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. …mehr
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.
Deshang Sha is currently a tenured associate professor at the School of Automation, Beijing Institute of Technology, Beijing, China. From 2012 to 2013, he was a visiting scholar at the Future Energy Electronics Center (FEEC), Virginia Polytechnic Institute and State University, Blacksburg, USA. His research interests include high-frequency isolated and high-efficiency power conversion, power electronics application in renewable energy and micro-grids. He has published over 40 papers in international journals, of which more than 20 were published in IEEE Transactions. He has earned 12 patents in the field of power electronics and has published one other book. In 2013, he received the IEEE Transactions on Power Electronics outstanding reviewer award. Guo Xu received his B.S. degree in Electrical Engineering and Automation from the Beijing Institute of Technology, Beijing, China, in 2012, where he is currently working towards his Ph.D. degree in Electrical Automation. From 2016 to 2017, he was a visiting student at the Center of Power Electronics System (CPES), Virginia Polytechnic Institute and State University, Blacksburg. His research interests include modeling and control of power electronics converters and high-power density converters.
Inhaltsangabe
Introduction.- Simplified and Unified Control for Voltage Fed Dual Active Bridge Converter.- Hybrid-Bridge-Based Voltage Fed Dual Active Bridge Converter.- Dual-Transformer-Based Voltage Fed Dual Active Bridge Converter.- Blocking-Capacitor-Based Voltage Fed Dual Active Bridge Converter.- Three-level Bidirectional DC-DC Converter with an Auxiliary Inductor for Full-Operation Zero-Voltage Switching.- Current-Fed Dual Active Bridge DC-DC Converter with Dual PWM plus Double Phase Shifted Control---Identical Duty Cycle Control.- Current-fed Dual Active Bridge Converter Using Optimized Switching Patterns---Un-identical Duty Cycle Control.- Half Bridge Three-Level Current-Fed Dual Active Bridge Converter with Direct Slew Rate Control---Identical Duty Cycle Control.- Full Bridge Three-Level Current-Fed Dual Active Bridge Converter with Identical Duty Cycle Control.- Current-fed Hybrid Dual Active Bridge Converter.- Future Work.
Introduction.- Simplified and Unified Control for Voltage Fed Dual Active Bridge Converter.- Hybrid-Bridge-Based Voltage Fed Dual Active Bridge Converter.- Dual-Transformer-Based Voltage Fed Dual Active Bridge Converter.- Blocking-Capacitor-Based Voltage Fed Dual Active Bridge Converter.- Three-level Bidirectional DC-DC Converter with an Auxiliary Inductor for Full-Operation Zero-Voltage Switching.- Current-Fed Dual Active Bridge DC-DC Converter with Dual PWM plus Double Phase Shifted Control---Identical Duty Cycle Control.- Current-fed Dual Active Bridge Converter Using Optimized Switching Patterns---Un-identical Duty Cycle Control.- Half Bridge Three-Level Current-Fed Dual Active Bridge Converter with Direct Slew Rate Control---Identical Duty Cycle Control.- Full Bridge Three-Level Current-Fed Dual Active Bridge Converter with Identical Duty Cycle Control.- Current-fed Hybrid Dual Active Bridge Converter.- Future Work.
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