基于混合技术的八元超宽带MIMO天线隔离增强设计

IF 0.8 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC Advanced Electromagnetics Pub Date : 2020-12-24 DOI:10.7716/aem.v9i3.1436

A. Mchbal, N. Touhami, H. Elftouh, A. Dkiouak

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引用次数: 1

摘要

针对超宽带（UWB）应用，设计了一种高阶多输入多输出（MIMO）天线组件。天线配置基于辐射元件的特殊布置。在馈线上还引入了一种有缺陷的微带结构。这里讨论了一种新技术的使用，即所谓的端口移位。在所提出的天线中，突出的接地分支结构被用于三个寄生短截线的组合，以增强UWB频带上的隔离和阻抗匹配。结果表明，该天线具有良好的阻抗匹配，约为-10dB，高互耦15dB，包络相关系数（ECC）小于0.15。该天线还表现出约9.5的良好分集增益，以及在56%和91%之间变化的良好效率和小于-20dB的总有源反射系数。这使其成为UWB应用的良好候选者。

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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Isolation Enhancement Using a Hybrid Technique in an Eight-Element UWB MIMO Antenna Design

A high order multiple input multiple output (MIMO) antenna assembly is designed for Ultra-Wideband (UWB) applications. The antenna configuration is based on a peculiar arrangement of the radiating elements. A defected microstrip structure is also introduced on the feedlines. The use of a novel technique, the so-called ports-shift, is here discussed. In the proposed antenna, a protruded ground branch structure is employed in combination of three parasitic stubs so as to enhance isolation and impedance matching over the UWB frequency band. The results show that the presented antenna exhibits a good impedance matching which is about -10 dB with a high mutual coupling 15 dB, and envelope correlation coefficients (ECC) smaller than 0.15. The antenna also exhibits good diversity gain of about 9.5, and a good efficiency that varied between 56% and 91% and total active reflection coefficient of less than -20 dB. Which makes it a good candidate for UWB applications.

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来源期刊

Advanced Electromagnetics ENGINEERING, ELECTRICAL & ELECTRONIC-

CiteScore

2.40

自引率

12.50%

发文量

审稿时长

10 weeks

期刊介绍： Advanced Electromagnetics, is electronic peer-reviewed open access journal that publishes original research articles as well as review articles in all areas of electromagnetic science and engineering. The aim of the journal is to become a premier open access source of high quality research that spans the entire broad field of electromagnetics from classic to quantum electrodynamics.