Performance Study of Eight-Figure Coils in Wireless Power Transfer System

Xiu Zhang, Hao Qi, Wenwen Liu, Xin Zhang, Xiaohui Lu
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Abstract

In wireless power transfer (WPT) system, the structure of coils can affect the power and efficiency performance of WPT system. In this paper, transmission coils with different structures is designed and analyzed in magnetically coupled resonant WPT system. An eight-Figure coil structure is designed. Moreover, an array is built by two eight-Figure coils. The system is simulated under the same magnetic excitation. Finite element method is used to simulate transmitting coils to obtain the distribution of magnetic fields. The current and voltage of eight-Figure coil WPT system are analyzed in the case that receiver shifts from middle axis. The current and voltage of from 50 mm and 200 mm above transmitting coil under the same excitation are compared. The results show that eight-Figure coil is able to relieve coil misalignment issue in WPT system. Moreover, coil array can reduce the influence of the radial offset to entire WPT system.
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无线电力传输系统中八位数线圈的性能研究
在无线电力传输系统中,线圈的结构直接影响到无线电力传输系统的功率和效率。本文对磁耦合谐振WPT系统中不同结构的传输线圈进行了设计和分析。设计了一个八位数的线圈结构。此外,一个阵列由两个八位数的线圈组成。在相同的磁激励下对系统进行了仿真。采用有限元法对发射线圈进行模拟,得到了发射线圈的磁场分布。分析了接收机偏离中轴的情况下,八位数线圈WPT系统的电流和电压。在相同激励下,比较了发射线圈上方50mm和200mm处的电流和电压。结果表明,八位数线圈能够有效地解决WPT系统中的线圈不对中问题。此外,线圈阵列可以减小径向偏移对整个WPT系统的影响。
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