A 5.8 GHz Array Antenna Based on 4x4 Butler Matrix for Beamforming in 5G Network

2022 IEEE Sensors Pub Date : 2022-10-30 DOI:10.1109/SENSORS52175.2022.9967033

Maryam Eshaghi, R. Rashidzadeh

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Abstract

Due to the fast development of the fifth-generation (5G) wireless network and high-speed data communications, a vast number of Internet of Things (IoT) sensors have been deployed most of them battery powered. Utilizing wireless energy harvesting techniques to power up IoT sensors eliminates the constraints of batteries and their limited lifetime as an energy source. A multi-beam array antenna has the potential to focus the radiation to the desired location and provide an adequate amount of energy to turn on a low-power IoT sensor. In this paper, a new 4 X 4 Butler matrix beamforming network is designed on FR-4 material which is connected to a 2x4 microstrip array patch antenna at a 5.8 GHz frequency. Each output of the Butler Matrix can provide power to two antenna elements simultaneously. The array antenna and Bulter Matrix network are designed and simulated in COMSOL Multiphysics tools. The simulation results indicate that the Butler matrix equally divides the voltage of -6 dB to all output ports when the input ports are excited. The array antenna represents the maximum effective radiated power of - 11dB at 5.8 GHz. The maximum antenna gain is 28 dBi with a radiation efficiency of 86 %.

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基于4x4巴特勒矩阵的5.8 GHz阵列天线在5G网络中的波束形成

由于第五代(5G)无线网络和高速数据通信的快速发展，大量的物联网(IoT)传感器已经部署，其中大多数是电池供电的。利用无线能量收集技术为物联网传感器供电，消除了电池的限制及其作为能源的有限寿命。多波束阵列天线有可能将辐射聚焦到所需位置，并提供足够的能量来开启低功耗物联网传感器。本文设计了一种基于FR-4材料的4 × 4巴特勒矩阵波束形成网络，该网络连接到一个频率为5.8 GHz的2 × 4微带阵列贴片天线。巴特勒矩阵的每个输出可以同时为两个天线单元提供功率。在COMSOL Multiphysics工具中对阵列天线和Bulter矩阵网络进行了设计和仿真。仿真结果表明，当输入端被激励时，巴特勒矩阵将-6 dB的电压平均分配到所有输出端。阵列天线在5.8 GHz时的最大有效辐射功率为- 11dB。天线最大增益为28 dBi，辐射效率为86%。

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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2022 IEEE Sensors

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