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http://yadda.icm.edu.pl:80/baztech/element/bwmeta1.element.baztech-article-BPP1-0081-0065

Czasopismo

Poznan University of Technology Academic Journals. Electrical Engineering

Tytuł artykułu

Comparison of different implementations of reluctance motor simulational model

Autorzy Burlikowski, W. 
Treść / Zawartość http://www.iee.put.poznan.pl/wydawnictwa/
Warianty tytułu
Konferencja International Symposium on Electrical Machines SME'07 / sympozjum [XLII; July 2007; Poznań]
Języki publikacji EN
Abstrakty
EN In the paper three alternative versions of reluctance motor simulational mode! are presented. In the state space description flux or current variables are employed without any variable transformation. Simplifying assumptions made in the model formulation are omission of eddy currents and hysteresis phenomenon. Motor parameters were obtained with the help of the finite element method. Influence of mechanical damping on the calculated results for different model implementations was verified.
Słowa kluczowe
EN reluctance motor   numerical modelling   finite element method   current   flux linkage  
Wydawca Wydawnictwo Politechniki Poznańskiej
Czasopismo Poznan University of Technology Academic Journals. Electrical Engineering
Rocznik 2007
Tom No 55
Strony 27--34
Opis fizyczny Bibliogr. 12 poz.
Twórcy
autor Burlikowski, W.
  • Silesian University of Technology, Faculty of Electrical Engineering
Bibliografia
[1]Krause P., Analysis of Electric Machinery McGraw-Hill, 1986.
[2]Daikoku A., Yamaguchi S., Design of Tooth-wound Permanent Magnet Synchronous Motors for Reducing Torque Ripples, CD-ROM Proc. of XV th ICEM’2002, Brugge -Belgium, August 2002.
[3]Hu Y., Torrey D.A., Study of the mutually coupled switched reluctance machine using the finite element-circuit coupled method, IEE Proceedings - Electric Power Applications, Vol.149, No.2, March 2002.
[4]Schlensok Ch., Henneberger G., Simulation of a PMSM with SIMPLORER-FLUX2DCoupling, CD-ROM Proc. of XV th ICEM’2002, Brugge - Belgium, August 2002..
[5]Łukaniszyn M., Jagieła M., Wróbel R., Influence of Magnetic Circuit Modifications on the Torque of a Disc Motor with Co-axial Flux in the Stator, CD-ROM Proc. of XV th ICEM’2002, Brugge - Belgium, August 2002.
[6]Schmid J., Kaiserseder M., Amrhein W., Schumacher A., Knecht G., Model based Open Loop Observer for the Phase Current of Switched Reluctance Motors, CD-ROM Proc. of XV th ICEM’2002, Brugge - Belgium, August 2002.
[7]Risse S., Henneberger G., Design and Optimization of a Switched Reluctance Motors for Electric Vehicle Propulsion, Proc. of XIV th ICEM’2000, Espoo Finland, August 2000.
[8]Burlikowski W., Model matematyczny silnika reluktancyjnego pozwalający na pośrednie sprzężenie metody zmiennych stanu i metod polowych, Przegląd Elektrotechniczny 12’2003.
[9]Burlikowski W., Wpływ zjawiska nasycenia obwodu magnetycznego na metodykę formułowania modelu matematycznego silnika reluktancyjnego. Proceedings of XLI International Symposium on Electrical Machines, Poland, Opole-Jarnołtówek, 14-17 June 2005, s.131-135.
[10]Burlikowski W., Mathematical model of an electromechanical actuator using flux state variables applied to reluctance motor, COMPEL, Vol. 25, No.l, 2006, pp. 169-180.
[11]Lipo T.A., Krause P.C., Stability analysis of a reluctance-synchronous machine, IEEE Trans. On Power Apparatus and Systems, Vol. PAS-86, No.7, July 1967.
[12]Stumberger G., Stumberger B., Dolinar D., Identification of Linear Synchronous Reluctance Motor Parameters, IEEE Transactions on Industry Applications, Vol. 40, No. 5, September/october 2004, pp. 1317-1324.
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