This book gives a comprehensive and in-depth introduction to the development of active power decoupling technology in single-phase current-source converters. It covers cutting-edge topics such as virtual-impedance control and harmonic state-space modeling and presents topology construction principles, specific decoupling topologies, advanced decoupling controls, and stability analysis. This book will be an invaluable tool for researchers, engineers, and designers in the field of power electronics involved in designing power converters with high power density and reliability.
This book gives a comprehensive and in-depth introduction to the development of active power decoupling technology in single-phase current-source converters. It covers cutting-edge topics such as virtual-impedance control and harmonic state-space modeling and presents topology construction principles, specific decoupling topologies, advanced decoupling controls, and stability analysis. This book will be an invaluable tool for researchers, engineers, and designers in the field of power electronics involved in designing power converters with high power density and reliability.
Yonglu Liu, Ph.D., is an Associate Professor at the School of Automation, Central South University. He received his M.S. degree in electrical engineering and Ph.D. degree in control engineering from Central South University in 2015 and 2017 respectively. Professor Liu has worked on power electronic converters for more than ten years and has published his research results in more than 40 journals and conferences. His research interests include power electronics and renewable energy power conversion systems.
Inhaltsangabe
Introduction.- Basic Decoupling Cells and Topology Construction Principles.- Independent Decoupling Topologies for Current-Source Rectifier.- Dependent Decoupling Topologies for Current-Source Rectifier.- Decoupling Topologies with Wide Output Voltage.- Virtual-Impedance-Based Decoupling Control.- Stability Improvement Based on HSS Modeling.- Conclusions and Perspective for Future Work.
Introduction.- Basic Decoupling Cells and Topology Construction Principles.- Independent Decoupling Topologies for Current-Source Rectifier.- Dependent Decoupling Topologies for Current-Source Rectifier.- Decoupling Topologies with Wide Output Voltage.- Virtual-Impedance-Based Decoupling Control.- Stability Improvement Based on HSS Modeling.- Conclusions and Perspective for Future Work.
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