A Miniaturized Printed Circuit CRLH Antenna-based Hilbert Metamaterial Array

IF 0.6 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS

Journal of Communications Software and Systems Pub Date : 2022-01-01 DOI:10.24138/jcomss-2022-0030

Marwa M. Ismail, T. Elwi, A. Salim

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引用次数: 14

Abstract

— With the development of communication systems and antennas, various challenges arise that require antennas of small size with enhanced performance. Metamaterials (MTM) defects introduced a considerable solution to such a challenge. Therefore, in this paper, a lightweight with low profile antenna is designed based on a novel design of a Composite Right/Left-Handed CRLH-MTM Hilbert array. The proposed CRLH-MTM unit cell consists of a T-symmetric CRLH unit cell conjugated to the 3rd-order Hilbert on the ground plane through a T-stub structure to enhance the gain-bandwidth product. CST-MWS is used to stimulate and design the proposed antenna structure. The antenna parameters are optimized to evaluate the antenna performance in gain and S 11 . As a result, the antenna can operate forward and backwards with a large scanning angle ranging from +34 o to 134 o with changing frequency, and dual-band extended from 3.3GHz to 4.2GHz 4.86GHz 5.98GHz with a maximum gain of 7.24dBi and 3.74dBi, respectively. The beam steering is achieved by trough controlling the switching operation of PIN diodes. As a result, the antenna can scan up to 8° from 34° to 42° at 3.5GHz with constant gain along with the operating range.

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基于希尔伯特超材料阵列的小型化印刷电路CRLH天线

—随着通信系统和天线的发展，出现了各种各样的挑战，对天线的小型化和高性能提出了更高的要求。超材料(MTM)缺陷为这一挑战提供了一个相当大的解决方案。因此，本文基于一种新型的右/左手复合CRLH-MTM希尔伯特阵列设计了一种轻量化、低轮廓的天线。所提出的CRLH- mtm单元格由一个t对称的CRLH单元格组成，该单元格通过t存根结构在接平面上共轭到三阶希尔伯特，以提高增益-带宽积。利用CST-MWS对天线结构进行仿真和设计。对天线参数进行了优化，以评估天线在增益和s11方面的性能。因此，该天线可以在+34 ~ 134°的大扫描角范围内随频率变化向前和向后工作，双频段从3.3GHz扩展到4.2GHz、4.86GHz、5.98GHz，最大增益分别为7.24dBi和3.74dBi。波束导向是通过槽控制PIN二极管的开关操作来实现的。因此，天线可以在3.5GHz下扫描从34°到42°的8°，随着工作范围的恒定增益。

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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