Kazimierczuk M.K., Czarkowski D. Resonant Power Converters

New York: Wiley-IEEE Press, 2011. — 632 p.This book is devoted to resonant energy conversion in power electronics. It is a practical, systematic guide to the analysis and design of various dc-dc resonant inverters, high-frequency rectifiers, and dc-dc resonant converters that are building blocks of many of today's high-frequency energy processors. Designed to function as both a superior senior-to-graduate level textbook for electrical engineering courses and a valuable professional reference for practicing engineers, it provides students and engineers with a solid grasp of existing high-frequency technology, while acquainting them with a number of easy-to-use tools for the analysis and design of resonant power circuits. Resonant power conversion technology is now a very hot area and in the center of the renewable energy and energy harvesting technologies.About The Authors
List of SymbolsRectifiersCircuit Operation
Currents and Voltages
Power Factor
Power-Output Capability
Efficiency
Voltage Transfer Function
Ripple Voltage
Currents and Voltages
Power Factor
Power-Output Capability
Efficiency
Voltage Transfer Function
Ripple Voltage
Class D Bridge Rectifier
Power-Output Capability
Voltage Transfer Function
Effects of Equivalent Series Resistance and Equivalent Series Inductance
Synchronous Rectifiers
Gate-Drive Power
Voltage Transfer FunctionReview Questions
Problems
Assumptions
Currents and Voltages
Power Factor
Efficiency
Voltage Transfer Function
Ripple Voltage
Currents and Voltages
Power Factor
Efficiency
Voltage Transfer Function
Ripple Voltage
Class D Bridge Rectifier
Efficiency
Voltage Transfer FunctionProblems
Principle of Operation
Assumptions
Characterization of the Rectifier at Any D
Parameters for D =
Design Example
Circuit Description
Characteristics
Input Impedance
Diode Stresses
Parameters for D =
Design ExampleProblems
Circuit Description
Assumptions
Component Values
Input Impedance
Current and Voltage Transfer Functions
Design Example
Principle of Operation
Assumptions
Component Values
Peak Diode Current and Voltage
Voltage Transfer Function
Input Impedance
Design ExampleProblemsInvertersCircuit Description
Principle of Operation
Operation Below Resonance
Operation Above Resonance
Topologies of Class D Voltage-Source Inverters
Series-Resonant Circuit
Input Impedance of Series-Resonant Circuit
Currents, Voltages, and Powers
Current and Voltage Stresses
Voltage Transfer Function
Turn-On Switching Loss
Turn-Off Switching Loss
Design Example
Currents, Voltages, and Powers
Efficiency
Voltage Transfer Function
Relationships Among Inverters and RectifiersProblems
Principle of Operation
Resonant Circuit
Voltage Transfer Function
Currents, Voltages, and Powers
Efficiency
Short-Circuit and Open-Circuit Operation
Electronic Ballast for Fluorescent Lamps
Design Example
Voltage Transfer Function
Currents, Voltages, and Powers
Efficiency
Short-Circuit and Open-Circuit OperationProblems
Principle of Operation
Assumptions
Resonant Circuit
Voltage Transfer Function
Energy Parameters
Short-Circuit and Open-Circuit Operation
Design Example
Voltage Transfer Function
Currents and VoltagesProblems
Principle of Operation
Boundary Between Capacitive and Inductive Load
Voltage Transfer Function
Energy Parameters
Short-Circuit and Open-Circuit Operation
Design Example
Voltage Transfer Function
Currents and VoltagesProblemsPrinciple of Operation
Analysis of the Parallel-Resonant Circuit
Voltage Transfer Function
Conduction Power Loss
Efficiency
Design ExampleProblemsPhase-Controlled Current-Source Inverters
Phase-Controlled Voltage-Source Inverters
Circuit Description
Voltage Transfer Function
Currents
Boundary Between Capacitive and Inductive Load
Efficiency
Design ExampleReview Questions
ProblemsCircuit Description
Optimum Operation
Suboptimum Operation
Current and Voltage Waveforms
Voltage and Current Stresses
Input Impedance of the Resonant Circuit
Component Values
Parameters at D —
Efficiency
Resonant Circuit πa
Resonant Circuit πa
Resonant Circuit πa
Design Example
Push-Pull Class E ZVS InverterReview Questions
Problems
Circuit Description
Principle of Operation
Steady-State Current and Voltage Waveforms
Fundamental-Frequency Components
Element Values of Load Network
Design ExampleProblems
Principle of Operation of Class DE Power Inverter
Analysis of Class DE Power Inverter
Components
Device Stresses
Maximum Operating Frequency
Class DE Inverter with Single Shunt Capacitor
Cancellation of Nonlinearities of Transistor Output CapacitancesProblemsConvertersCircuit Description
Half-Bridge SRC with Half-Wave Rectifier
Half-Bridge SRC with Bridge Rectifier
Full-Bridge Series-Resonant Converter
Full-Bridge SRC with Half-Wave Rectifier
Full-Bridge SRC with Bridge Rectifier
Design of Half-Bridge SRCProblems
Principle of Operation
Half-Bridge PRC with Half-Wave Rectifier
Design of the Half-Bridge PRC
Full-Bridge PRC with Half-Wave Rectifier
Full-Bridge PRC with Bridge RectifierReview Questions
ProblemsCircuit Description
Half-Bridge SPRC with Half-Wave Rectifier
Design of Half-Bridge SPRC
Full-Bridge SPRC with Transformer Center-Tapped Rectifier
Full-Bridge SPRC with Bridge RectifierReview Questions
Problems
Circuit Description
Half-Bridge CLL Resonant Converter with Half-Wave Rectifier
Half-Bridge CLL Resonant Converter with Bridge Rectifier
Design of Half-Bridge CLL Resonant Converter
Full-Bridge CLL Resonant Converter with Half-Wave Rectifier
Full-Bridge CLL Resonant Converter with Bridge RectifierProblems
Circuit Description
CSRC with Half-Wave Rectifier
Design of CSRCProblems
Circuit Description
Principle of Operation
Rectifier Parameters for D =
Design of Class D Inverter/Class E Resonant Converter
Class E ZVS Inverter/Class D Rectifier Resonant DC-DC Converter
Class E ZVS Inverter/Class E ZVS Rectifier Resonant DC-DC ConverterProblems
Circuit Description of SC PC SRC
SC PC SRC with Half-Wave Rectifier
SC PC SRC with Bridge Rectifier
Design ExampleProblemsZero-Voltage-Switching Quasiresonant DC-DC Converters
Waveforms
DC Voltage Transfer Function
Voltage and Current Stresses
Waveforms
DC Voltage Transfer Function
Current and Voltage Stresses
Waveforms
DC Voltage Transfer Function
Current and Voltage Stresses
Generalization of ZVS QR DC-DC Converters
Zero-Current-Switching Quasiresonant DC-DC Converters
Waveforms
DC Voltage Transfer Function
Current and Voltage Stresses
Waveforms
DC Voltage Transfer Function
Current and Voltage Stresses
Waveforms
DC Voltage Transfer Function
Current and Voltage Stresses
Generalization of ZCS QR DC-DC Converters
Zero-Voltage Switching Multiresonant DC-DC Converters
Buck Multiresonant DC-DC Converter
Zero-Current Switching Multiresonant DC-DC Converters
Zero-Voltage Transition PWM Converters
Zero-Current Transition ConvertersReview Questions
ProblemsNonlinear Model
Small-Signal Linear Model
Reduced Model
ControlProblems
Appendices
Answers to Problems