Leveraging Data-Driven Models for Accurate Analysis of Grid-Tied Smart Inverters Dynamics

• Main Authors: Subedi, Sunil, Guruwacharya, Nischal, Poudel, Bidur, Vasquez-Plaza, Jesus D, Andrade, Fabio, Fourney, Robert, Rekabdarkolaee, Hossein Moradi, Hansen, Timothy M, Tonkoski, Reinaldo
• Format: Journal Article
• Language: English
• Published: 03.10.2023
• Subjects: Computer Science - Systems and Control
• DOI: 10.48550/arxiv.2310.02056

The integration of power electronic converters (PECs) and distributed energy resources (DERs) in modern power systems has introduced dynamism and complexity. Accurate simulation becomes essential to comprehend the influence of converter domination on the power grid. This study addresses the fast-switching and stochastic behaviors exhibited by inverter-based resources in converter-dominated power systems, highlighting the necessity for precise analytical models. In the realm of modeling real-world systems, multiple methodologies exist. Notably, black-box and data-driven system identification techniques are employed to construct PEC models using experimental data, without relying on a priori knowledge of the internal system physics. This approach entails a systematic process of model class selection, parameter estimation, and model validation. While a range of linear and nonlinear model structures and estimation algorithms are at our disposal, it remains imperative to harness creativity and a profound understanding of the physical system to craft data-driven models that align seamlessly with their intended applications. These applications may encompass simulation, prediction, control, or fault detection. This report offers valuable insights into the collection of datasets from commercial off-the-shelf inverters, along with the presentation of intricate simulation models.