Quasi-Yagi microstrip dipole antenna with circular arc parasitic elements for wireless sensing networks

URSI Radio Science Bulletin Pub Date : 2021-09-01 DOI:10.23919/URSIRSB.2021.10292812

Tiago E. S. Oliveira;João R. Reis;Rafael F. S. Caldeirinha

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Abstract

In this paper, a Quasi-Yagi microstrip dipole antenna with circular arc parasitic elements for wireless sensing networks is presented. With the aim of being employed in a multi-sector base-station (BS) of a Wireless Sensing Network (WSN), the proposed antenna is designed and optimised to operate in the 2.4 GHz ISM band. Specific project requirements, such as: operating frequency, gain, half power beam-width (HPBW) and, consequently, Field of View (FOV) are taken into consideration when dimensioning the antenna. After proper design optimization, carried out with the aid of a full wave electromagnetic solver (CST Microwave Studio), an antenna prototype has been fabricated and experimentally characterized inside an anechoic chamber. From the measurement results obtained with the prototype, the antenna yields to a realised gain of 8.6 dBi, an HPBW of 64°and 42°in the azimuth and elevation planes, respectively, and a back-to-front ratio of 16.4 dB, at 2.44 GHz. The measurement results are proved to be in good agreement with the simulation ones.

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用于无线传感网络的带圆弧寄生元件的准八木微带偶极天线

本文提出了一种用于无线传感网络的带圆弧寄生元件的准八木微带偶极天线。为了在无线传感网络（WSN）的多扇区基站（BS）中使用，所提出的天线被设计和优化为在2.4GHz ISM频带中操作。在确定天线尺寸时，会考虑特定的项目要求，如：工作频率、增益、半功率波束宽度（HPBW），以及视场（FOV）。在全波电磁求解器（CST Microwave Studio）的帮助下进行适当的设计优化后，制作了天线原型，并在消声室内进行了实验表征。根据原型获得的测量结果，天线在2.44 GHz时的实际增益为8.6 dBi，方位面和仰角面上的HPBW分别为64°和42°，前后比为16.4 dB。测量结果与仿真结果吻合良好。

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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