Effects of Low-Geometrical-Precision PCB Manufacturing on mmWave Passive Metasurfaces

2023 International Technical Conference on Circuits/Systems, Computers, and Communications (ITC-CSCC) Pub Date : 2023-06-25 DOI:10.1109/ITC-CSCC58803.2023.10212582

Panithan La-aiddee, P. Sangwongngam, P. Pongpaibool, D. Tancharoen, L. Wuttisittikulkij, P. Vanichchanunt

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Abstract

As millimeter-wave (mmWave) signals suffer from high path loss and blocking, passive metasurface reflectors that can be fabricated with conventional PCB manufacturing become a promising cost-effective candidate for enhancing mmWave mobile service coverage. In this work, we show how PCB fabrication geometrical precision affects the performance of passive reflectors that are used in 5G and beyond mmWave networks. With the broad beamwidth of PCB-based metasurfaces, the dimension tolerance of PCB manufacturing can be traded off between cost benefits and key communications performance. From our numerical results based on full-wave simulations, the received power at the design anomalous angle is not significantly affected by the geometrical precision while high errors can cause higher interference at specular and mirror angles. However, the fabrication error in unit cell shape rotation does not influence the received power at the design anomalous, specular and mirror angles.

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低几何精度PCB制造对毫米波无源超表面的影响

由于毫米波(mmWave)信号遭受高路径损耗和阻塞，可以用传统PCB制造制造的无源超表面反射器成为增强毫米波移动服务覆盖范围的有前途的经济有效的候选者。在这项工作中，我们展示了PCB制造几何精度如何影响5G及毫米波以上网络中使用的被动反射器的性能。随着基于PCB的超表面的宽波束宽度，PCB制造的尺寸公差可以在成本效益和关键通信性能之间进行权衡。从全波模拟的数值结果来看，几何精度对设计异常角处的接收功率影响不大，而高误差会导致镜面角和镜面角处的干涉较大。然而，在设计异常角、镜面角和反射角下，单胞形状旋转的制造误差对接收功率没有影响。

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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来源期刊

2023 International Technical Conference on Circuits/Systems, Computers, and Communications (ITC-CSCC)

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