Auto-activated Electromagnetic Shield Upon High Intensity Radiated Field Illumination

2022 International Symposium on Electromagnetic Compatibility – EMC Europe Pub Date : 2022-09-05 DOI:10.1109/EMCEurope51680.2022.9901144

Quentin Tricas, X. Castel, C. Le Paven, T. Eudes, P. Foutrel, J. Sol, P. Besnier

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Abstract

This paper concerns the protection of electro-optic and electromagnetic sensors embedded into a metallic cavity equipped with a window made of a non-electrically conducting material and optically transparent over the visible light and/or infra-red spectrum. In the presence of high intensity radiated fields, the cavity must be appropriately shielded to protect those sensors, this protection being detrimental to EM sensors sensitivity in their absence. We propose here an automatic and quasiinstantaneous activation of an electromagnetic shield printed on the window glass through the detection of the impinging electromagnetic field. The presented solution is based on thin micrometric mesh-metal film deposited on a glass substrate surrounded by a parallel arrangement of p-i-n diodes polarized by the EM field source itself. An experimental validation is performed using a reverberation chamber to generate the electromagnetic field stress while performing a shielding effectiveness measurement using the nested reverberation chamber test setup.

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高强度辐射场照明自动激活电磁屏蔽

本文讨论了电光和电磁传感器的保护，这些传感器嵌入金属腔中，金属腔中装有由非导电材料制成的窗口，并且在可见光和/或红外光谱上具有光学透明度。在存在高强度辐射场的情况下，必须对腔体进行适当的屏蔽，以保护这些传感器，这种保护在没有它们的情况下对电磁传感器的灵敏度有害。我们在这里提出了一种自动和准瞬时激活的电磁屏蔽印刷在窗玻璃通过检测的冲击电磁场。提出的解决方案是基于薄的微米网状金属薄膜沉积在玻璃衬底上，周围是由电磁场源本身极化的平行排列的p-i-n二极管。实验验证使用混响室产生电磁场应力，同时使用嵌套混响室测试装置进行屏蔽有效性测量。

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 International Symposium on Electromagnetic Compatibility – EMC Europe

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