基于神经网络的高速PCB走线辐射发射预测模型

2014 International Conference on Computer, Communications, and Control Technology (I4CT) Pub Date : 2014-10-02 DOI:10.1109/I4CT.2014.6914197

A. Sayegh, M. Z. Mohd Jenu, S. Z. Sapuan

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引用次数: 1

摘要

印制电路板(PCB)走线是最重要的PCB辐射发射源之一。随着走线长度与波长相当，这些走线的电长度变得越来越长，从而导致更高的RE。因此，预测RE以避免不符合测试问题至关重要。本文建立了一种神经网络多层感知器(MLP)模型来预测PCB走线的辐射发射。然后使用基于最近开发的封闭形式方程生成的数据集对MLP模型进行训练和测试。结果表明，利用该模型可以很好地估计辐射发射，避免了耗时的模拟和昂贵的原型室测试。制作了双层PCB板，并在半消声室(SAC)中进行了测量，验证了所提出的神经网络模型。此外，测量结果与提出的模型结果之间得到了合理的一致性。

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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Neural network based model for radiated emissions prediction from high speed PCB traces

Printed Circuit Board (PCB) traces are one of most important PCB Radiated Emissions (RE) sources. These traces is becoming electrically long as the trace length is comparable with the wavelength resulting in higher RE. Therefore, it is essential to predict the RE to avoid out of compliance test issues. In this paper, a neural network Multi-Layer Percetron (MLP) model is developed to predict the radiated emissions of PCB traces. The MLP model is then trained and tested using data set generated based recently developed closed-form equations. Results had shown that a good estimate of the radiated emissions can be obtained using this developed model avoiding both the time-consuming simulations and expensive prototype testing in the compliance chambers. Double-layer PCB is fabricated to validate the proposed neural network model by measurement in a Semi Anechoic Chamber (SAC). Moreover, reasonable agreements are obtained between the measurement and proposed model results.

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2014 International Conference on Computer, Communications, and Control Technology (I4CT)

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