Wireless Power Transfer for Implantable Medical Devices: Impact of Implantable Antennas on Energy Harvesting

IF 3.5 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC
Amine Essa;Eqab Almajali;Soliman Mahmoud;Rony E. Amaya;Saqer S. Alja’Afreh;Muhammad Ikram
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Abstract

This paper presents a thorough review of the main techniques used for wireless power transfer (WPT) in implantable medical devices (IMDs) with a specific focus on the techniques that employ implantable antennas for energy harvesting (electromagnetic (EM) WPT techniques). The techniques are first analysed and compared based on the IMD application, power transfer efficiency (PTE), transfer distance, implantation depth, implant size, operating frequency, and specific absorption rate (SAR). The study provides a critical analysis of the main WPT system’s as well as implantable antennas’ design parameters that control the PTE and hence the charging rate of the IMD. The investigated design parameters include the WPT TX-RX antennas’ gain, WPT-RX size, transfer distance, and the WPT TX-RX antennas’ alignment. Tutorial simulation examples are included to showcase the impact of these design parameters on the amount of power coupled to the IMD. The paper also discusses recent techniques used for improving the amount of power received by implantable antennas, and hence higher PTE and IMDs charging rate, namely, the use of implantable MIMO WPT-RX antennas to mitigate antennas misalignment and the use of metamaterial surfaces to focus the power emitted from WPT-TX antennas towards the implantable WPT-RX antennas. The findings and observations reported in this study serve as a valuable resource for designers and researchers to comprehend the effect of various WPT TX-RX antennas design parameters on PTE. The analysis and full-wave simulation examples, included in the paper, are shown very useful in understanding the challenges associated with WPT in IMDs and in proposing potential solutions.
植入式医疗设备的无线电力传输:植入式天线对能量收集的影响
本文全面综述了植入式医疗设备(IMD)中使用的主要无线电力传输(WPT)技术,重点介绍了采用植入式天线进行能量采集的技术(电磁(EM)WPT 技术)。首先根据 IMD 应用、功率传输效率 (PTE)、传输距离、植入深度、植入物尺寸、工作频率和比吸收率 (SAR) 对这些技术进行了分析和比较。本研究对主要 WPT 系统和植入式天线的设计参数进行了批判性分析,这些参数控制着 PTE,进而控制着 IMD 的充电率。研究的设计参数包括 WPT TX-RX 天线的增益、WPT-RX 尺寸、传输距离和 WPT TX-RX 天线的排列。文中还包括仿真教程示例,以展示这些设计参数对耦合到 IMD 的功率大小的影响。本文还讨论了用于提高植入式天线接收功率,从而提高 PTE 和 IMD 充电率的最新技术,即使用植入式 MIMO WPT-RX 天线来减少天线错位,以及使用超材料表面将 WPT-TX 天线发射的功率集中到植入式 WPT-RX 天线上。本研究报告中的发现和观察结果为设计人员和研究人员理解各种 WPT TX-RX 天线设计参数对 PTE 的影响提供了宝贵资源。论文中包含的分析和全波仿真示例非常有助于理解 IMD 中 WPT 所面临的挑战,并提出潜在的解决方案。
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
CiteScore
6.50
自引率
12.50%
发文量
90
审稿时长
8 weeks
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