Ultrasonic Implant Localization for Wireless Power Transfer: Active Uplink and Harmonic Backscatter.

IEEE International Ultrasonics Symposium : [proceedings]. IEEE International Ultrasonics Symposium Pub Date : 2019-10-01 Epub Date: 2019-12-09

Max L Wang, Ting Chia Chang, Amin Arbabian

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Abstract

Efficient ultrasonic power transfer to implantable devices requires precise transmitter beamforming to the receiver and can quickly degrade with small changes in implant location. Ultrasound localization can be used to find and track implants in the body to maintain an efficient link. We present a framework to calculate localization accuracy showing that sub-mm accuracy is obtainable using only three receive channels. A harmonic backscatter approach, which passively provides contrast in the frequency domain without active load modulation is compared to active uplink from the implant. The localization accuracy using both active uplink and harmonic backscatter from the implant power receiver is characterized using a linear array probe. The measured location standard deviation is nearly two orders of magnitude smaller than the half-power beamwidth of the array focal spot. Finally, beamforming using the measured location information increases the available power by over 20 × compared to an unfocused beam.

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无线电力传输的超声植入定位:有源上行和谐波反向散射。

有效的超声功率传输到可植入设备需要精确的发射器波束形成到接收器，并且可以随着植入位置的微小变化而快速退化。超声定位可以用来发现和跟踪植入物在体内，以保持一个有效的链接。我们提出了一个计算定位精度的框架，表明仅使用三个接收通道即可获得亚毫米精度。谐波反向散射方法在无主动负载调制的情况下被动提供频域对比度，并与来自植入物的主动上行链路进行了比较。利用线性阵列探针对植入功率接收器的有源上行链路和谐波后向散射进行定位精度表征。测得的位置标准差比阵列焦斑的半功率波束宽度小近两个数量级。最后，与未聚焦波束相比，使用测量位置信息的波束形成增加了20倍以上的可用功率。

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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IEEE International Ultrasonics Symposium : [proceedings]. IEEE International Ultrasonics Symposium

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