Wireless power transfer for a miniature gastrostimulator

2012 42nd European Microwave Conference Pub Date : 2012-10-01 DOI:10.23919/EUMC.2012.6459301

Young-Sik Seo, Z. Hughes, D. Isom, M. Nguyen, S. Deb, S. Rao, J. Chiao

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引用次数: 12

Abstract

In this work, wireless power transfer issues were investigated for a gastroparesis management system consisting of an endoscopically-implantable miniature batteryless/rechargeable wireless gastrostimulator and a wearable battery-operated transmitter module. Output power for stimulation and input power consumption in the transmitter as well as the wireless power transfer efficiency of two coil antennas with significantly different sizes were examined. With an implant antenna coil of 1×3.5 cm2 and 5-cm radius transmitter antenna coils of varying coil turns, power transfers and efficiencies at the individually-tuned resonance of 1.3MHz were experimentally obtained at various coil separation distances from 4 to 10 cm between two coils. Taking power consumption in the wearable module and tolerance of parasitic capacitance in the environment into consideration, a 17-turn transmitter coil was chosen. RF losses through tissues were also examined with saline mimicking the abdomen tissues. At a distance of 10 cm as the worst scenario, a load current 3.02 mA was achieved which was still sufficient for gastrostimulation. Measurements of output voltage and efficiency distribution were mapped in 3-D to examine the effects of antenna misalignment due to body and stomach motion. This work provided insights into a complete system design for an endoscopically-implantable gastrostimulator that could relieve the suffering of many gastroparesis patients.

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用于微型胃刺激器的无线能量传输

在这项工作中，研究了胃轻瘫管理系统的无线电力传输问题，该系统由一个内窥镜植入的微型无电池/可充电无线胃刺激器和一个可穿戴的电池供电的发射器模块组成。考察了两种尺寸差异显著的线圈天线的激励输出功率、发射端输入功耗以及无线功率传输效率。以1×3.5 cm2的植入天线线圈和半径为5cm的不同线圈匝数的发射机天线线圈为实验对象，在两个线圈之间4 ~ 10cm的不同线圈间距下，分别获得了1.3MHz调谐共振下的功率传输和效率。考虑到可穿戴模块的功耗和环境中寄生电容的容限，选择了17匝的发射线圈。用模拟腹部组织的生理盐水检测组织中的射频损耗。在距离为10 cm的最坏情况下，负载电流达到3.02 mA，仍然足以刺激胃。测量输出电压和效率分布的三维映射，以检查由于身体和胃运动导致的天线失调的影响。这项工作为内镜下植入式胃刺激器的完整系统设计提供了见解，可以减轻许多胃轻瘫患者的痛苦。

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

2012 42nd European Microwave Conference

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