Xiaoming Li
Wuhan University
8 Papers
7 Citations
Xiaoming Li is an academic researcher from Wuhan University. The author has contributed to research in topics: Wireless power transfer & Constant current. The author has an hindex of 4, co-authored 8 publications.
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Papers
Analysis and Design of an LCCC/S-Compensated WPT System With Constant Output Characteristics for Battery Charging Applications
TL;DR: A new LCCC/S topology and its corresponding parameter tuning method is proposed to obtain CC and CV charging modes at two different ZPA operating frequency points, respectively to achieve load-independent CC andCV charging outputs and zero phase angle (ZPA) condition.
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Analysis and Design of Three-Coil Structure WPT System With Constant Output Current and Voltage for Battery Charging Applications
TL;DR: A novel three-coil structure WPT system is proposed in this paper to solve the above issues and a simple closed-loop controller is introduced into the system to enable the desired CC and CV charging characteristics with zero voltage switching (ZVS) operation by slightly adjusting the operating frequency.
A Novel All-Direction Antimisalignment Wireless Power Transfer System Designed by Truncated Region Eigenfunction Expansion Method
TL;DR: In this paper, the authors proposed a novel wireless power transfer (WPT) system, which achieves high misalignment tolerance in all directions by using antiparallel windings.
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Three-coil structure-based WPT system design for electric bike CC and CV charging without communication
Sheng Liu,Xiaoming Li,Lin Yang +2 more
TL;DR: A three-coil structure-based WPT system in order to achieve ideal and reliable constant current (CC) output and constant voltage (CV) output without the need for a sophisticated control strategy and the real-time communication links between the transmitter and receiver sides is proposed.
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Analysis and design of a high-efficiency three-coil WPT system with constant current output
TL;DR: This study proposes a three-coil WPT system that can achieve the CCO and ZPA operation through flexible parameter design and the correctness of the theoretical analysis is verified by simulation and experiment.
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