High-Frequency Resonant and Soft-Switching PWM Converters (Volume IV)

About the Book
Table of Contents
4.1.01 : "High-Frequency Multi-Resonant Converters Technology and Its Applications"
4.1.02 : "DC Analysis and Design of Forward ZVS-MRC"
4.1.03 : "DC Analysis and Design of Zero-Voltage-Switched Multi-Resonant Converters"
4.1.04 : "DC Analysis of Half-Bridge Zero-Voltage-Switched Multi-Resonant Converter"
4.1.05 : "Comparison of Half-Bridge, Off-Line, ZCS-QRC and ZVS-MRC"
4.1.06 : "High-Frequency Forward ZVS-MRC for a Low-Profile High-Density On-Board Power Supply"
4.1.07 : "Design of High-Density On-Board Single-and Mutliple-Output Multi-Resonant Converters"
4.1.08 : "Constant-Frequency, Multi-Resonant Converters"
4.1.09 : "Constant-Frequency Zero-Voltage-Switched Multi-Resonant Converters: Analysis, Design, and Experimental Results"
4.2.01 : "Zero-Voltage Switching With Fixed-Frequency Clamped-Mode Resonant Converters"
4.2.02 : "Constant-Frequency Zero-Voltage-Switched, Clamped-Mode Parallel-Resonant Converter"
4.2.03 : "LCC Resonant Inverter with Fixed-Frequency Clamped-Mode Operation"
4.3.01 : "Equivalent Circuit Models for Resonant and PWM Switches"
4.3.02 : "Non-Linear Design Optimization of Quasi-Resonant Converters"
4.3.03 : "Modeling Losses and Stresses of High-Frequency Power Converters Using Saber"
4.3.04 : "Small-Signal Modeling of Power Electronic Circuits Using Extended Describing Function Technique"
4.3.05 : "Extended Describing Function Technique Applied to the Modeling of Resonant Converters"
4.4.01 : "A New Family of Isolated Zero-Voltage-Switched Converters"
4.4.02 : "A New Class of Zero-Voltage-Switched PWM Converters"
4.4.03 : "An Improved Zero-Voltage-Switched PWM Converter Using a Saturable Inductor"
4.4.04 : "Novel Zero-Voltage-Transition PWM Converters"
4.4.05 : "A Novel Full-Bridge Zero-Current Switched PWM Converter"
4.4.06 : "The Operation of a Full-Bridge, Zero-Voltage-Switched, PWM Converter"
4.4.07 : "Design Considerations for High-Voltage, High-Power, Full-Bridge, Zero-Voltage-Switched PWM Converter"
4.4.08 : "High-Voltage, High-Power, ZVS, Full-Bridge PWM Converter Employing An Active Snubber"
4.4.09 : "Small-Signal Analysis of the Zero-Voltage-Switched, Full-Bridge, PWM Converter"
4.4.10 : "Design Optimization of the Zero-Voltage-Switched PWM Converter"
4.4.11 : "Design Trade-Offs in 5-V Output Off-Line Zero-Voltage-Switched PWM Converters"
4.5.01 : "A 10 MHz Universal Control IC for Resonant-Mode Power Supplies"
4.5.02 : "A MOSFET Resonant Synchronous Rectifier for High-Frequency DC/DC Converters"
4.5.03 : "High Frequency Core Loss Characterization Technique Based on Impedance Measurement"
4.5.04 : "Magnetostriction and Its Effects on Losses in Ferrites"
4.5.05 : "Thermal Interaction of Devices: Design Guidelines for Hybrid Circuit Layout"
4.5.06 : "Thermal Performance Comparison of Copper-Clad Ceramic Substrates for Power Hybrid Microelectronics"
4.5.07 : "Power Hybrid Design of High-Frequency ZCS-QRC"
4.5.08 : "High-Density Power Hybrid Design of a Half-Bridge Multi-Resonant Converter"
4.6.01 : "A Full-Bridge Zero-Voltage-Switched Multi-Resonant Converter for Pulse-Load Applications"
4.6.02 : "DC to AC Inversion Using Quasi-Resonant Techniques"
4.6.03 : "A High-Frequency AC Bus Distributed Power System"
4.6.04 : "A Simple Scheme for Unity Power Factor Rectifier for High-Frequency AC Buses"
4.6.05 : "Analysis and Design of a High Voltage Power Supply Using a Zero-Current-Switched Quasi-Resonant Converter"
4.6.06 : "Design of a Transcutaneous Energy Transmission System Using a Series Resonant Converter"
4.6.07 : "Comparison of the Forward Circuit Topologies with Various Reset Schemes"
4.6.08 : "A Zero-Voltage-Switched, Three-Phased PWM Switching Rectifier with Power Factor Correction"