Optimasi Antena Mikrostrip Array menggunakan Metode Air Gap pada Frekuensi 3,5 GHz

JTERA (Jurnal Teknologi Rekayasa) Pub Date : 2022-06-26 DOI:10.31544/jtera.v7.i1.2022.115-120

Nur Halimah, Hanny Madiawati

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Abstract

The development of telecommunication technology in the field of cellular networks has now entered the 5th generation or 5G. This 5G application has more capable performance than the previous generation so that antenna specifications with wide bandwidth and large gain are needed. The antenna that can be used is microstrip antenna. Microstrip antennas have the advantages of having a light mass, practical, and easy to fabricate. However, there are disadvantages in the parameters obtained, such as narrow bandwidth and small gain. To overcome these disadvantages, you can use the air gap method, where the method can be used to widen bandwidth and increase gain. In this study, optimization has been successfully carried out on the microstrip array antenna using the airgap method at a frequency of 3.5 GHz. The results of the optimization during simulation obtained an increase in bandwidth of 54.28% and an increase in gain of 32.86%. For the realization results, a bandwidth of 280 MHz, and a gain of 9.3 dB were obtained. The substrate used in this antenna is FR4 which has a dielectric constant of 4.4, thickness of 1.6 mm, and loss tangent of 0.019.

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微带天线优化阵列使用频率3.5 GHz的水微子方法

在蜂窝网络领域，电信技术的发展已经进入了第5代，即5G。这种5G应用比上一代具有更强大的性能，因此需要具有宽带宽和大增益的天线规格。可以使用的天线是微带天线。微带天线具有质量轻、实用、易于制作等优点。但是，所获得的参数存在带宽窄、增益小等缺点。为了克服这些缺点，可以使用气隙方法，这种方法可以用来扩大带宽和增加增益。在本研究中，利用气隙法在3.5 GHz频率下成功地对微带阵列天线进行了优化。仿真结果表明，优化后的带宽提高54.28%，增益提高32.86%。实现结果表明，该系统的带宽为280mhz，增益为9.3 dB。该天线采用的衬底为FR4，其介电常数为4.4，厚度为1.6 mm，损耗正切为0.019。

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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JTERA (Jurnal Teknologi Rekayasa)

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