Design of a SiC implantable rectenna for wireless in-vivo biomedical devices

Majdi M. Ababneh, M. Jasim, Kavyashree Puttananjegowda, Samuel Perez, S. Afroz, Sylvia W. Thomas, Y. Tan
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引用次数: 5

Abstract

Radio frequency energy harvesting methods for wireless applications have been widely investigated, however limited number of these methods have been capable of generating sufficient energy levels, in which can be leveraged as feasible sources for implantable medical devices, in particular implantable rectenna. Such rectennas can provide unlimited energy for the lifespan of implanted devices. This paper presents a fabricated rectenna using the biocompatible material Silicon Carbide (SiC) and a rectifier system including matching network of 47.7% power efficiency. The developed SiC rectenna is intended for wireless biomedical power transmission. This proposed SiC rectenna has the potential to extend the battery life of implantable medical devices.
一种用于无线活体生物医学设备的SiC植入式整流天线的设计
用于无线应用的射频能量收集方法已经得到了广泛的研究,然而,这些方法中能够产生足够能量水平的方法数量有限,这些能量水平可以作为植入式医疗设备,特别是植入式整流天线的可行来源。这种天线可以为植入设备的使用寿命提供无限的能量。本文介绍了一种采用生物相容性材料碳化硅(SiC)制备的整流天线和一种包含匹配网络的整流系统,其功率效率为47.7%。所开发的碳化硅整流天线用于无线生物医学电力传输。这种提议的碳化硅整流天线有可能延长植入式医疗设备的电池寿命。
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