Control systems of permanent magnet synchronous machine as port-controlled hamiltonian system

dc.citation.conferenceLitteris et Artibus
dc.contributor.affiliationLviv Polytechnic National Universityuk_UA
dc.contributor.authorBiletskyi, Yurii
dc.coverage.countryUAuk_UA
dc.coverage.placenameLvivuk_UA
dc.date.accessioned2018-03-13T13:28:28Z
dc.date.available2018-03-13T13:28:28Z
dc.date.issued2015
dc.description.abstractOne of the most perspective methods of control system design for permanent magnet synchronous motor as a part of electromechanical systems are energy-based approaches. The regulation in such systems is realized by forming energy function of the system. The energy-shaping control systems with present regulation elements provide worse response compare with classical systems and are hard to be configured. The main aims of this article are quick view of current energy-shaping control systems, overcoming disadvantages of them and popularization of energy-based approaches in general.uk_UA
dc.format.pages194-195
dc.identifier.citationBiletskyi Yu. Control systems of permanent magnet synchronous machine as port-controlled hamiltonian system / Yurii Biletskyi // Litteris et Artibus : proceedings of the 5th International youth science forum, November 26–28, 2015, Lviv, Ukraine / Lviv Polytechnic National University. – Lviv : Lviv Polytechnic Publishing House, 2015. – P. 194–195. – Bibliography: 9 titles.uk_UA
dc.identifier.urihttps://ena.lpnu.ua/handle/ntb/39633
dc.language.isoenuk_UA
dc.publisherLviv Polytechnic Publishing Houseuk_UA
dc.relation.referencesen[1] R. Ortega, A. J. van der Schaft, I. Mareels and B. Maschke, “Putting Energy Back in Control“, IEEE Contr. Syst. Mag., vol.21, no.2, pp.18-33, 2001. [2] R. Ortega, A. J. van der Schaft, F. Castanos and A. Astolfi, “Control by Interconnection and Standard Passivity-Based Control of Port-Hamiltonian Systems”, IEEE Trans. Aut. Control., vol.53, no.11, pp.2527-2542, 2008. [3] R. Ortega, A. J. van der Schaft, G. Escobar and B. Maschke, “Interconnection and damping assignment passivity-based control of port-controlled Hamiltonian systems”, Automatica, vol.38, pp.585- 596, 2002. [4] Z. Zou., Н. Yu and Y. Tang, “Maximum output power of PMSM based on energy-shaping and PWM control principle”, IEEE Intr. Conf. on Aut. and Log., pp.1556-1560, 2008. [5] F. Ramírez-Leyva, E. Peralta-Sánchez, J. J. Vásquez- Sanjuan and Trujillo-Romero, “Passivity-Based Speed Control for Permanent Magnet Motors”, Procedia Technology., vol.7, pp.215-222, 2013. [6] V. Petrovic, R. Ortega and A. M. Stankovic, “Interconnection and Damping Assignment Approach to Control of PM Synchronous Motors”, IEEE Conntr. Syst. Tech., vol.9, no.6, pp.811-820, 2001. [7] M. Khanchoul, M. Hilairet and D. Normand-Cyrot, “A passivity-based controller under low sampling for speed control of PMSM”, Control Engineering Practice, vol.26, pp.20-27, 2014. [8] H. Yu, S. Yu, J. Liu and J. Yu, “L2 Gain Disturbance Attenuation of PMSM Based on Hamiltonian Systems Control Theory”, in Proceedings of the 8th World Congress on Intelligent Control and Automation, pp.2502-2506, July. 2010. [9] I. Shchur and Y. Biletskyi, “Optimization of energyshaping control of port-controlled Hamiltonian system”, Computational problems of electrical engineering, vol.3, no.2, pp.101-106, 2013.uk_UA
dc.subjectpermanent magnet synchronous machineuk_UA
dc.subjectenergy-based approachuk_UA
dc.subjectvector controluk_UA
dc.subjectenergy-shaping control systemuk_UA
dc.subjectstructural and parametric synthesisuk_UA
dc.titleControl systems of permanent magnet synchronous machine as port-controlled hamiltonian systemuk_UA
dc.typeConference Abstractuk_UA

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