5G Communication: High Gain Array Antenna Operating at 3.5GHz

International Journal of Emerging Technology and Advanced Engineering Pub Date : 2023-04-05 DOI:10.46338/ijetae0423_06

M. H. Misran, M. A. M. Said, M. Othman, A. Jaafar, Redzuan Abd Manap, S. Suhaimi, N. I. Hassan

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Abstract

—5G technology is leverages advanced antenna technology and wider bandwidth to improve the potential of wireless communication that enables a significant increase in the amount of information that can be transmitted through the wireless system. With its ability to deliver higher data rates and lower latency, 5G promises to support a wide range of applications, from immersive virtual reality to autonomous vehicles.However, 5G communication systems are characterized by poor radiation features, which limit their usefulness in wider operational ranges. To overcome these issues, this project will focus on designing a high-gain array antenna operating at 3.5GHz specifically for 5G communication. A directional patch antenna will be designed for a specific base station to provide high radiation network connectivity and superior communication quality. Moreover, the high-gain array antenna at 3.5GHz will be optimized for long-distance point-to-point connections. In this project, a 4x4 patch antenna will be designed and fabricated using FR4 epoxy material to achieve high gain for long-distance signal transmission.

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5G通信:工作频率为3.5GHz的高增益阵列天线

5g技术利用先进的天线技术和更宽的带宽来提高无线通信的潜力，使可以通过无线系统传输的信息量显着增加。凭借其提供更高数据速率和更低延迟的能力，5G有望支持从沉浸式虚拟现实到自动驾驶汽车的广泛应用。然而，5G通信系统的特点是辐射特性差，这限制了它们在更广泛的操作范围内的可用性。为了克服这些问题，该项目将专注于设计专门用于5G通信的3.5GHz高增益阵列天线。定向贴片天线将为特定的基站设计，以提供高辐射网络连接和卓越的通信质量。此外，3.5GHz的高增益阵列天线将针对远距离点对点连接进行优化。本项目将采用FR4环氧树脂材料设计制作4x4贴片天线，实现高增益的远距离信号传输。

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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International Journal of Emerging Technology and Advanced Engineering

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