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Main Authors: Zhang, Zhuoyu, Lai, Junan, Huang, Yuangen, Hao, Xianglin, Yin, Ke, Jiang, Zhiqin, Wang, Chao, Ma, Xikui, Huang, Ming, Dong, Tianyu
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2408.15818
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author Zhang, Zhuoyu
Lai, Junan
Huang, Yuangen
Hao, Xianglin
Yin, Ke
Jiang, Zhiqin
Wang, Chao
Ma, Xikui
Huang, Ming
Dong, Tianyu
author_facet Zhang, Zhuoyu
Lai, Junan
Huang, Yuangen
Hao, Xianglin
Yin, Ke
Jiang, Zhiqin
Wang, Chao
Ma, Xikui
Huang, Ming
Dong, Tianyu
contents A primary challenge in wireless power transfer (WPT) systems is to achieve efficient and stable power transmission without complex control strategies when load conditions change dynamically. Addressing this issue, we propose a third-order pseudo-Hermitian WPT system whose output characteristics exhibit a stable frequency and constant power. The frequency selection mechanism and energy efficiency of the nonlinear WPT system based on pseudo-Hermitian under the coupling mode theory approximation are analyzed. Theoretical analysis indicates that under certain coupling coefficients and load conditions, the proposed system can achieve frequency adaptation in a stable frequency mode without the need to change the circuit frequency. When the load changes dynamically, the stability of the power output is maintained using a proportional integral (PI) control strategy that only collects the voltage and current at the transmitting end, eliminating the need for wireless communication circuits with feedback from the receiving side. Experimental results demonstrate that the proposed design scheme can achieve constant power transmission when load conditions change, maintaining stable and relatively high transmission efficiency. The proposed scheme exhibits benefits in practical applications since no communication is required.
format Preprint
id arxiv_https___arxiv_org_abs_2408_15818
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Communication-Free Robust Wireless Power Transfer with Constant Output Power and Stable Frequency
Zhang, Zhuoyu
Lai, Junan
Huang, Yuangen
Hao, Xianglin
Yin, Ke
Jiang, Zhiqin
Wang, Chao
Ma, Xikui
Huang, Ming
Dong, Tianyu
Applied Physics
A primary challenge in wireless power transfer (WPT) systems is to achieve efficient and stable power transmission without complex control strategies when load conditions change dynamically. Addressing this issue, we propose a third-order pseudo-Hermitian WPT system whose output characteristics exhibit a stable frequency and constant power. The frequency selection mechanism and energy efficiency of the nonlinear WPT system based on pseudo-Hermitian under the coupling mode theory approximation are analyzed. Theoretical analysis indicates that under certain coupling coefficients and load conditions, the proposed system can achieve frequency adaptation in a stable frequency mode without the need to change the circuit frequency. When the load changes dynamically, the stability of the power output is maintained using a proportional integral (PI) control strategy that only collects the voltage and current at the transmitting end, eliminating the need for wireless communication circuits with feedback from the receiving side. Experimental results demonstrate that the proposed design scheme can achieve constant power transmission when load conditions change, maintaining stable and relatively high transmission efficiency. The proposed scheme exhibits benefits in practical applications since no communication is required.
title Communication-Free Robust Wireless Power Transfer with Constant Output Power and Stable Frequency
topic Applied Physics
url https://arxiv.org/abs/2408.15818