A Feasibility Study of Representing the Electric Field in Perforated Rectangular Enclosure Based on Modal Expansion Method

Yuan Zhao; Tianle Wang; Xiaofeng SunGuohong DuLiping YanXiang Zhao

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A Feasibility Study of Representing the Electric Field in Perforated Rectangular Enclosure Based on Modal Expansion Method

机译：代表了电动的可行性研究基于多孔矩形外壳在模态展开法

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In this letter, the modal expansion method (MEM) based on orthogonal property of resonant modes is utilized to represent the electric field in a perforated rectangular enclosure. By applying inner product between electric field obtained by finite integration technique (FIT) and transverse electric (TE) or transverse magnetic (TM) mode field respectively, the mode coefficient for each contributing mode can be accurately obtained over the modal bandwidth. Then the electric field in a perforated rectangular enclosure can be represented by the superposition of contributing mode fields multiplying their corresponding mode coefficients. And the figures of mode coefficients’ magnitude and phase give an intuitive understanding of the internal electric field. The statistical properties of internal electric fields obtained by FIT and MEM are in agreement with each other. MEM provides a better understanding of the electromagnetic environment in perforated enclosures.

机译：在这封信中,模态展开法(MEM)基于正交谐振模式的性质用来代表的电场多孔矩形外壳。内积之间的电场获得的(适合)和横向有限的集成技术电(TE)或横磁(TM)模式系数为每个字段分别模式可以准确地获得贡献模式模态带宽。多孔矩形外壳由贡献的叠加模式领域乘以相应的模式系数。给出一个系数的大小和阶段直观的理解内部电字段。电场得到满足和MEM彼此协议。对电磁环境的理解在穿孔。

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来源
《IEEE journal on electromagnetic compatibility practice and applications》 |2021年第2期|48-51|共4页
作者
Yuan Zhao; Tianle Wang; Xiaofeng SunGuohong DuLiping YanXiang Zhao;
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作者单位

College of Electronic Engineering, Chengdu University of Information Technology, Chengdu, China;

Southwest China Institute of Electronic Technology, Chengdu, China;

College of Electronics and Information Engineering, Sichuan University, Chengdu, China;

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原文格式 PDF
正文语种英语
中图分类 IELEP0501;
关键词
Electric fields; aperture coupling; Microelectromechanical devicesDot productelectronic mailelectromagnetic compatibilitymodal expansionaperturesCouplingsBandwidthPerforationEnclosuresRectangular;

机译：电场;孔径耦合;微机电devicesDotproductelectronic mailelectromagneticcompatibilitymodal;

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A Feasibility Study of Representing the Electric Field in Perforated Rectangular Enclosure Based on Modal Expansion Method

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