Performance Enhancement and Size Reduction of Vivaldi Antenna Using Defected Ground Structure for Active Phased Array Radar Applications

2021 International Congress of Advanced Technology and Engineering (ICOTEN) Pub Date : 2021-07-04 DOI:10.1109/ICOTEN52080.2021.9493557

Hamza Abbas Kiani, Channa Babar Ali, Syed Jehad Ali Shah, Mohammad Zubair Khan, Abdulfattah Noorwali, Syed Aziz Shah

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Abstract

Wideband performance and size reduction of antennas are ostensible requirements of Wireless and Active Phased Array Radar Applications. The proposed paper aims to reduce the size of Planar Vivaldi Antennas to address these challenges by introducing defects in the ground plane of the antenna. The size of the Conventional Vivaldi Antenna specifically the width is reduced to 50% with the insertion of Defected Ground Structure (DGS). The effect of DGS was evaluated with the aid of four rectangular slots inserted on the two ground planes of the antenna (two on each ground plane). Optimal performance was achieved when these slots were inserted on the outer edges of the ground planes. Simulated results showed that the proposed Vivaldi Antenna offers 100% improvement in the impedance bandwidth even with the reduced size. Similarly, the proposed antenna offers an improved gain of 8 dB instead of 5 dB achieved from the basic model. The proposed Vivaldi antenna can easily be integrated with a stripline feed network for achieving wide bandwidth and narrow beam-width for radar and communication applications.

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有源相控阵雷达中采用缺陷接地结构的维瓦尔第天线的性能增强和尺寸减小

宽带性能和天线尺寸的减小是无线和有源相控阵雷达应用的表面要求。本文旨在减小平面维瓦尔第天线的尺寸，通过在天线的接地面引入缺陷来解决这些挑战。插入缺陷地面结构(DGS)后，传统维瓦尔第天线的尺寸特别是宽度减小到50%。通过在天线的两个接平面上插入四个矩形槽(每个接平面上两个)来评估DGS的效果。当这些槽插入到接地面的外缘时，性能达到最佳。仿真结果表明，在减小天线尺寸的情况下，维瓦尔第天线的阻抗带宽提高了100%。同样，所提出的天线提供了8 dB的增益，而不是从基本模型获得的5 dB。提出的Vivaldi天线可以很容易地与带状线馈电网络集成，以实现雷达和通信应用的宽带宽和窄波束宽度。

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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2021 International Congress of Advanced Technology and Engineering (ICOTEN)

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