Planar ESPAR antenna based on Yagi-Uda array design for space diversity applications

Seok-Jae Lee, Kyung-Chul Kim, Sang‐Min Han
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引用次数: 5

Abstract

A planar Electronically Steerable Parasitic Array Radiator (ESPAR) antenna is proposed based on an Yagi-Uda array design for space diversity applications. Even though an conventional ESPAR antenna has various advantages of a simple structure, small volume, and cheap fabrication cost, it requires a 3-dimentional (3-D) form-factor. The proposed one is designed with planar active dipoles and parasitic element arrays from an Yagi-Uda design methodology. Four orthogonal arrays are configured of two active elements and eight parasitic elements, which is implemented with two bi-directional arrays. Each array has an active element, two reflector elements, and two director elements. The proposed architecture has been implemented on a planar substrate, and controlled with switched reactance for each parasitic element. From the experimental results, the proposed planar ESPAR antenna presents four orthogonal beams with a maximum gain of 10.74 dBi and a front to back ratio of 14.7 dB.
空间分集应用中基于Yagi-Uda阵列的平面ESPAR天线设计
提出了一种基于Yagi-Uda阵列设计的平面电子操纵寄生阵列辐射天线(ESPAR),用于空间分集。尽管传统ESPAR天线具有结构简单、体积小、制造成本低等优点,但它需要三维(3-D)的外形因素。采用Yagi-Uda设计方法设计了平面有源偶极子和寄生元件阵列。由2个有源元件和8个寄生元件组成4个正交阵列,采用2个双向阵列实现。每个数组有一个活动元素、两个反射器元素和两个定向器元素。所提出的架构已在平面基板上实现,并使用每个寄生元件的开关电抗进行控制。实验结果表明,该平面ESPAR天线具有4个正交波束,最大增益为10.74 dBi,前后比为14.7 dB。
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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