Design and Simulation of Antipodal Vivaldi Antenna (AVA) AT 2.6 GHz For 5G Communication Optimation

2021 Sixth International Conference on Informatics and Computing (ICIC) Pub Date : 2021-11-03 DOI:10.1109/ICIC54025.2021.9632925

Andreas Renaldy Darmawidjaja, E. P. Wibowo

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Abstract

The evolve of communication are growing rapidly, people competing to make communication much better than before, the technology develop is 5G communication, the data rate and speed that 5G given more better than 4G. Every communication technology requires an antenna as a transmitter and receiver to support communication working properly. Antipodal Vivaldi (AVA) is one type of Vivaldi Antenna which is better than other types of Antipodal Vivaldi for 5G communications. It has advantages for the High Gain, improve return loss, high efficiency, enhanced beamwidth, low sidelobe level, (Reduce the sidelobe level and back lobe level), Compact size, Stable radiation pattern, higher Operating Frequencies (1 Ghz to 100 Ghz) and more front to back ratio, which are really suitable for 5G communications. Antipodal Vivaldi Antenna (AVA) work at 2.6 GHz (2.6768 Ghz). The antenna needs to get the Institute of Electrical and Electronics Engineers (IEEE) defined standards which is VSWR 1, reference impedance 100 ohm, and s- parameter below -20dB. The Antipodal Vivaldi Antenna design process is carried out by using math formulation and experimental methods. For simulate and optimizing it, it uses CST studio suite 2018 software. To get the IEEE defined standards, AVA need to be optimize with changing antenna dimension elements (feed line width) and conFig. its slots which can lead to physic optimization. The results obtained in the form of slot antenna that works at a frequency of 2.6 GHz (2.6768 Ghz). The results obtained are the value of slot antenna. VSWR has a value of 1.0508971. The return loss is -32.105013. The gain is about 2.697 dB. The antenna has a line impedance of 100 ohm.

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面向5G通信优化的2.6 GHz对跖维瓦尔第天线(AVA)设计与仿真

通信的进化正在迅速发展，人们竞相使通信比以前好得多，技术发展是5G通信，5G的数据速率和速度比4G更好。每一种通信技术都需要天线作为发射器和接收器来支持通信的正常工作。对映维瓦尔第(AVA)天线是5G通信中比其他对映维瓦尔第天线性能更好的一种。它具有高增益、改善回波损耗、高效率、增强波束宽度、低旁瓣电平(降低旁瓣电平和后瓣电平)、体积小、辐射方向图稳定、工作频率高(1 Ghz至100 Ghz)、前后比大等优点，真正适合5G通信。AVA (Antipodal Vivaldi Antenna)工作频率为2.6 GHz (2.6768 GHz)。该天线需要达到电气和电子工程师协会(IEEE)定义的标准，即VSWR为1，参考阻抗为100欧姆，s-参数低于- 20db。采用数学公式和实验方法进行了对映维瓦尔第天线的设计过程。为了模拟和优化它，它使用CST studio suite 2018软件。为了获得IEEE定义的标准，需要通过改变天线尺寸元素(馈线宽度)和配置来优化AVA。它的插槽可以导致物理优化。得到的结果是工作在2.6 GHz (2.6768 GHz)频率的槽形天线。所得结果为槽形天线的数值。VSWR的值为1.0508971。回波损耗为-32.105013。增益约为2.697 dB。天线的线阻抗为100欧姆。

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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2021 Sixth International Conference on Informatics and Computing (ICIC)

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