniques for PWM Converters"
7.1.03 : "Clamp Mode Zero-Voltage-Switched Multi-Resonant Converters"
7.1.04 : "Analysis of Reactive Power in Resonant Converters"
7.1.05 : "Comparison of Single-Ended-Parallel MRC and Forward MRC"
7.1.06 : "Analysis, Design and Experimental Results of ZCS-PWM Boost Converters"
7.1.07 : "Zero-Voltage-Switched Multiresonant Converter for High-Power, Pulse-Load Applications"
7.1.08 : "Design of a 10kW, 500 kHz Phase-Shift Controlled Series-Resonant Inverter for Induction Heating"
7.1.09 : "Small-Signal Analysis of a Series-Resonant Inverter for Induction Heating"
7.1.10 : "Small-Signal Analysis of the Phase-Shifted PWM Converter"
7.1.11 : "Optimization and Design Issues of Low Output Voltage, Off-Line, Zero-Voltage-Switched PWM Converters"
7.1.12 : "A Comparative Study of a Class of Full-Bridge Zero-Voltage-Switched PWM Converters"
7.1.13 : "A Comparative Study of Switching Losses of IGBTs Under Hard-Switching, Zero-Voltage- Switching and Zero-Current Switching"
7.1.14 : "Soft-Switching of IGBTs with the Help of MOSFET’s"
7.1.15 : "Zero-Voltage and Zero-Current-Switching Full Bridge PWM Converter for High Power Applications"
7.1.16 : "A Soft-Switched, Full-Bridge Boost Converter Employing an Active-Clamp Circuit"
7.2.01 : "Single-Phase Three-Level Boost Power Factor Correction Converter"
7.2.02 : "Design of a 4 kW On-Board Battery Charger for Electric Vehicles"
7.2.03 : "High Performance Control of Single Phase Power Factor Correction Circuits Using a Discrete Time Domain Control Method"
7.2.04 : "Harmonic Reduction in a Single-Switch, Three-Phase Boost Rectifier with High Order Harmonic Injected PWM"
7.2.05 : "Three-Phase Single-Stage Isolated Rectifier with Power Factor Correction"
7.2.06 : "A Three Phase ZVT Boost Rectifier with Improved Analog Controller"
7.2.07 : "Analysis and Design of High Frequency Three-Phase Boost Rectifiers"
7.2.08 : "Average and Small-Signal Modeling of Zero-Voltage Transition Three-Phase PWM Boost Rectifier"
7.2.09 : "Control Design of Three-Phase PWM Buck Rectifier with Power Factor Correction"
7.2.10 : "Control of Front-End Three-Phase Boost Rectifier"
7.2.11 : "Average Current Control of Three-Phase PWM Boost Rectifier"
7.2.12 : "Small-Signal Modeling and Control of Three-Phase PWM Converters"
7.3.01 : "An Improved Zero-Voltage-Transisiton Three-Phase Rectifier/Inverter"
7.3.02 : "Development of Power Electronics for a Flywheel Energy Storage System"
7.3.03 : "Novel DC-Rail Soft-Switched Three-Phase Voltage-Source Inverters"
7.3.04 : "Three Phase Soft-Switching Inverters for Electric Vehicle Applications"
7.3.05 : "Space-Vector Modulated PWM Converter for Photo-Voltaic Interface Applications: Analysis, Power Management, and Control Issues"
7.3.06 : "Design and Implementation of a Three-Phase to Three-Phase Matrix Converter with a DSPBased Space Vector Modulator"
7.3.07 : "Design and Implementation of a Three-Phase to Three-Phase Matrix Converter with Input Power Factor Correction"
7.3.08 : "Digital Modulator for Forced Commutated Cycloconverters with Input Power Factor Correction"
7.3.09 : "A Novel Five-Phase Multipole Permanent Magnet Brushless DC Motor and Drive"