| Description |
1 online resource (326 pages) |
| Series |
CPSS Power Electronics |
|
CPSS Power Electronics Series
|
| Contents |
Intro; Preface; Contents; List of Figures; 1 Introduction; Abstract; 1.1 Application of Bidirectional DC-DC Converter; 1.1.1 Energy Storage System for Microgrid or Smart Grid; 1.1.2 Automotive Applications; 1.1.3 SST Application; 1.2 Classification of Bidirectional DC-DC Converter; 1.2.1 Non-isolated and Isolated DC-DC Converter; 1.3 Isolated Bidirectional DC-DC Converter; 1.3.1 PWM Controlled, Frequency Controlled and Phase Shift Controlled Bidirectional DC-DC Converter; 1.3.2 Current-Fed DAB Converter; 1.3.3 Multi-level DAB DC-DC Converter; 1.4 Research Literature of DAB Converters |
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1.4.1 Basic Principle of DAB Converters1.4.2 Control of Voltage-Fed DAB Converters; 1.4.3 Control of Current-Fed DAB Converters; 1.5 Key Issues of DAB Converter; 1.5.1 ZVS Range; 1.5.2 Non-active Power and Current Stress; 1.5.3 Wide Voltage Gain; 1.6 Organization of the Book; References; 2 Unified Boundary Trapezoidal Modulation Control for Dual Active Bridge DC-DC Converter; Abstract; 2.1 Fixed Duty Cycle Compensation and Magnetizing Current Design for DAB DC-DC Converter with Trapezoidal Modulation; 2.1.1 Conventional Trapezoidal Modulation (TZM) |
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2.1.2 ZVS Conditions for DAB Converter with Conventional TZM Control2.1.3 Proposed Fixed Duty Cycle Compensation; 2.1.4 Magnetizing Current Design to Achieve ZVS for S7 and S8; 2.2 Power Transfer Characteristic and Selections of Duty Cycles and Phase Shift Ratio; 2.2.1 Selections of Duty Cycles and Phase Shift Ratio for Minimum RMS Circulating Current; 2.2.2 Maximum Power Transfer Point; 2.3 Boundary TZM Control and Its Implementation; 2.3.1 Boundary TZM Control; 2.3.2 Implementation of Boundary TZM Control; 2.4 Experimental Verification; 2.5 Conclusion; References |
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3 Hybrid-Bridge-Based DAB Converter with Wide Voltage Conversion GainAbstract; 3.1 Working Principle of Hybrid-Bridge-Based DAB Converter; 3.1.1 Topology and Modulation Scheme for Hybrid-Bridge-Based DAB Converter; 3.1.2 Working Stages of the Converter; 3.2 ZVS Conditions and Power Control; 3.2.1 Current Range for ZVS; 3.2.2 Proposed VM Control to Ensure Wide ZVS Range; 3.3 Converter Performance with Proposed Voltage Match Control; 3.3.1 Voltage Gain Under VM Control; 3.3.2 Power Transfer Characteristics with VM Control; 3.3.3 Switches ZVS Discussion |
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3.4 Implementation of the Proposed Control3.5 Comparison; 3.5.1 General Comparisons; 3.5.2 Comparison of Inductor RMS Current and Total Conduction Loss; 3.6 Experimental Verification; 3.7 Discussion and Future Work; 3.8 Conclusion; References; 4 Dual-Transformer-Based DAB Converter with Wide ZVS Range for Wide Voltage Gain Application; Abstract; 4.1 Converter Topology and Operation Principle; 4.1.1 Topology and Modulation Schedule Using Phase Shift Control; 4.1.2 Working Stages of the Converter; 4.2 ZVS Constraints and Control; 4.2.1 Current Range for ZVS |
| Summary |
Written by experts, this book is based on recent research findings in high- frequency isolated bidirectional DC-DC converters with wide voltage range. It presents advanced power control methods and new isolated bidirectional DC-DC topologies to improve the performance of isolated bidirectional converters. Providing valuable insights, advanced methods and practical design guides on the DC-DC conversion that can be considered in applications such as microgrid, bidirectional EV chargers, and solid state transformers, it is a valuable resource for researchers, scientists, and engineers in the field of isolated bidirectional DC-DC converters |
| Bibliography |
Includes bibliographical references |
| Notes |
Print version record |
| Subject |
DC-to-DC converters.
|
|
TECHNOLOGY & ENGINEERING -- Mechanical.
|
|
DC-to-DC converters
|
| Form |
Electronic book
|
| Author |
Xu, Guo, author
|
| ISBN |
9789811302596 |
|
9811302596 |
|
