大型多尺度结构电磁干扰与辐射问题的数值模拟

2015 IEEE 24th Electrical Performance of Electronic Packaging and Systems (EPEPS) Pub Date : 2015-10-01 DOI:10.1109/EPEPS.2015.7347139

M. Fallahpour, Maokun-Li, M. Tong, W. Chew

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引用次数: 1

摘要

大型多尺度问题是实际应用中常见的问题，例如对安装在大型平台上的印刷电路板进行电磁干扰分析。然而，多尺度结构的建模是电磁数值求解的瓶颈。这源于这样一个事实，即捕获具有不同比例的对象，不同和不均匀的网格是不可避免的。这种不同的网格划分导致不同的物理共存，从而导致迭代求解的缓慢收敛。为了解决这一问题，本文建议采用等效原理算法这一有效的区域分解方法来模拟大型多尺度问题中的电磁干扰/辐射。

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Numerical modeling of electromgantic interference (EMI) and radiation problems for large multiscale structures

The large multiscale problems are commonly faced in real-world applications such as analysis of electromagnetic interference for a printed circuit board installed on a large platform with connected cables and wires. Unfortunately, modeling the multiscale structures is the bottleneck of electromagnetic numerical solvers. This stems from the fact that to capture objects with different scales, disparate and nonuniform meshing is unavoidable. This disparate meshing leads into different physics coexistence and consequently results in slow convergence of iterative solvers. To remedy this problem, in here, we suggest using equivalence principle algorithm which is an efficient domain decomposition method to model electromagnetic interference/radiation in the large multiscale problems.

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2015 IEEE 24th Electrical Performance of Electronic Packaging and Systems (EPEPS)

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