反射面指向性增强微带阵列天线设计

A. Abdulqader, Yaser Ahmed Ali
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引用次数: 2

摘要

本文的目的是通过在地平面中增加反射面来提高微带天线阵列的指向性。微带天线(MSA)是一种广泛应用于微波领域的天线,具有许多优点,但其固有指向性较低。该天线阵列利用超材料反射面来获得最大的指向性和高增益。在本研究中,设计了2.1 GHz的MSA,并对其最大指向性和增益进行了研究。天线阵列的馈电采用同轴探针馈电技术。CST (Computer Simulation Technology)仿真结果表明,在2.1 GHz中心频率处,单天线和阵列天线的增益、指向性和回波损耗都得到了提高。在单单元天线下,增益由3.3225提高到6.462db,指向性由3.310提高到6.462dbi。采用双元天线的方法,提高了设计的性能。采用四元天线方法对设计工作进行了进一步改进。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microstrip Array Antenna Design with Directivity Enhancement Using Reflector Surface
The goal of this paper is to enhance the Directivity in Microstrip Antenna Array by adding Reflector Surface plane in ground plane. The Microstrip Antenna (MSA) is an antenna that is widely used in microwave waves which has many advantages, however, it represents a low built-in directivity. The suggested antenna array is made by using metamaterial reflecting surface to get the maximum directivity and high gain. In this research, a MSA is designed at 2.1 GHz and maximum directivity and gain are studied. A coaxial probe feeding technique is adopted to feed the antenna array. CST (Computer Simulation Technology) simulation of the suggested single and array antenna shows enhanced the gain, directivity and return loss at the center frequency of 2.1 GHz. At single element antenna, the gain is enhanced from 3.3225 to 6.462db and the directivity from 3.310 to 6.462dbi. Improvement in the performance of the design is achieved by using two elements antenna approach. Further improvement achieved in the work of the design by using four elements antenna approach.
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