Investigation on Simulation-Based Octagonal Ring MIMO Antenna for 5G Applications

2021 17th International Conference on Quality in Research (QIR): International Symposium on Electrical and Computer Engineering Pub Date : 2021-10-13 DOI:10.1109/QIR54354.2021.9716187

Y. Rahayu, As Ibrahim

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Abstract

The fifth-generation (5G) communication shows the progress of the entire cellular network architecture. Indonesia has just launched the first 5G network on May 21, 2021, as a tangible manifestation of the leading digital telecommunication. The 5G band allocation used for the first deployment is in the medium frequency band (2-6 GHz). In this paper, the 5G high-frequency band (beyond 6 GHz) is used to design a MIMO antenna for future deployment. The MIMO antenna is designed for 5G applications working at a frequency of 38 GHz. This allocated frequency was also recommended by the Federal Communications Commission (FCC). The antenna was designed by using a patch in the form of an octagon ring with microstrip line feeding. MIMO technique is used to increase system capacity with a gain value above 10 dBi. Antenna MIMO is designed using a material substrate RT Duroid 5880 with $\varepsilon r$ = 2.2, thickness (h) = 0.254 mm, and tan $\delta = 0.0009$. From the simulation, the S11 reached -29.5 dB, a gain of 13.44 dBi, mutual coupling below -20 dB, and bandwidth of 14.002 GHz (31.008 GHz to 45.01 GHz).

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基于仿真的5G八角环形MIMO天线研究

第五代(5G)通信展示了整个蜂窝网络架构的进步。印度尼西亚刚刚于2021年5月21日启动了第一个5G网络，作为领先数字电信的有形体现。首次部署使用的5G频段分配为中频(2 ～ 6ghz)。本文利用5G高频频段(6ghz以上)设计MIMO天线，以备未来部署。MIMO天线是为工作频率为38 GHz的5G应用而设计的。这种分配频率也是联邦通信委员会(FCC)推荐的。天线采用带微带馈线的八角形贴片设计。MIMO技术用于增加系统容量，增益值在10dbi以上。天线MIMO采用$\varepsilon r$ = 2.2，厚度(h) = 0.254 mm, tan $\delta = 0.0009$的材料衬底RT Duroid 5880设计。仿真结果表明，S11达到-29.5 dB，增益为13.44 dBi，互耦低于-20 dB，带宽为14.002 GHz (31.008 GHz ～ 45.01 GHz)。

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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来源期刊

2021 17th International Conference on Quality in Research (QIR): International Symposium on Electrical and Computer Engineering

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