Probe Design and Source Reconstruction for Near-Field Scanning and Modeling

Di Wang, Xing-Chang Wei, En-Xiao Liu, Richard Xian-Ke Gao
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引用次数: 0

Abstract

This paper elaborates the near-field scanning and modeling technique developed for electromagnetic interference (EMI) analysis. The technique has been increasingly deployed in many R&D labs of universities and testing centers of industry companies due to its advantages in terms of time and cost, comparing with conventional EMI measurement methods. The major research works related to the near-field scanning and modeling are probe design and source reconstruction method (SRM). In this article, the working principle of electric and magnetic probes are firstly introduced. Probe parameters including calibration factor, electric center, sensitivity, spatial resolution and bandwidth are discussed. Next, the equivalent radiation source modeling approach is presented. Through SRM, a complex and unknown EMI source is substituted with the simplified equivalent radiation source based on the electromagnetic fields measured by magnetic and/or electric probes. The phaseless SRM is thereafter discussed for addressing the limitations in conventional SRM and its applications prove that the near-field scanning and modeling technique can effectively predict EMI far-field radiation and near-field coupling.
近场扫描与建模探头设计与震源重建
本文阐述了用于电磁干扰分析的近场扫描和建模技术。与传统的电磁干扰测量方法相比,该技术在时间和成本方面具有优势,已越来越多地部署在许多大学的研发实验室和工业公司的测试中心。与近场扫描和建模相关的主要研究工作是探头设计和震源重建方法。本文首先介绍了电探针和磁探针的工作原理。讨论了探针的标定系数、电中心、灵敏度、空间分辨率和带宽等参数。其次,提出了等效辐射源建模方法。通过SRM,将复杂和未知的电磁干扰源替换为基于磁性和/或电探针测量的电磁场的简化等效辐射源。为了解决传统SRM的局限性,讨论了无相SRM,其应用证明了近场扫描和建模技术可以有效地预测电磁干扰远场辐射和近场耦合。
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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CiteScore
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