Fabrication of a new high-performance WPT system by electric energy confinement

2013 IEEE Wireless Power Transfer (WPT) Pub Date : 2013-05-15 DOI:10.1109/WPT.2013.6556921
I. Awai, Y. Sawahara, T. Ishizaki
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引用次数: 6

Abstract

A WPT system based on coupled resonators makes use of the electric and magnetic couplings. Considering one can control the ratio of those couplings, it should be useful to reduce the electric coupling, since it is affected by the dielectric material that intrudes between the two resonators, resulting in the shift of operating frequency, deterioration of matching and increase of transfer loss. The present paper studies two methods to avoid them, that is, electric energy confinement by external lumped capacitor and by double layered coils. Both try to confine the electric energy of the resonators into a limited space and remove from the coupling space. Carrying out a comparative study, it concludes the latter is more desirable by the overall rating.
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基于电能约束的新型高性能WPT系统的研制
一种基于耦合谐振器的WPT系统利用了电耦合和磁耦合。考虑到可以控制这些耦合的比例,减小电耦合应该是有用的,因为它受到介电材料侵入两个谐振器之间的影响,导致工作频率的移动,匹配的恶化和转移损失的增加。本文研究了两种避免这些问题的方法,即外部集总电容器和双层线圈的电能约束。两者都试图将谐振器的电能限制在一个有限的空间内,并从耦合空间中移除。通过比较研究,得出了后者更可取的结论。
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2013 IEEE Wireless Power Transfer (WPT)
2013 IEEE Wireless Power Transfer (WPT)
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