Study on Design and Optimal Control of Long-distance Wireless Power Supply System Based on High-Voltage Lines

2021 3rd International Conference on Electrical Engineering and Control Technologies (CEECT) Pub Date : 2021-12-01 DOI:10.1109/CEECT53198.2021.9672643

Hengdong Song, Yu Wang, Xiao Liu, Hai-long Wang, Xuelong Han, Zhijun Wu

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Abstract

A long-distance wireless power supply system based on high-voltage lines is studied and designed in this paper. Based on the operating environment of the 500-kV high-voltage transmission line and the operating conditions of the monitoring equipment, combined with the working characteristics of the resonant structure, LCC-S is selected as the resonant topology. The influence of the coil radius and the number of turns on the transmission power and transmission efficiency i s a nalyzed by the method of simulation calculation. Considering the limitation of the resonant coil's turn-to-turn voltage on the system, the radius of the transmitting coil and the receiving coil are selected as 0.5m and 0.6m, the number of coil turns is 45 turns. The simulation results show that when the system is working with the above parameters, the load power of the system is 39.4W, and the transmission efficiency i s 5 9.4 %. Experimental results show that the wireless power supply system designed in this paper can operate stably under high-voltage line conditions.

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基于高压线路的远距离无线供电系统设计与优化控制研究

本文研究和设计了一种基于高压线路的远距离无线供电系统。根据500kv高压输电线路的运行环境和监测设备的运行条件，结合谐振结构的工作特点，选择lc - s作为谐振拓扑。通过仿真计算的方法，分析了线圈半径和匝数对传输功率和传输效率的影响。考虑到谐振线圈匝间电压对系统的限制，发射线圈半径为0.5m，接收线圈半径为0.6m，线圈匝数为45匝。仿真结果表明，当系统在上述参数下工作时，系统负载功率为39.4W，传输效率为5.9.4%。实验结果表明，本文设计的无线供电系统可以在高压线路条件下稳定运行。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 3rd International Conference on Electrical Engineering and Control Technologies (CEECT)

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