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This book describes systematically wireless power transfer technology using magnetic resonant coupling and electric resonant coupling and presents the latest theoretical and phenomenological approaches to its practical implementation, operation and its applications. It also discusses the difference between electromagnetic induction and magnetic resonant coupling, the characteristics of various types of resonant circuit topologies and the unique features of magnetic resonant coupling methods. Designed to be self-contained, this richly illustrated book is a valuable resource for a broad…mehr
This book describes systematically wireless power transfer technology using magnetic resonant coupling and electric resonant coupling and presents the latest theoretical and phenomenological approaches to its practical implementation, operation and its applications. It also discusses the difference between electromagnetic induction and magnetic resonant coupling, the characteristics of various types of resonant circuit topologies and the unique features of magnetic resonant coupling methods. Designed to be self-contained, this richly illustrated book is a valuable resource for a broad readership, from researchers to engineers and anyone interested in cutting-edge technologies in wireless power transfer.
Takehiro Imura is an Associate Professor at the Faculty of Science and Technology, Department of Electrical Engineering at Tokyo University of Science. His research interests include wireless power transfer using magnetic resonant coupling and electric resonant coupling for stationary electric vehicles, in-motion electric vehicles, medical equipments, space equipments, IoT devices and sensors. His research interests also include fusion of dynamic wireless power transfer for electric vehicle and solar power to reduce CO2.
He is a member of the IEEE, IEEJ, IEICE and the JSAE. He received the First Prize Paper Award from the IEEE Transactions on Power Electronics in 2017.
Inhaltsangabe
About wireless power transfer.- Basic knowledge of electromagnetism electric circuit.- Basic phenomena of magnetic resonant coupling.- Basic resonant circuit topology (S-S).- Comparison of electromagnetic induction and magnetic resonant coupling.- Other resonant circuit topologies (PS, PP, LCL, LCC).- Open end and short end type coil.- System of magnetic resonant coupling.- Repeater and multiple coils.- Development of multiple coils.
About wireless power transfer.- Basic knowledge of electromagnetism electric circuit.- Basic phenomena of magnetic resonant coupling.- Basic resonant circuit topology (S-S).- Comparison of electromagnetic induction and magnetic resonant coupling.- Other resonant circuit topologies (PS, PP, LCL, LCC).- Open end and short end type coil.- System of magnetic resonant coupling.- Repeater and multiple coils.- Development of multiple coils.
About wireless power transfer.- Basic knowledge of electromagnetism electric circuit.- Basic phenomena of magnetic resonant coupling.- Basic resonant circuit topology (S-S).- Comparison of electromagnetic induction and magnetic resonant coupling.- Other resonant circuit topologies (PS, PP, LCL, LCC).- Open end and short end type coil.- System of magnetic resonant coupling.- Repeater and multiple coils.- Development of multiple coils.
About wireless power transfer.- Basic knowledge of electromagnetism electric circuit.- Basic phenomena of magnetic resonant coupling.- Basic resonant circuit topology (S-S).- Comparison of electromagnetic induction and magnetic resonant coupling.- Other resonant circuit topologies (PS, PP, LCL, LCC).- Open end and short end type coil.- System of magnetic resonant coupling.- Repeater and multiple coils.- Development of multiple coils.
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