Which Deepness Class Is Suited for Modeling Power Electronics?: A Guide for Choosing the Right Model for Grid-Integration Studies

De Carne G, Langwasser M, Ndreko M, Bachmann R, De Doncker RW, Dimitrovski R, Mortimer BJ, Neufeld A, Rojas F, Liserre M (2019)


Publication Type: Journal article

Publication year: 2019

Journal

Book Volume: 13

Pages Range: 41-55

Article Number: 8744337

Journal Issue: 2

DOI: 10.1109/MIE.2019.2909799

Abstract

The high implementation of renewable energy systems (RESs) and the need to increase transmission capacity across Europe (e.g., north-south Germany) have resulted in integrated power electronics (PE)-based solutions in electrical grids. PE allows more flexibility and control over power grids. Solutions such as high-voltage (HV) dc systems and flexible alternating current transmission systems (FACTS) increase energy transfer capabilities while preserving the system's safety (e.g., providing reactive power). Additionally, PE-based solutions, which are characterized by fast dynamic control actions, can support the grid during disturbances [e.g., a low-voltage ridethrough (LVRT) during faults]. These solutions are widely integrated into RES applications, where they enable maximized energy extraction from natural resources (e.g., the maximum power point tracker).

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APA:

De Carne, G., Langwasser, M., Ndreko, M., Bachmann, R., De Doncker, R.W., Dimitrovski, R.,... Liserre, M. (2019). Which Deepness Class Is Suited for Modeling Power Electronics?: A Guide for Choosing the Right Model for Grid-Integration Studies. Ieee Industrial Electronics Magazine, 13(2), 41-55. https://dx.doi.org/10.1109/MIE.2019.2909799

MLA:

De Carne, Giovanni, et al. "Which Deepness Class Is Suited for Modeling Power Electronics?: A Guide for Choosing the Right Model for Grid-Integration Studies." Ieee Industrial Electronics Magazine 13.2 (2019): 41-55.

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