Artificial Neural Network Based Identification of Multi-Operating-Point Impedance Model

Mengfan Zhang; Xiongfei Wang; Dongsheng Yang; Mads Graesboll Christensen

doi:10.1109/TPEL.2020.3012136

Artificial Neural Network Based Identification of Multi-Operating-Point Impedance Model

Mengfan Zhang, Xiongfei Wang, Dongsheng Yang, Mads Graesboll Christensen

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

48 Citationer (Scopus)

171 Downloads (Pure)

Abstract

The black-box impedance model of voltage source inverters (VSIs) can be measured at their terminals without access to internal control details, which greatly facilitate the analysis of inverter-grid interactions. However, the impedance model of VSI is dependent on its operating point and can have different profiles when the operating point is changed. This letter proposes a method for identifying the impedance model of VSI under a wide range of operating points. The approach is based on the artificial neural network (ANN), where a general framework for applying the ANN to identify the VSI impedance is established. The effectiveness of the ANN-based method is validated with the analytical impedance models.

Originalsprog	Engelsk
Artikelnummer	9151366
Tidsskrift	IEEE Transactions on Power Electronics
Vol/bind	36
Udgave nummer	2
Sider (fra-til)	1231-1235
Antal sider	5
ISSN	0885-8993
DOI	https://doi.org/10.1109/TPEL.2020.3012136
Status	Udgivet - feb. 2021

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10.1109/TPEL.2020.3012136

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title = "Artificial Neural Network Based Identification of Multi-Operating-Point Impedance Model",

abstract = "The black-box impedance model of voltage source inverters (VSIs) can be measured at their terminals without access to internal control details, which greatly facilitate the analysis of inverter-grid interactions. However, the impedance model of VSI is dependent on its operating point and can have different profiles when the operating point is changed. This letter proposes a method for identifying the impedance model of VSI under a wide range of operating points. The approach is based on the artificial neural network (ANN), where a general framework for applying the ANN to identify the VSI impedance is established. The effectiveness of the ANN-based method is validated with the analytical impedance models. ",

keywords = "Artificial neural networks, impedance measurement, multiple operating points, voltage source inverter",

author = "Mengfan Zhang and Xiongfei Wang and Dongsheng Yang and Christensen, {Mads Graesboll}",

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AU - Yang, Dongsheng

AU - Christensen, Mads Graesboll

PY - 2021/2

Y1 - 2021/2

N2 - The black-box impedance model of voltage source inverters (VSIs) can be measured at their terminals without access to internal control details, which greatly facilitate the analysis of inverter-grid interactions. However, the impedance model of VSI is dependent on its operating point and can have different profiles when the operating point is changed. This letter proposes a method for identifying the impedance model of VSI under a wide range of operating points. The approach is based on the artificial neural network (ANN), where a general framework for applying the ANN to identify the VSI impedance is established. The effectiveness of the ANN-based method is validated with the analytical impedance models.

AB - The black-box impedance model of voltage source inverters (VSIs) can be measured at their terminals without access to internal control details, which greatly facilitate the analysis of inverter-grid interactions. However, the impedance model of VSI is dependent on its operating point and can have different profiles when the operating point is changed. This letter proposes a method for identifying the impedance model of VSI under a wide range of operating points. The approach is based on the artificial neural network (ANN), where a general framework for applying the ANN to identify the VSI impedance is established. The effectiveness of the ANN-based method is validated with the analytical impedance models.

KW - Artificial neural networks

KW - impedance measurement

KW - multiple operating points

KW - voltage source inverter

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JO - IEEE Transactions on Power Electronics

JF - IEEE Transactions on Power Electronics

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Artificial Neural Network Based Identification of Multi-Operating-Point Impedance Model

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