Design of a miniaturized UWB antenna optimized for implantable neural recording systems

10th IEEE International NEWCAS Conference Pub Date : 2012-06-17 DOI:10.1109/NEWCAS.2012.6329018

H. Bahrami, B. Gosselin, L. Rusch

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引用次数: 16

Abstract

Ultra-wideband (UWB) short-range communication systems are valuable in medical technology, particularly for implanted devices, due to their low-power consumption, low cost, and high data rates. Several emerging medical applications require that a miniature data acquisition device be implanted in the head to extract and wirelessly communicate brain activity to other devices. In such applications the antennas, a key component in a wireless implanted device, require extreme biocompatibility and limited size. This paper presents the design of a miniaturized UWB monopole microstrip antenna that is electrically suitable for implantation in the human head. The antenna is fed by a microstrip line on an FR4 substrate, has a size limited to 12mm×12mm, and is optimized against the effects of biological tissues. Optimization is performed numerically with HFSS. The return loss, radiation pattern and specific absorption rate (SAR) performance of the antenna are simulated and compared for three antenna sizes. Based on these results, a suitable UWB antenna is proposed for operation in an implanted neural recording device.

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用于植入式神经记录系统优化的小型化超宽带天线设计

超宽带(UWB)短距离通信系统由于其低功耗、低成本和高数据速率而在医疗技术中具有重要价值，特别是对于植入设备。一些新兴的医疗应用需要在头部植入微型数据采集设备，以提取大脑活动并将其无线传输给其他设备。在这样的应用中，天线作为无线植入设备的关键部件，需要极端的生物相容性和有限的尺寸。本文设计了一种适合于人体头部植入的微型超宽带单极微带天线。该天线由FR4衬底上的微带线馈电，尺寸限制为12mm×12mm，并针对生物组织的影响进行了优化。利用HFSS进行了数值优化。对三种尺寸天线的回波损耗、辐射方向图和比吸收率性能进行了仿真和比较。在此基础上，提出了一种适用于植入式神经记录装置的超宽带天线。

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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10th IEEE International NEWCAS Conference

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