利用特征模态理论分析双波束天线阵列的波束成形

IF 3.5 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Open Journal of Antennas and Propagation Pub Date : 2024-08-26 DOI:10.1109/OJAP.2024.3449752
Mahrukh Khan;Talha Murad;Nicholas Lusdyk
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引用次数: 0

摘要

本文提出了一种利用特征模态理论对 $2/times 2$ 天线阵列进行波束成形的新颖而有见地的方法。该阵列由四个矩形贴片天线元件组成,设计在 2.4 GHz 谐振频率的 FR-4 基板上。特征模态分析(CMA)对阵列结构的表面电流方向和辐射特性提出了令人着迷的物理见解。通过激发特定的特征模,设计出了双波束天线阵列。馈电激励后,利用特征模分析(CMA)了解多端口结构中的多波束模式可重构性。不同且正交的模态特征场信息为多波束阵列的波束成形提供了指导。特定模态的模态特征场是通过模态加权系数确定的,该系数可在端口相位发生变化时进行组合,以便在特定扫描角度进行波束成形。通过选择馈电端口的不同相位组合,展示了多波束阵列的多维覆盖潜力。论文讨论了波束扫描因模式组合而产生的优势和局限性。这种物理洞察力有利于未来的模式可重构天线阵列设计程序。在已实现的原型上进行的测量与模拟结果十分吻合,证明了所提出的概念。
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Beamforming Analysis of Dual Beam Antenna Array Using Theory of Characteristic Modes
This paper presents a novel and insightful approach to beamforming a $2\times 2$ antenna array using the theory of characteristic modes. The array comprises four rectangular patch antenna elements designed on an FR-4 substrate resonating at 2.4 GHz. The characteristic mode analysis (CMA) presented a fascinating physical insight into the surface current directions and the radiation characteristics of the array structure. The excitation of a specific characteristic mode led to the design of a dual-beam antenna array. After feed excitation, characteristic mode analysis (CMA) was employed to understand multi-beam pattern reconfigurability in the multi-port structure. The information of distinct and orthogonal modal characteristic fields guides the beamforming of multibeam arrays. Modal characteristic fields of specific modes were identified using a modal weighting coefficient that may combine upon port phase change for beamforming at a certain scan angle. The potential of multi-dimensional coverage of a multibeam array is presented by selecting the different phase combinations of feeding ports. The paper discusses the strengths and limitations of beam scanning due to the combination of modes. This physical insight is beneficial for future pattern reconfigurable antenna array design procedures. Measurements on a realized prototype are in a good agreement with simulations, proving the proposed concept.
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来源期刊
CiteScore
6.50
自引率
12.50%
发文量
90
审稿时长
8 weeks
期刊最新文献
Front Cover Table of Contents Guest Editorial Introduction to the Special Section on Women’s Research in Antennas and Propagation Section (WRAPS) IEEE ANTENNAS AND PROPAGATION SOCIETY IEEE Open Journal of Antennas and Propagation Instructions for authors
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