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Cancan Rong
Researcher at Huazhong University of Science and Technology
Publications - 50
Citations - 465
Cancan Rong is an academic researcher from Huazhong University of Science and Technology. The author has contributed to research in topics: Wireless power transfer & Metamaterial. The author has an hindex of 8, co-authored 39 publications receiving 202 citations.
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Optimisation design for series–series dynamic WPT system maintaining stable transfer power
TL;DR: In this article, a secondary-only resonant series-series (SS) WPT system with fixed frequency was designed to achieve high average transfer efficiency with high tolerance to position as the power drop (raise) percentage is no more than 10% (20%) within 200% variation of coupling coefficient for different loads.
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Planar Multiple-Antiparallel Square Transmitter for Position-Insensitive Wireless Power Transfer
TL;DR: In this article, a new kind of transmitter for uniform magnetic field distribution over relatively long-distance wireless charging plane is proposed, which is composed of multiple series square windings, each winding consists of a set of concentric square loops.
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Investigation of Negative and Near-Zero Permeability Metamaterials for Increased Efficiency and Reduced Electromagnetic Field Leakage in a Wireless Power Transfer System
Conghui Lu,Cancan Rong,Xiutao Huang,Zhaoyang Hu,Xiong Tao,Shengming Wang,Junfeng Chen,Minghai Liu +7 more
TL;DR: In this article, a WPT system integrating with near-field mu-near-zero (NF-MNZ) and mu-negative permeability (MNG) metamaterials is proposed to control EMF leakage below a certain level and improve transfer efficiency.
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Optimization Design of Resonance Coils with High Misalignment Tolerance for Drone Wireless Charging Based on Genetic Algorithm
TL;DR: A genetic algorithm to optimize the side lengths of the Tx coils is highlighted by discussing the main design considerations and methods in a comprehensive manner and experimental results show that the optimized coils have better coupling performance due to small mutual inductance change under the condition of misalignment.
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Multiband Ultrathin Polarization-Insensitive Terahertz Perfect Absorbers With Complementary Metamaterial and Resonator Based on High-Order Electric and Magnetic Resonances
TL;DR: In this paper, the authors numerically investigated a kind of ultrathin triple-band metamaterial absorber with polarization stability and wide angle of incidence, and they obtained three resonance peaks with nearly 100% absorptivity at 1.605, 4.425, and 4.946 THz under different polarization angles.