一种计算任意形状孔缝平均电极化率密度的方法
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Method for calculating the average electric polarizability density of aperture with arbitrary shape
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    摘要:

    孔缝耦合是电磁干扰最主要的途径,如何计算孔缝耦合对排查电磁干扰十分很重要。现有文献中解析计算任意形状孔缝平均电极化率密度的方法是基于超几何函数理论的。该方法虽然能够较为精确地计算出任意形状孔缝的平均电极化率密度,但由于超几何函数对于非数学专业的工程人员来说过于复杂,因此这种计算孔缝平均电极化率密度的方法很少被应用于电磁场工程实践中。针对这一问题,提出了一种新的解析公式,在不损失精度的前提下,大大简化了计算,可以显著提高孔缝耦合问题的解决效率。核心思想是将任意孔缝的平均电极化密度计算问题转化计算无数小圆孔平均电极化率密度的算术平均值,进而推导出一个简单函数沿孔缝边缘进行线积分的解析式,应用该解析式即可十分方便地计算出任意形状孔缝的平均电极化率密度。

    Abstract:

    Aperture coupling is the most important way of electronic interference. In the existing literatures, the method of calculating the average electrical susceptibilities of arbitrary shaped apertures is based on hypergeometric theory. Although this method can accurately calculate the average electric polarization density of small holes in any shape, the hypergeometric function is too complex for the engineers of non-mathematics. Therefore, the method of calculating the average electric polarization density of small holes is seldom used in the field of electromagnetic field engineering. In order to solve this problem, a new analytical formula is proposed in this paper, which greatly simplifies the calculation without loss of precision, and can greatly improve the efficiency of the solution of the small hole coupling problem. The core idea of this method is to convert the calculation of the average electric polarization density of a small hole to the arithmetic average of the average electrical polarization rate density of numerous small circular holes, and then deduce an analytic formula of the line integral along the edge of a small hole. The average electrical polarization rate density.

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王金田,刘雪明,商宝莹,李志勇,穆晓彤.一种计算任意形状孔缝平均电极化率密度的方法[J].电子测量技术,2019,42(3):31-34

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  • 在线发布日期: 2021-07-20
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