High-Directivity Ultra-Sparse Antenna Arrays Using Multielement Metagratings

2022 16th European Conference on Antennas and Propagation (EuCAP) Pub Date : 2022-03-27 DOI:10.23919/eucap53622.2022.9769241

Y. Kerzhner, A. Epstein

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Abstract

We present a rigorous analytical model utilized to design highly-sparse antenna arrays, taking advantage of the recent concept of metagratings (MGs). The proposed semian-alytical methodology, avoiding full-wave optimization, enables replacement of the generally-large number of active radiating elements with passive capacitively-loaded wires (meta-atoms), without sacrificing array directivity. Contrary to common techniques to dilute arrays, relying mostly on optimization of active element distribution and excitation, our modular solution utilizes a standard array configuration with linearly-phased elements; grating-lobe suppression is achieved by proper engineering of the passive MG, harnessing Floquet-Bloch formalism to control power partition into diffraction orders. To facilitate dramatic dilution and comply with printed-circuit-board (PCB) design requirements, we extend our previous work, enabling inclusion of multiple meta-atoms per period within a multilayered dielectric substrate. This concept, verified via full-wave simulations, is expected to facilitate the development of low-cost, planar, low-loss, and highly-directive antenna systems for future cellular and satellite communication.

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基于多元元组合的高指向性超稀疏天线阵列

我们提出了一个严格的分析模型，用于设计高度稀疏的天线阵列，利用了最近的元聚合(mgg)概念。所提出的半分析方法避免了全波优化，可以用无源电容负载导线(元原子)替换大量的有源辐射元件，而不会牺牲阵列的指向性。与常用的稀释阵列技术相反，我们的模块化解决方案主要依赖于有源元件分布和激励的优化，采用线性相控元件的标准阵列配置;光栅瓣抑制是通过对无源光阑进行适当的设计，利用Floquet-Bloch形式来控制衍射阶间的功率分配来实现的。为了促进显着稀释并符合印刷电路板(PCB)设计要求，我们扩展了之前的工作，使多层介电基板内每个周期包含多个元原子。通过全波模拟验证了这一概念，预计将促进未来蜂窝和卫星通信的低成本、平面、低损耗和高指向性天线系统的发展。

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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2022 16th European Conference on Antennas and Propagation (EuCAP)

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