Switching Rectifiers for Power Factor Correction (Volume V)

About the Book
Table of Contents
5.1.01 : "Input Filter Design for Power Factor Correction Circuits"
5.1.02 : "Design and Analysis of a Hysteretic Boos Power Factor Correction Circuit"
5.1.03 : "Design Trade-Offs in Continuous Current-Mode Controlled Boost Power-Factor-Correction Circuit"
5.1.04 : "Soft-Switching of IGBTs with the Help of MOSFETs"5.1.05 "Isolated Boost Circuit for Power Factor Correction"
5.1.06 : "A New Control Scheme for Buck+Boost Power Factor Correction"
5.1.07 : "Novel Zero-Voltage-Transition PWM Converters"
5.1.08 : "Novel Zero-Current-Transition PWM Converters"
5.1.09 : "Design Issues for a Zero-Voltage-Switched Power-Factor Correction Circuit and DC-DC Converter Power Processing Unit"
5.1.10 : "Average Small-Signal Analysis of the Boost Power Factor Correction Circuit"
5.1.11 : "Small-Signal Modeling of the Single-Phase Boost High Power Factor Converter with Constant Frequency Control"
5.1.12 : "Change Control: Modeling, Analysis and Design"
5.1.13 : "Power Factor Correction with Flyback Converter Employing Charge Control"
5.1.14 : "Loss Comparison and Subharmonic Oscillation Issue on Flyback Power Factor Correction Circuit"
5.1.15 : "Characterization of an Active Clamp Flyback Topology for DC/DC Conversion and Power Factor Correction Applications"
5.1.16 : "Utilization of an Active-Clamp Circuit to Achieve Soft-Switching in Flyback Converters"
5.1.17 : "Reduction of Voltage Stress in Integrated High-Quality Rectifier - Regulators by Variable- Frequency Control"
5.1.18 : "A Novel Single-Phase Power Factor Correction Scheme"
5.1.19 : "Single-Stage, Single-Phase Parallel Power Factor Correction"
5.1.20 : "A Simple Scheme for Unit Power-Factor Rectification for High-Frequency AC Buses"
5.1.21 : "Separation of the Common-Mode and the Differential-Mode Conducted EMI Noise"
5.2.01 : "Implementation of Single-Phase Boost Power Factor Correction Circuits in Three-Phase Applications"
5.2.02 : "Soft-Switched Single-Switch Three-Phase Rectifier with Power Factor Correction"
5.2.03 : "Simple High Performance Three-Phase Boost Rectifiers"
5.2.04 : "Small-Signal Modeling of Three-Phase PWM Buck Rectifier with Input Filter"
5.2.05 : "A New Zero-Voltage-Transmission, Three-Phase PWM Recitifer/Inverter Circuit"
5.2.06 : "Control of Front-End Three-Phase Boost Rectifier"
5.2.07 : "Space Vector Modulated, Zero-Voltage-Transition, Three-Phase to DC Bidrectional Converter"
5.2.08 : "Soft-Transition Three-Phase PWM Conversion Technology"
5.2.09 : "A Zero-Voltage-Switched, Three-Phase PWM Switching Rectifier with Power Factor Correction"
5.2.10 : "Analysis and Design of a Zero-Voltage Switched, Three-Phase PWM Rectifier with Power Factor Correction"
5.2.11 : "Digital-Signal-Processor-Based Control of Three-Phase, Space Vector Modulated Converters"
5.2.12 : "A New Control Algorithm for Three-Phase PWM Buck Rectifier with Input Displacement Factor Compensation"
5.2.13 : "Space Vector Modulation in Matrix Conversion"
5.2.14 : "Analysis, Design and Implementation of the Space-Vector Modulator for Forced-Commutated Cyclonconvertors"
5.2.15 : "Space Vector Modulation with Unity Input Power Factor for Forced Commutated Cycloconverters"
5.2.16 : "Space Vector Modulated Three-Phase to Three-Phase Matrix Converter with Input Power Factor Correction"