一种针对高达1ghz的汽车大电流注入(BCI)测试装置的广义精确建模方法

2013 9th International Workshop on Electromagnetic Compatibility of Integrated Circuits (EMC Compo) Pub Date : 2013-12-01 DOI:10.1109/EMCCOMPO.2013.6735174

S. Miropolsky, Alexander Sapadinsky, S. Frei

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引用次数: 19

摘要

开发免疫试验装置的精确系统模型可能非常耗时，甚至不可能。本文以BCI测试装置为例，提出了一种新的通用方法来建立不同系统级EMC测试装置的精确的基于组件的模型。在低频范围内，将元件等效电路建模与高频范围内基于测量的宏观建模相结合。所开发的模型具有高达1ghz的高精度。可以解决浮动PCB配置和低频行为合并的问题。频率和时域模拟都是可能的。可以使用建议的组件模型快速组装任意系统配置。任何类型的系统仿真，如参数变化和最坏情况分析，可以进行高精度。

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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A generalized accurate modelling method for automotive bulk current injection (BCI) test setups up to 1 GHz

Development of accurate system models of immunity test setups might be extremely time consuming or even impossible. Here a new generalized approach to develop accurate component-based models of different system-level EMC test setups is proposed on the example of a BCI test setup. An equivalent circuit modelling of the components in LF range is combined with measurement-based macromodelling in HF range. The developed models show high accuracy up to 1 GHz. The issues of floating PCB configurations and incorporation of low frequency behaviour could be solved. Both frequency and time-domain simulations are possible. Arbitrary system configurations can be assembled quickly using the proposed component models. Any kind of system simulation like parametric variation and worst-case analysis can be performed with high accuracy.

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来源期刊

2013 9th International Workshop on Electromagnetic Compatibility of Integrated Circuits (EMC Compo)

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