Wide bandwidth for high-speed communication in mid-range, resonant WPT and RFID systems

J. Besnoff, D. Ricketts
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引用次数: 3

Abstract

In this paper we present an experimental wireless power transfer (WPT) prototype that has achieved a 118 kHz power transfer bandwidth operating at the maximum achievable efficiency. Using a simulation and analytical model we show that the power transfer bandwidth of an optimally tuned WPT system is determined by the loaded Q of the system and not by the Q of the resonant tanks. This observation lead to the realization of a WPT communication system that can transmit data at high data rates greater than 8% of the carrier frequency, a data rate significantly greater than has previously been proposed for resonant WPT and RFID systems.
宽频带适用于中频、谐振WPT和RFID系统的高速通信
在本文中,我们提出了一个实验性的无线电力传输(WPT)原型,该原型已经实现了118 kHz的电力传输带宽,工作效率最高。通过仿真和分析表明,优化调谐WPT系统的功率传输带宽由系统的负载Q决定,而不是由谐振槽的Q决定。这一观察结果导致了WPT通信系统的实现,该系统可以以高于载波频率8%的高数据速率传输数据,这一数据速率明显高于先前提出的谐振WPT和RFID系统。
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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