电阻抗
电压源
鉴定(生物学)
输出阻抗
转换器
网格
电子工程
计算机科学
人工神经网络
四分之一波阻抗变压器
阻抗桥接
阻抗匹配
输入阻抗
工程类
电压
阻尼系数
电气工程
机器学习
数学
植物
生物
几何学
作者
Mengfan Zhang,Qianwen Xu,Xiongfei Wang
标识
DOI:10.1109/tie.2022.3177791
摘要
The wide integration of voltage source converters (VSCs) in power grids as the interface of renewables causes the converter-grid interaction stability challenge. The black-box impedance of VSCs identified at the converter terminal is the key to facilitate the study of converter-grid interaction stability. However, since the limited impedance data amount in online measurement, the existing impedance identification methods cannot accurately capture characteristics of the impedance model in various operating scenarios with the changing profiles of renewables and loads. In this article, a physics-informed neural network based impedance identification is proposed to fill this research gap. The physics knowledge of the VSC is used to compress the artificial neural network, which can reduce the calculation burden of online impedance identification. Meanwhile, the two-steps impedance identification is developed with the inspiration of the transfer learning theory to further increase the online impedance identification efficiency. This method can significantly reduce the required data amount used in online impedance identification for the online stability analysis with the changing operating points. The case studies confirm the effectiveness of the proposed method.
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