Design and Analysis of X/Ka-band Irregular Inductive Frequency Selective Surface with Dual Transmission Poles for Beam-Waveguide Antenna

2020 International Youth Conference on Radio Electronics, Electrical and Power Engineering (REEPE) Pub Date : 2020-03-01 DOI:10.1109/REEPE49198.2020.9059130

Maxim A. Dubovitskiy, I. V. Belkovich

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Abstract

The paper presents the results of the design and simulation of the irregular inductive frequency-selective surface (FSS) for dichroic mirror in the beam-waveguide (BWG) feed in X/Ka-band. Traditional electromagnetic (EM) analyses based on a uniform plane wave incidence were augmented by advanced numerical techniques to investigate the impact of the dichroic mirror on the overall antenna performance. The irregularity of the proposed FSS is introduced in varying aperture (unit cell) dimensions in one of the coordinates to minimize the energy losses at high frequencies. The optimal shape of a periodic cell is determined and characterized by the presence in the frequency response dual transmission poles in uplink/downlink bands, corresponding to the frequencies of reception and transmission in the Ka-band. Due to the varying cell grid structure the averaged losses over the entire range of incidence angles from 16° to 44° with an amplitude decay of the real source to the FSS edges were 0.06 dB, so this is acceptable attenuation for such structures.

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波束波导天线X/ ka波段不规则双极感应选频面设计与分析

本文介绍了X/ ka波段波束波导馈电中用于二向镜的不规则感应选频表面的设计与仿真结果。传统的基于均匀平面波入射的电磁分析被先进的数值技术所加强，以研究二向色镜对天线整体性能的影响。所提出的FSS的不规则性是在一个坐标的不同孔径(单元)尺寸中引入的，以尽量减少高频时的能量损失。周期单元的最佳形状由频率响应中存在上行/下行频带的双传输极点来确定和表征，对应于ka频带的接收和发射频率。由于单元格结构的变化，在整个入射角范围内(从16°到44°)的平均损耗与真实源到FSS边缘的幅度衰减为0.06 dB，因此这是可接受的衰减。

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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2020 International Youth Conference on Radio Electronics, Electrical and Power Engineering (REEPE)

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