基于相纸的微带贴片天线在远程医疗中的应用

S. M, Pavithra N, P. P., Sakthi Priya S
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引用次数: 0

摘要

本文提出了一种基于纸张的柔性天线,用于2.4GHz工业、科学和医疗无线电(ISM)频段的体内远程医疗应用。该天线的主要特点是高灵活性和高增益。天线采用厚度为0.54毫米的相纸衬底。贴片和地面由厚度为0.03mm的铜制成,使我们能够进一步降低整体厚度,从而提高灵活性。利用计算机仿真技术(CST) Microwave Studio软件对天线的性能进行了设计和分析。天线尺寸为30mm × 32mm。在正常情况下,天线的工作频率为2.4GHz。使用S11特性来评估天线在正常和弯曲情况下的性能。弯曲条件的分析是通过幻肌测试和血浆测试来完成的,血浆测试评估了天线在接触皮肤组织时的行为。通过在不同曲率处弯曲天线,进行了计算研究。该天线能够获得高达70%的辐射效率,增益为2.5dB。在模体测试中,获得了较高的效率。在此基础上,发现该天线适用于远程医疗应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Photo Paper Based Microstrip Patch Antenna for Telemedicine Application
This paper proposes a paper-based flexible antenna for an Intrabody Telemedicine application that operates in the 2.4GHz Industrial, Scientific, and Medical radio (ISM) bands. The key features achieved in this antenna are high flexibility and high gain. The antenna utilizes a photo paper substrate of thickness 0.54mm. Patch and ground made of copper with thickness of 0.03mm which enables us to further decrease the overall thickness hence improving flexibility. Computer Simulation Technology (CST) Microwave Studio software was used to design and analyze the antenna's performance. The dimensions of the antenna are 30mm x 32mm. The antenna operates at 2.4GHz during normal conditions. The S11 characteristics were used to assess the antenna performance in both normal and bending circumstances. The analysis for bent conditions were done by phantom muscle testing and plasma testing which evaluates how to antenna behaves when in contact with skin tissues. By bending the antenna at various curvatures, a computational study was performed. The antenna was able to attain a radiation efficiency of up to 70% with a gain of 2.5dB. During the phantom testing, the efficiency achieved was high. Based on this achieved efficiency, the antenna is found to be suitable for telemedicine applications.
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