Design and Simulation of Wideband, High Gain Matrix Antenna with Beam Steering and Low Side-Lobe Levels Features

International Journal of Electrical and Computer Engineering Research Pub Date : 2022-06-15 DOI:10.53375/ijecer.2022.272

Paul Karmann, E. Martinod, J. Andrieu, M. Rammal

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引用次数: 1

Abstract

In this paper, a matrix antenna composed of radiating pixels elaborated in meta-materials is presented. The pixels are surmounted with a frequency selective structure and closed with four metallic walls. The cavity is excited by a radiating patch and filled with dielectric. This dielectric makes it possible to reduce the overall width of the pixel by increasing the dielectric length of the cavity while maintaining the performances of the pixel. The pixel is reduced to a width of 50.96 mm (0.34*λ) at 2 GHz. The -10 dB fractional bandwidth of the pixel is 22% (2-2.5 GHz). The pixel is then placed in a 17 elements matrix to achieve high steering angles. The optimization focuses on the steering capacity, the bandwidth and the side-lobes levels. On the whole band, the steering angle is more than 70° and the antenna achieves low side-lobes levels at less than -9.9 dB. A device to reduce the mutual coupling between the elements by using soft surfaces is also presented. These surfaces allow to widen the matching band while the steering is produced.

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具有波束导向和低旁瓣电平特性的宽带高增益矩阵天线的设计与仿真

本文提出了一种由辐射像元组成的矩阵天线。像素被一个频率选择结构所覆盖，并被四个金属壁封闭。空腔由辐射片激发并充满电介质。该电介质使得在保持所述像素的性能的同时通过增加所述腔的电介质长度来减小所述像素的总宽度成为可能。在2 GHz时，像素的宽度减小到50.96 mm (0.34*λ)。像素的- 10db分数带宽为22% (2-2.5 GHz)。然后将像素放置在17个元素的矩阵中以实现高转向角度。优化的重点是转向能力、带宽和旁瓣电平。在整个频带上，天线的转向角大于70°，天线侧瓣电平小于-9.9 dB。文中还提出了一种利用软表面减小元件间相互耦合的装置。这些表面允许扩大匹配带，而转向生产。

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 Electrical and Computer Engineering Research

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