Simulation and assessment of pacemaker RF exposure (2.4 GHz) by PIFA antenna

2016 ELEKTRO Pub Date : 2016-05-16 DOI:10.1109/ELEKTRO.2016.7512141
Z. Psenakova, M. Šmondrk, J. Barabas, G. Lo Sciuto, M. Beňová
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引用次数: 9

Abstract

The proposed paper deals with simulation and analysis of the radiofrequency field (2.4 GHz) inside the human tissue using a multi-layered skin and pacemaker model. The research was carried out using electromagnetic modelling based on the Finite Integration method. The simulations were performed in terms of computing electric field distributions calculated for four different hypodermis layer thickness. The focus was on near-field exposure modelled by PIFA antenna, commonly used in handheld devices. The results have shown that higher hypodermis layer causes higher absorption of electromagnetic field which leads to lower values of electric field strength on the pacemaker casing.
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PIFA天线对起搏器(2.4 GHz)射频暴露的仿真与评估
本文利用多层皮肤和起搏器模型对人体组织内部的射频场(2.4 GHz)进行了仿真和分析。研究采用基于有限积分法的电磁建模方法。模拟计算了四种不同皮下层厚度下的电场分布。重点是用PIFA天线模拟近场暴露,这种天线通常用于手持设备。结果表明,皮下层数越高,对电磁场的吸收越大,导致起搏器外壳上电场强度值越低。
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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2016 ELEKTRO
2016 ELEKTRO
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