An Enhanced Ideal Transformer Method to Integrate Low-Voltage Power Hardware in Arbitrary Voltage Levels

Richter J, Resch S, Mehlmann G, Luther M (2023)

Publication Type: Conference contribution

Publication year: 2023

Conference Proceedings Title: IEEE Power & Energy Society General Meeting

Event location: Orlando

ISBN: 978-1-6654-6441-3

DOI: 10.1109/PESGM52003.2023.10252772

Abstract

Due to the integration of renewable energy systems into the power grid, converter-driven and resonance stability are becoming increasingly important. This has to be investigated either with accurate but computationally intensive models or via Power Hardware-in-the-Loop (PHiL) simulations. This paper proposes an enhanced Ideal Transformer Method that allows lowvoltage power hardware to be integrated into arbitrary simulated voltage levels by introducing a virtual turns ratio. The results show that, by using stability-preserving low-pass filters, a flexible integration of hardware into simulated grids can be realized and thus real converter behavior can be integrated into arbitrary areas of interest while maintaining the closed-loop stability of the PHiL coupling.

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How to cite

APA:

Richter, J., Resch, S., Mehlmann, G., & Luther, M. (2023). An Enhanced Ideal Transformer Method to Integrate Low-Voltage Power Hardware in Arbitrary Voltage Levels. In IEEE Power & Energy Society General Meeting. Orlando, US.

MLA:

Richter, Julian, et al. "An Enhanced Ideal Transformer Method to Integrate Low-Voltage Power Hardware in Arbitrary Voltage Levels." Proceedings of the IEEE PES GM, Orlando 2023.

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