Polyimide-based Flexible Antenna for Telemedicine and Wireless Applications

高频SS 天线(收音机) 聚酰亚胺 微带天线 材料科学 天线测量 天线系数 电气工程 天线效率 计算机科学 电子工程 光电子学 声学 工程类 物理 复合材料 图层(电子)
作者
Prathipati Rakesh Kumar,Banothu Yedukondala Venakta Naga Raja Swamy,Bondili Siva Hari Prasad,Kasakani Rama Krishna,A. Narendra Babu,P. S. Brahmanandam
出处
期刊:Recent advances in electrical & electronic engineering [Bentham Science]
卷期号:16 (4): 426-435 被引量:1
标识
DOI:10.2174/2352096516666221201095009
摘要

Background: The era of flexible antennas started long ago because they are cost-effective while offering several advantages, such as good flexibility, stretchability, and compactness. Although several synthetic and natural polymers with good flexibility are available, the first flexible antenna is designed with polyimide materials (polymers), often known as engineering plastics. Objective: To fabricate a compact antenna with a higher gain than other existing ones and the bending loss of the proposed antenna is lower than other existing ones, this study proposes an ideal antenna. Methods: A polyimide (PI)-based flexible antenna with a defected ground structure is proposed for telemedicine and wireless applications, and we implement this antenna using microstrip feeding. The proposed antenna consists of a polyimide substrate with a thickness of 0.1 mm, a relative permittivity of 3.15, a loss factor of 0.0013, and a compact overall size of 25 x 32 x 0.1 mm3. Results: The proposed antenna operates on three frequencies, including 2.4 GHz (ISM or telemedicine application), 5.5 GHz (WiMAX band), and 7.5 GHz (wireless radio band). The proposed antenna produces impedance bandwidths of 10.16%, 14.54%, and 5.33% at frequencies of 2.4 GHz, 5.5 GHz, and 7.5 GHz, with gains of 4.9 dB, 5.1 dB, and 5 dB. Conclusion: The proposed antenna is simulated using Ansys High-Frequency Structure Simulator (HFSS) software. A good agreement is found between the measured and simulated results.

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