System Level Electromagnetic Compatibility Remedy Using Absorbing Frequency Selective Surfaces

2018 IEEE Symposium on Electromagnetic Compatibility, Signal Integrity and Power Integrity (EMC, SI & PI) Pub Date : 2018-07-01 DOI:10.1109/EMCSI.2018.8495321

A. Khoshniat, R. Abhari

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引用次数: 4

Abstract

To mitigate unwanted electromagnetic emissions from a digital system enclosed in a metal box with ventilation slots at 8 GHz, a customized absorber is developed using the Frequency Selective Surface (FSS) design concept. The low profile FSS is composed of 2D arrays of square patches of a resistive material incorporated in two consecutive layers of a PCB stack-up. The designed FSS covers the inner top wall of the enclosure box. Analytical derivations and full-wave simulations demonstrate that the surface input impedance of FSS at 8 GHz is matched to the intrinsic impedance of the plane waves emitted from the digital system thus providing more than 6 dB reduction in radiated emissions when FSS is present. The FSS structure is fabricated and a test set-up is created to measure the emissions from a prototyped system board with an array of intentional radiators operating at 8 GHz. Lab measurement results also confirm more than 5 dB reduction in radiated emissions at 8 GHz for the worst case emission scenario.

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使用吸收频率选择表面的系统级电磁兼容性补救

为了减少8 GHz通风槽金属盒中数字系统产生的有害电磁辐射，使用频率选择表面(FSS)设计概念开发了定制吸收器。低轮廓FSS是由二维阵列的方形贴片的电阻材料结合在PCB堆叠的两个连续层。所设计的FSS覆盖在箱体内顶壁上。解析推导和全波仿真表明，FSS在8 GHz时的表面输入阻抗与数字系统发射的平面波的本振阻抗匹配，因此当FSS存在时，辐射发射减少了6 dB以上。制作了FSS结构，并创建了一个测试装置，用于测量带有一系列故意散热器的原型系统板的发射，工作频率为8 GHz。实验室测量结果还证实，在最坏的发射情况下，8 GHz的辐射发射减少了5 dB以上。

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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2018 IEEE Symposium on Electromagnetic Compatibility, Signal Integrity and Power Integrity (EMC, SI & PI)

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