Experimental demonstration of multi-watt wireless power transmission to ferrite-core receivers at 6.78 MHz

IF 1.6 Q4 ENERGY & FUELS Wireless Power Transfer Pub Date : 2018-12-11 DOI:10.1017/WPT.2018.6

S. Chyczewski, Seahee Hwangbo, Y. Yoon, D. Arnold

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引用次数: 2

Abstract

This article experimentally explores the use of ferrite cores to miniaturize the receivers used for inductive wireless power transmission. A variety of receivers were designed and fabricated using cylindrical ferrite cores, ranging in total size from 47 to 687 mm3. The receivers were tested with a commercially available transmitter operating under the Rezence (Air Fuel Alliance) standard at 6.78 MHz. Experiments measured performance of the receivers in terms of their maximum power draw and efficiency as functions of the receiver load and transmission distance. Experimental results showed that ferrite-core receivers could draw multiple watts of power with end-to-end efficiencies in excess of 50%. While the efficiencies are less than a commercially planar coil receiver, the ferrite-core receivers offer a >50% reduction in mass and >90% reduction in footprint. As a result, the receiver power densities reach up to 17.6 W/cm3, which is a 25× improvement over previously reported work. This effort confirms the viability of ferrite-core receivers for size- and weight-constrained applications.

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6.78 MHz频段铁氧体铁芯接收机多瓦无线电力传输的实验演示

本文通过实验探索了使用铁氧体磁芯使用于感应无线电力传输的接收器小型化。使用圆柱形铁氧体磁芯设计和制造了各种接收器，总尺寸从47到687mm3不等。接收器用商业上可买到的发射器进行测试，该发射器在6.78MHz下在Rezence（空气燃料联盟）标准下操作。实验测量了接收器的性能，将其最大功率消耗和效率作为接收器负载和传输距离的函数。实验结果表明，铁氧体磁芯接收器可以吸收多瓦的功率，端到端效率超过50%。虽然效率低于商用平面线圈接收器，但铁氧体磁芯接收器的质量减少了50%以上，占地面积减少了90%以上。因此，接收器功率密度高达17.6W/cm3，比之前报道的工作提高了25倍。这项工作证实了铁氧体磁芯接收器在尺寸和重量受限的应用中的可行性。

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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来源期刊

Wireless Power Transfer ENERGY & FUELS-

CiteScore

2.50

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0.00%

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