基于双谐振频率和电阻双工的全双工同步无线供电和数据传输系统

IF 0.2 Q4 AREA STUDIES
Jing Feng, Ghen Wei, Jiantao Zhang, Jian Cui, Yiming Zhang, Chunbo Zhu
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引用次数: 0

摘要

对于无线电力传输(WPT)系统来说,为了提高系统的整体性能,通常需要在发射端和接收端之间进行可靠的数据交换。本文提出了一种基于电阻的双工器的双谐振全双工通信方法。选择可重构双面LCC拓扑的两个谐振频率分别在正向和反向数据通道中交换数据。研究了两种频率下数据传输通道的性能,包括数据接收电压和环路响应时间,并给出了在不同载波频率下保证相似传输特性的设计考虑和原则。探讨了基于电阻的双工器的性能,并给出了相应的参数设计。此外,还分析了功率信道和数据传输信道之间的干扰,并给出了抑制串扰的方法。在设计好的参数下,获得了1 kW的全双工通信功率和83.3 kbps的速率,验证了该方法的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Simultaneous Wireless Power and Data Transfer System With Full-Duplex Mode Based on Dual-Resonant Frequencies and Resistance-Based Duplexer
For wireless power transfer (WPT) system, reliable data exchange between the transmitting side and the receiving side is generally required to improve the overall performance of the system. In this paper, a dual-resonant full-duplex communication method with resistance-based duplexer is presented. The two resonant frequencies of the reconfigurable double-sided LCC topology are, respectively, selected to exchange data in the forward and the backward data channel. The performance of the data transfer channel operated under the two frequencies, including the data receiving voltage and the response time of loops, are investigated, and the design considerations and principles to ensure similar transfer characteristics for different carrier frequencies are provided. The performance of the resistance-based duplexer is explored, and the corresponding parameter design is given. Furthermore, the interference between the power and data transfer channel is analyzed and the methodology to suppress the crosstalk is also provided. With the well-designed parameters, 1 kW power with a rate of 83.3 kbps full-duplex communication is obtained and the effectiveness of the proposed method is validated.
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CiteScore
1.20
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