Designed A Broadcast Patch Antenna

Journal of Telecommunication Study Pub Date : 2022-07-29 DOI:10.46610/jts.2022.v07i02.002

C. Ahalya, Avuku Jyothi, H. Supriya, D. H. Kousar

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Abstract

Today, one of the key topics of study in the field of communication systems is wireless technology, and no studies of communication systems is complete without a grasp of how antennas work and are made. Numerous scholars have investigated antennas for various wireless communication systems. The conceived, created, and tested omnidirectional microstrip patch antenna (MPA) is the subject of this study. The antenna's operational bandwidth is a good fit for a variety of applications. Microstrip patch antennas are the ideal option for communication systems engineers due to its effectiveness and advantages, which include low cost, low profile, and low weight. Due to the fact that they may combine with microwave circuits, they are ideal for applications like cell devices, many others, including WLAN applications and navigational systems. In this project, a small rectangular patch antenna is created. The research of a two- or four-element array antenna has been the focus of the work's last section. The optimization of a 1.9GHz rectangular probe fed patch antenna in the design and simulation of patch antennas. According to experimental findings, the voltage standing wave ratio, insertion loss and capacity.

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设计了一个广播贴片天线

今天，在通信系统领域研究的一个关键课题是无线技术，如果不掌握天线是如何工作和制造的，那么对通信系统的研究是不完整的。许多学者对各种无线通信系统的天线进行了研究。全向微带贴片天线(MPA)是本研究的主题。该天线的工作带宽很适合各种应用。微带贴片天线是通信系统工程师的理想选择，因为它的有效性和优点，包括低成本、低姿态和低重量。由于它们可以与微波电路结合使用，因此非常适合蜂窝设备等许多其他应用，包括WLAN应用和导航系统。在这个项目中，创建了一个小型矩形贴片天线。二元或四元阵列天线的研究是最后一节工作的重点。1.9GHz矩形探针馈电贴片天线在贴片天线设计与仿真中的优化。根据实验结果，分析了电压驻波比、插入损耗和容量。

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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Journal of Telecommunication Study

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