报告详情
Research on Quasistatic Cavity Wireless Constant Current Charging System
编号:102
访问权限:仅限参会人
更新:2024-08-15 10:51:47 浏览:123次
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摘要
As a new approach, Quasi-Static Cavity Resonant Wireless Power Transfer Technology (QSCR-WPT) offers significant advantages over other wireless charging methods. It has numerous advantages such as longer transmission distances, broader coverage areas, and excellent safety characteristics. These features make it highly suitable for supplying power to devices in smart homes, smart factories, and similar environments. Recently research primarily focuses on optimizing cavity structures without detailed analysis of how variations in the load affect system transmission efficiency and capability. In addition it doesn’t explore achieving constant voltage and current. This paper analyzes the structure and operation principles of a PI-mode QSCR wireless charging system. It also optimizes the cavity structure and parameters using coupling mode theory, in addition explores a circuit topology (S-S-P topology) from a circuit perspective to achieve constant current charging in the cavity. The ultimate goal is to develop a new QSCR charging system structure capable of wide-load constant current wireless charging at multiple positions.
关键词
quasi-static cavity, constant current charging, Topological structure
报告人
Yunpeng Xu
post graduate China University of Mining and Technology稿件作者
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重要日期
-
会议日期
11月06日
2024
至11月08日
2024
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09月15日 2024
初稿截稿日期
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11月08日 2024
注册截止日期
主办单位
Huazhong University of Science and Technology
联系方式
历届会议
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2023年12月08日 中国 Chengdu
4th China International Youth Conference on Electrical Engineering -
2023年07月11日 中国 Chengdu
2nd China International Youth Conference on Electrical Engineering -
2022年11月03日 中国 Wuhan
2022 IEEE 3rd China International Youth Conference on Electrical Engineering -
2020年11月02日 中国 Wuhan
China International Youth Conference on Electrical Engineering
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