Shielding effectiveness of enclosure with unconventional aperture array

Tauseef Hussain, Q. Cao, I. Majid
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引用次数: 2

Abstract

The transmission-line modeling (TLM) numerical method is employed to investigate the high-frequency shielding effectiveness (SE) of a metallic enclosure with unconventional aperture geometries. Analytical methods can predict SE but they have two main limitations: one is they can predict the SE of enclosure with very simple aperture shapes and second is that results cannot be predicted with accuracy after the first resonance frequency of cavity. We have investigated some new geometries for apertures from 0 to 3 GHz frequency band and discovered some important characteristics of these shapes by using the TLM based simulator. A novel concept of complementary apertures is introduced which has pronounced effect on cavity resonance modes and SE of enclosure. Another useful phenomenon was also observed and that is despite of longer aperture lengths perpendicular to electrical field (E-field), some apertures have better SE than others for the same coverage area.
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非常规孔径阵列外壳的屏蔽效果
采用传输在线建模(TLM)数值方法研究了具有非常规孔径几何形状的金属外壳的高频屏蔽效果。分析方法可以预测SE,但有两个主要的局限性:一是只能用非常简单的孔径形状来预测外壳的SE,二是在得到腔体的第一次共振频率后,结果不能准确预测。我们研究了0 ~ 3ghz频段孔径的一些新几何形状,并利用基于TLM的模拟器发现了这些形状的一些重要特性。引入了一种新的互补孔的概念,它对腔体共振模式和壳体的SE有明显的影响。另一个有用的现象也被观察到,尽管垂直于电场(e场)的孔径长度较长,但在相同的覆盖面积下,一些孔径比其他孔径具有更好的SE。
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