Multibeam 5G Conical Leaky-Wave Antenna Based on Holographic Technique

2022 6th International Conference on Millimeter-Wave and Terahertz Technologies (MMWaTT) Pub Date : 2022-12-13 DOI:10.1109/MMWaTT58022.2022.10172124

Mohammad Amin Chaychi Zadeh, N. Komjani, Sajjad Zohrevand

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Abstract

This article presents the synthesize process for a holographically inspired multi-beam conical antenna. The proposed antenna comprises of grounded conformal hexagonal unit cells printed on a Rogers RT6002 substrate with a thickness of 60 mils. The Eigen mode solver of CST software with planar approximation is used to calculate the surface impedance of the unit cells. Each unit cell's periodicity and dimension increment ratio along the cone's edge is 1.005. Moreover, for 5G telecommunication applications, the operation frequency of the antenna is assumed 26 GHz. The surface reference wave is generated by feeding from the edge of the antenna structure with a conical wave front. The direction of the triple object beams can be chosen arbitrarily, which are assumed φi= (2i-1)π/3 and θi=π/2 (i=1,2,3) in the design process, respectively. The overall electrical area of the hologram plane is about 9.5 λ02. The gain of each beam and the antenna's efficiency are 14.5 dBi and 0.83, respectively.

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基于全息技术的5G多波束锥形漏波天线

本文介绍了一种全息启发多波束锥形天线的合成过程。所提出的天线包括印刷在罗杰斯RT6002衬底上的接地共形六边形单元格，厚度为60密耳。采用CST软件的平面逼近本征模式求解器计算了单元胞的表面阻抗。每个单元格沿锥体边缘的周期性和尺寸增量比为1.005。此外，对于5G电信应用，假设天线的工作频率为26 GHz。表面参考波是从具有锥形波前的天线结构的边缘馈电产生的。三目标梁的方向可以任意选择，设计过程中分别假设φi= (2i-1)π/3和θi=π/2 (i=1,2,3)。全息图平面的总电面积约为9.5 λ02。各波束增益为14.5 dBi，天线效率为0.83。

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2022 6th International Conference on Millimeter-Wave and Terahertz Technologies (MMWaTT)

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