5G应用巴特勒矩阵设计与仿真

2022 International Conference on Future Trends in Smart Communities (ICFTSC) Pub Date : 2022-12-01 DOI:10.1109/ICFTSC57269.2022.10039964

R. Sunitha, S. Vijayanand, R. Kannan, S. Usha, L. Rangaiah, P. Sanjay

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引用次数: 0

摘要

本文介绍了采用传输线结构新技术——开路耦合线的4 × 4巴特勒矩阵波束形成网络和由数字间电容构成的复合左右旋向超材料结构。管家矩阵的基本设计元素为45度移相器、正交耦合器级联交叉器(0dB)和90度混合耦合器。考虑中心工作频率为3。5GHz，阻燃(FR-4) ($\varepsilon$ r=4.33, h=1.66mm)。在COMSOL Multiphysics V5.5软件中进行设计和仿真。仿真得到的插入和隔离损耗为$\geq$ -10dB，回波损耗优于16db。BM方面是68。8毫米宽，66。长度9毫米。模拟相位差为±45°和°135°，公差为70。这种基于超材料的波束形成网络预示着第五代(5G)无线波束转向技术有望在印度部署，用于相控阵天线系统。

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Butler Matrix Design and Simulation For 5G Applications

This paper adduces 4x4 butler matrix beamforming network employing a new technique in transmission line structure-- open circuit coupled lines and a metamaterial structure of composite right-left handedness formed by interdigital capacitors. The basic design elements for butler matrix per suites 45 degrees phase shifter, quadrature-coupler cascaded crossover (0dB) and 90 degrees hybrid coupler. Central operating frequency considered is 3. 5GHz and flame-retardant (FR-4) ($\varepsilon$ r=4.33 and h=1.66mm). The design and simulation are carried out in COMSOL Multiphysics V5.5 software. Insertion and isolation losses from simulation are $\geq$-10dB and return loss better than 16 dB. The BM aspects are 68. 8mm in width and 66. 9mm in length. The simulated phase difference are ±45° and °135° with tolerance of 70. This metamaterial-based beamforming network heralds for 5th generation (5G) wireless beam steering technology envisioned for deployment in India for phased array antenna systems.

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2022 International Conference on Future Trends in Smart Communities (ICFTSC)

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