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引用次数: 13
摘要
众所周知,铁氧体瓦片之间的气隙降低了瓦片吸收器墙体装置的吸收性能。然而,对这种影响的分析还没有得到充分的发表。本文介绍了两种分析铁氧体瓦间隙的方法。介绍了一种简化的磁路法来计算有空隙的砖瓦墙体的有效磁导率。然后,采用二维有限元法对同一间隙模型进行了分析,验证了简化公式的正确性。然后将气隙公式纳入表征具有或不具有电介质吸收体作为其匹配元件的铁氧体瓦吸收体。充分表征的铁氧体吸收体可用于设计电磁兼容腔。文中给出了设计实例,以证明10 m/3 m EMC半消声室的归一化站点衰减的计算值与实测值之间的相关性。
Analysis of the effect of ferrite tile gap on EMC chamber having ferrite absorber walls
It has been known that air gaps between ferrite tiles degrade the absorbing performance of the tile absorber wall installation. However, analysis of the effect has not been thoroughly well published. This paper presents two techniques to analyze gaps between ferrite tiles. A simplified magnetic circuit method is introduced to calculate the effective permeability of the tile wall with gaps. Then, a two-dimensional finite element method is used to analyze the same gap model to validate the simplified formula. The air gap formula is then incorporated into characterizing the ferrite tile absorber with or without a dielectric absorber as its matching element. The fully characterized ferrite absorbers can then be used to design EMC chambers. Design examples are, presented to demonstrate the correlation between calculated and measured normalized site attenuations for 10 m/3 m EMC semi-anechoic chambers.
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