Un-terminated Black-Box EMI Models of Power Converters Driven by Random Modulation Strategies

2022 International Symposium on Electromagnetic Compatibility – EMC Europe Pub Date : 2022-09-05 DOI:10.1109/EMCEurope51680.2022.9901160

Lu Wan, A. Beshir, Xinglong Wu, Xiaokang Liu, F. Grassi, G. Spadacini, S. Pignari

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Abstract

Due to the development of renewable energy systems, there is an increasing need for tools to predict the Conducted Emissions (CE) exiting from power inverters, so to provide guidelines for optimal filter design. The objective is not only to limit the high-frequency noise injected into the distribution network (ac side) but also to protect the electronic circuitry on the dc side of the inverter. Hence, it is necessary to derive Electromagnetic Interference (EMI) models of the power inverter at both sides of the device. To this end, the (ac-side) behavioral model presented in previous works is here extended to predict the CE exiting both sides of a power inverter interfacing a PV panel to the distribution grid. Besides, suitable conditions for applying black-box modelling in the presence of random modulation strategies are investigated. It is proven that model effectiveness mainly depends on the base switching frequency and frequency band, while the effect of randomness does not significantly degrade prediction accuracy.

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随机调制策略驱动功率变换器的非端接黑盒电磁干扰模型

由于可再生能源系统的发展，人们越来越需要预测电力逆变器产生的传导排放(CE)的工具，从而为优化滤波器设计提供指导。其目的不仅是限制注入配电网(交流侧)的高频噪声，而且还要保护逆变器直流侧的电子电路。因此，有必要推导出器件两侧功率逆变器的电磁干扰(EMI)模型。为此，本文将之前研究中提出的(交流侧)行为模型进行扩展，以预测将光伏板连接到配电网的逆变器两侧的CE。此外，研究了在随机调制策略存在的情况下应用黑盒模型的合适条件。结果表明，模型的有效性主要取决于基基切换频率和频带，而随机性的影响不会显著降低预测精度。

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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2022 International Symposium on Electromagnetic Compatibility – EMC Europe

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