Читать книгу Soft-Switching Technology for Three-phase Power Electronics Converters - Rui Li - Страница 2

1  Cover

2  Series Page

3  Title Page

4  Copyright Page

5  Preface

6  Nomenclature

7  Part 1: Fundamental of Soft‐switching 1 Introduction 1.1 Requirement of Three‐phase Power Conversions 1.2 Concept of Soft‐switching Technique 1.3 Applications of Soft‐switching to Three‐phase Converters 1.4 The Topics of This Book References 2 Basics of Soft‐switching Three‐phase Converters 2.1 Introduction 2.2 Switching Characteristics of Three‐phase Converters 2.3 Classification of Soft‐switching Three‐phase Converters 2.4 DC‐side Resonance Converters 2.5 AC‐side Resonance Converters 2.6 Soft‐switching Inverter with TCM Control 2.7 Summary References 3 Soft‐switching PWM Control for Active Clamped Three‐phase Converters 3.1 Introduction 3.2 PWM of Three‐phase Converters 3.3 Edge‐aligned PWM 3.4 ZVS Active‐clamping Converter with Edge‐aligned PWM 3.5 Control Diagram of the Converter with EA‐PWM 3.6 ZVS‐SVM 3.7 Summary References

8  Part 2: ZVS‐SVM Applied to Three‐phase Rectifiers 4 Three‐phase Rectifier with Compound Active‐clamping Circuit 4.1 Introduction 4.2 Operation Principle of CAC Rectifier 4.3 Circuit Analysis 4.4 Prototype Design 4.5 Summary References 5 Three‐phase Rectifier with Minimum Voltage Active‐clamping Circuit 5.1 Introduction 5.2 Operation Principle of MVAC Rectifier 5.3 Circuit Analysis of MVAC Rectifier 5.4 Prototype Design 5.5 Summary References

9  Part 3: ZVS‐SVM Applied to Three‐phase Grid Inverters 6 Three‐phase Grid Inverter with Minimum Voltage Active‐clamping Circuit 6.1 Introduction 6.2 Operation Principle of MVAC Inverter 6.3 Circuit Analysis 6.4 Design Prototype 6.5 Summary References 7 Three‐phase Inverter with Compound Active‐clamping Circuit 7.1 Introduction 7.2 Scheme of ZVS‐SVM 7.3 Circuit Analysis 7.4 Implementation of ZVS‐SVM 7.5 Prototype Design 7.6 Summary References 8 Loss Analysis and Optimization of a Zero‐voltage‐switching Inverter 8.1 Introduction 8.2 Basic Operation Principle of the CAC ZVS Inverter 8.3 Loss and Dimension Models 8.4 Parameters Optimization and Design Methodology 8.5 Prototype and Experimental Results 8.6 Summary References 9 Design of the Resonant Inductor 9.1 Introduction 9.2 Fundamental of Inductor 9.3 Design Methodology 9.4 Design Example 9.5 Design Verification 9.6 Summary References

10  Part 4: Impact of SiC Device on Soft‐switching Grid Inverter 10 Soft‐switching SiC Three‐phase Grid Inverter 10.1 Introduction 10.2 Soft‐switching Three‐phase Inverter 10.3 Efficiency Comparison of Hard‐switching SiC Inverter and Soft‐switching SiC Inverter 10.4 Design of Low Stray Inductance Layout in Soft‐switching SiC Inverter 10.5 Design of Low Loss Resonant Inductor in Soft‐switching SiC Inverter 10.6 Summary References 11 Soft‐switching SiC Single‐phase Grid Inverter with Active Power Decoupling 11.1 Introduction 11.2 Operation Principle 11.3 Circuit Analysis 11.4 Design Prototype 11.5 Summary References 12 Soft‐switching SiC Three‐phase Four‐wire Back‐to‐back Converter 12.1 Introduction 12.2 Operation Principle 12.3 Circuit Analysis 12.4 Design Prototype 12.5 Summary References

11  Appendix A.1 Basic of SVM A.2 Switching Patterns of SVM 12 A.3 Switching Patterns of ZVS‐SVM A.4 Inverter Loss Models A.5 AC Filter Inductance Calculation A.6 DC Filter Capacitance Calculation

12  Index

13  Books in the IEEE Press Series on Power and Energy Systems

14  End User License Agreement