WEARABLE ANTENNA DUAL BAND WITH ELECTROMAGNETIC BAND GAP (EBG) STRUCTURE FOR HEALTH APPLICATIONS

[CEPAT] Journal of Computer Engineering: Progress, Application and Technology Pub Date : 2023-02-26 DOI:10.25124/cepat.v2i01.5811

Haniifah Arif Ash-Shiddiq, H. H. Ryanu, Levy Olivia Nur

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引用次数: 1

Abstract

Telemedicine can solve several issues in the healthcare system. The wearable antenna works with the Industrial, Scientific, and Medical (ISM) band for wireless body area network (WBAN) communications. Wearable antennas are lightweight, easy to make, and so on. This antenna application's bandwidth is limited by the thin substrate. This research will create a wearable planar monopole antenna with a circular patch that can operate at 2,4 and 5,8 GHz. Antenna without the UC-EBG structure and antenna with the UC-EBG structure were tested. The simulation results without UC-EBG show that the return loss is -14.629 dB and -28,639 dB, the VSWR is 1,456 and 1,077, the bandwidth is 4988 MHz, and the gain is 2,517 dBi and 4,270 dBi. The simulation results with the addition of UC-EBG show that the return loss is -13,835 dB and -17,46 dB, the VSWR is 1,511 and 1,309, the bandwidth is 1480 MHz and 2320 MHz, and the gain is 2,869 dBi and 5,208 dBi. The measurement results with UC-EBG show that the return loss is -13,134 dB and -18,421 dB, the VSWR is 1,566 and 1,273, the bandwidth is 1080 MHz and 960 MHz, and the gain is 2,198 dBi and 4,98 dBi.

查看原文本刊更多论文

具有电磁带隙(ebg)结构的可穿戴双波段天线，用于健康应用

远程医疗可以解决医疗保健系统中的几个问题。这种可穿戴天线可与工业、科学和医疗(ISM)频段一起工作，用于无线体域网络(WBAN)通信。可穿戴天线具有重量轻、易于制造等优点。这种天线应用的带宽受到薄基板的限制。这项研究将创造一种可穿戴的平面单极天线，带有圆形贴片，可以在2,4和5,8 GHz频率下工作。对未采用UC-EBG结构的天线和采用UC-EBG结构的天线进行了测试。无UC-EBG的仿真结果表明，回波损耗分别为-14.629 dB和-28,639 dB，驻波比分别为1,456和1,077，带宽为4988 MHz，增益分别为2,517 dBi和4,270 dBi。加入UC-EBG后的仿真结果表明，回波损耗分别为-13,835 dB和-17,46 dB，驻波比分别为1,511和1,309，带宽分别为1480 MHz和2320 MHz，增益分别为2,869 dBi和5,208 dBi。UC-EBG测量结果表明，回波损耗分别为-13,134 dB和-18,421 dB，驻波比分别为1,566和1,273，带宽分别为1080 MHz和960 MHz，增益分别为2,198 dBi和4,98 dBi。

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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[CEPAT] Journal of Computer Engineering: Progress, Application and Technology

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