无线电力传输系统中用于电池充电的SS和SP补偿拓扑便利性评估

Sushree S Biswal, P. Mohanty, D. P. Kar, S. Bhuyan
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摘要

无线电力传输(WPT)技术是指在没有任何物理接触的情况下将电力从发射线圈耦合到接收线圈的技术,近年来得到了广泛的应用。然而,为了提高系统的性能,在发射线圈和接收线圈上都需要进行补偿。在串串联(SS)、串并联(SP)、并联-串联(PS)和并联-并联(PP)四种常用的补偿拓扑中,SS和SP补偿方式更适合实际的电池充电应用。本文在分析两种补偿方法输入功率特性的基础上,分析了两种补偿方法在WPT系统中用于电池充电的便利性评估。此外,还研究了基于输入功耗的频率特性及其对电池充电的适应性的性能分析。文中给出了系统的输入量,以说明实现优异性能的条件。研究结果为设计实际的WPT充电系统选择具体的补偿方法提供了良好的出发点。
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Convenience Assessment of SS and SP Compensation Topologies used in Wireless Power Transfer System for Battery Charging
Wireless power transfer (WPT) technology which is meant for coupling power from a transmitting coil to receiving coil without any physical contact have seen a substantial rise in popularity in recent years. However, in order to improve the performance of the system, compensation is needed at both transmitting and receiving coil. Among four different usual compensation topologies like series-series (SS), series-parallel (SP), parallel-series (PS) and parallel-parallel (PP), SS and SP compensation method are more frequently seen as appropriate for practical battery charging applications. The convenience assessment of these two compensation methods used in WPT system for battery charging are analyzed on the basis of their input power characteristics in this article. Moreover, the performance analysis based on their frequency characteristics of input power consumption and their suitability to battery charging are investigated. The system's input quantities presented in the article to illustrate the conditions that allow for excellent performance. The results are found to be well-intentioned in selecting the specific compensation method for designing a practical WPT system for battery charging application.
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