A One-bit Transmit Phased Array with Spatial Excitation for Sub-6 GHz Wireless Systems

Journal of the Russian Universities. Radioelectronics Pub Date : 2022-11-27 DOI:10.32603/1993-8985-2022-25-5-6-17

V. Kirillov, I. Munina, P. Turalchuk

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Abstract

Introduction. Due to the increasing number of users, growing rates of data transmission, and rapid advancement of the Internet of Things, the parameter of channel capacity is acquiring greater importance in modern communication systems. In wireless communication systems, capacity limitation occurs due to a low signal-to-noise ratio, one reason for which consists in high losses associated with the propagation of electromagnetic waves. These losses can be compensated using high-gain antenna systems, such as metasurfaces, transmitarrays, or reflectarrays.Aim. Development and research of a one-bit transmit phased antenna array with spatial excitation for use in wireless communication networks across sub-6 GHz frequencies. The issues of reducing the insertion losses associated with the cell geometry and control components are discussed. Account is taken of the parasitic parameters of p–i–ndiodes used as control elements for phase adjustment in a unit cell. Methods for suppressing cross-polarization in a unit cell with the purpose of reducing insertion losses are studied.Materials and methods. The characteristics of unit cells in a transmit antenna array were studied by numerical electrodynamic modeling in the CST Microwave Studio computer-aided design system. The obtained results were confirmed by an experimental study of samples.Results. A unique design of a unit cell comprising the main element of a transmitarray was proposed. On its basis, a transmitarray was designed and manufactured, whose measurements proved the level of insertion losses to be lower than 1.5 dB in the operating frequency band of 210 MHz (3.6 %). The level of cross-polarization was found to be lower than 24 dB, and the gain attenuation did not exceed 2.5 dB in the range of beam deflection from 45° to -45°.Conclusion. The design simplicity, low losses, and acceptable cross-polarization levels of the developed one-bit transmit phased antenna array with spatial excitation confirm its feasibility for modern communication systems.

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一种用于Sub-6 GHz无线系统的位发射空间激励相控阵

介绍。由于用户数量的增加、数据传输速率的提高以及物联网的快速发展，信道容量参数在现代通信系统中变得越来越重要。在无线通信系统中，由于低信噪比而产生容量限制，其中一个原因是与电磁波传播相关的高损耗。这些损耗可以用高增益天线系统来补偿，如超表面、发射阵列或反射阵列。用于6ghz以下频率无线通信网络的空间激励位发射相控阵的开发与研究。讨论了减少与电池几何形状和控制元件相关的插入损耗的问题。考虑了作为控制元件的p-i-ndiodes的寄生参数，用于单位电池的相位调整。研究了以减少插入损耗为目的抑制单晶胞交叉极化的方法。材料和方法。在CST Microwave Studio计算机辅助设计系统中，采用数值电动力学建模方法研究了发射天线阵列中单元格的特性。所得结果通过对样品的实验研究得到了证实。提出了一种独特的包含发射阵列主元件的单晶片设计方案。在此基础上设计并制造了一种发射阵列，在210 MHz工作频段(3.6%)，其插入损耗水平低于1.5 dB。在波束偏转45°~ -45°范围内，交叉极化水平小于24 dB，增益衰减不超过2.5 dB。所研制的具有空间激励的位发射相控阵具有设计简单、损耗低和可接受的交叉极化水平等特点，证实了其在现代通信系统中的可行性。

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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Journal of the Russian Universities. Radioelectronics

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