Robust Voltage Regulation for DC Microgrids via Passivity-Based Sliding Mode Control

Authors

Edoardo Vacchini, University of Pavia
Michele Cucuzzella, University of Groningen
Pablo Borja, School of Engineering, Computing and Mathematics
Antonella Ferrara, University of Pavia

ORCID

• Pablo Borja: 0000-0001-7744-0846

Abstract

This paper proposes a decentralized sliding mode control approach to the voltage regulation problem in a DC microgrid consisting of distributed generation units interconnected with each other through resistive-inductive power lines and supplying unknown nonlinear loads. In particular, the port-Hamiltonian structure of the system suggests the design of a suitable sliding manifold such that the system on this manifold exhibits desired passivity properties. This approach simplifies the control design and relaxes some restrictive assumptions required by other controllers proposed in the literature, while offering satisfactory performance.

DOI

10.1109/VSS61690.2024.10753420

Publication Date

2024-11-20

Publication Title

2024 17th International Workshop on Variable Structure Systems, VSS 2024

ISBN

9798350353686

ISSN

2165-4816

Keywords

passivity-based control, port-Hamiltonian systems, Sliding mode control

First Page

273

Last Page

278

Recommended Citation

Vacchini, E., Cucuzzella, M., Borja, P., & Ferrara, A. (2024) 'Robust Voltage Regulation for DC Microgrids via Passivity-Based Sliding Mode Control', 2024 17th International Workshop on Variable Structure Systems, VSS 2024, , pp. 273-278. Available at: 10.1109/VSS61690.2024.10753420