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Wei Zhou
Researcher at Southwest Jiaotong University
Publications - 31
Citations - 321
Wei Zhou is an academic researcher from Southwest Jiaotong University. The author has contributed to research in topics: Maximum power transfer theorem & Signal. The author has an hindex of 6, co-authored 20 publications receiving 137 citations. Previous affiliations of Wei Zhou include Chongqing University.
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Capacitive Power Transfer System With a Mixed-Resonant Topology for Constant-Current Multiple-Pickup Applications
TL;DR: In this article, a mixed-resonant topology consisting of a CLC resonant circuit on the primary side and a T- CLC circuit on secondary side for multiple pickups constant current output applications was proposed.
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A Low-Cost Multiwinding Transformer Balancing Topology for Retired Series-Connected Battery String
TL;DR: The results of dynamic charging conditions show that the circuit is appropriate for balancing the battery string, and the system efficiency with the proposed approach reaches 94.1% at rated 28-W input power.
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Wireless Power Transfer Across a Metal Barrier by Combined Capacitive and Inductive Coupling
TL;DR: Practical measurements show that the magnetic flux density near the edges of the metal barrier is higher than that in the middle region, and the output power around the edge is also higher although it is more sensitive to the variation of the distance and positioning of the receiving coil.
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Design of Parallel Resonant Switched-Capacitor Equalizer for Series-Connected Battery Strings
TL;DR: The results show that the PReSCE circuit eliminates the inrush current and increases the balance speed three times than the parallel pure switched-capacitor equalizer.
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Full-duplex Communication on the Shared Channel of a Capacitively Coupled Power Transfer System
TL;DR: This paper proposed a novel wireless power transfer system with full-duplex communication on a shared channel for capacitively coupled power transfer systems using a frequency-domain model of the power and signal channels and an interference suppression strategy by taking the interference from the ipsilateral channel into consideration.