Study of Three Phase VSC Models for Controller Design by Using Port-Controlled Hamiltonian

Authors

Suppachai Roengriang, Witthawas Pongyart, Pisit Vanichchanunt

Abstract

The Port-Based system modeling is applied and becomes an attractive topic in the field of control engineering. Due to its energy based concept, it can model physical systems in an effective and systematic manner, e.g. Port-Controlled Hamiltonian approach. However different model structures can be obtained, if the system contains switching devices, e.g. voltage source converter. This paper presents two approaches for converter modeling and their effect on the system behavior, when the controller is designed by the IDA-PBC concept. The simulation results show that the responses of the closed loop system hardly depend on the structure of converter model, even the obtained controllers are different. Especially when the systems operate around the operating point.

Citation

Journal: 2020 17th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON)
Year: 2020
Volume:
Issue:
Pages: 656–659
Publisher: IEEE
DOI: 10.1109/ecti-con49241.2020.9158247

BibTeX

@inproceedings{Roengriang_2020,
  title={{Study of Three Phase VSC Models for Controller Design by Using Port-Controlled Hamiltonian}},
  DOI={10.1109/ecti-con49241.2020.9158247},
  booktitle={{2020 17th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON)}},
  publisher={IEEE},
  author={Roengriang, Suppachai and Pongyart, Witthawas and Vanichchanunt, Pisit},
  year={2020},
  pages={656--659}
}

Download the bib file

References

Ortega, R., van der Schaft, A., Maschke, B. & Escobar, G. Interconnection and damping assignment passivity-based control of port-controlled Hamiltonian systems. Automatica 38, 585–596 (2002) – 10.1016/s0005-1098(01)00278-3
Hengchun Mao, Boroyevich, D. & Lee, F. C. Y. Novel reduced-order small-signal model of a three-phase PWM rectifier and its application in control design and system analysis. IEEE Trans. Power Electron. 13, 511–521 (1998) – 10.1109/63.668114
Ortega, R. & García-Canseco, E. Interconnection and Damping Assignment Passivity-Based Control: A Survey. European Journal of Control 10, 432–450 (2004) – 10.3166/ejc.10.432-450
Escobar, G., van der Schaft, A. J. & Ortega, R. A Hamiltonian viewpoint in the modeling of switching power converters. Automatica 35, 445–452 (1999) – 10.1016/s0005-1098(98)00196-4
Serra, F. M., De Angelo, C. H. & Forchetti, D. G. Interconnection and damping assignment control of a three-phase front end converter. International Journal of Electrical Power & Energy Systems 60, 317–324 (2014) – 10.1016/j.ijepes.2014.03.033
Serra, F., De Angelo, C. & Forchetti, D. Passivity Based Control of a Three-Phase Front End Converter. IEEE Latin Am. Trans. 11, 293–299 (2013) – 10.1109/tla.2013.6502819
Ortega, R., van der Schaft, A., Maschke, B. & Escobar, G. Energy-shaping of port-controlled Hamiltonian systems by interconnection. Proceedings of the 38th IEEE Conference on Decision and Control (Cat. No.99CH36304) vol. 2 1646–1651 – 10.1109/cdc.1999.830260
van der Schaft, A. & Jeltsema, D. Port-Hamiltonian Systems Theory: An Introductory Overview. (2014) doi:10.1561/9781601987877 – 10.1561/9781601987877