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Tytuł artykułu

Induction machine models in presence of saturation and iron loss: a comparative study

Identyfikatory
Warianty tytułu
PL
Modele maszyny indukcyjnej z uwzględnieniem nasycenia i strat w rdzeniu: studium porównawcze
Języki publikacji
EN
Abstrakty
EN
This paper describes the development of induction machine models that include magnetic saturation and iron losses by the space vector. To this effect, four models are reviewed: the first one is the linear model that assumes the entire simplified hypothesis; the second takes into account the saturation of the magnetising flux. The third and fourth models take into account the iron losses. Then an approach of induction machine modelling in which are introduced iron losses and saturation, is presented in this paper. Simulation and experimental results are performed to verify the validity of developed models for finally choosing the most precise.
PL
Artykuł przedstawia rozwój modeli maszyny indukcyjnej uwzględniających nasycenie rdzenia magnetycznego i straty w rdzeniu za pomocą wektora przestrzennego. Opisano cztery modele: pierwszy -liniowy, ze wszystkimi założeniami upraszczającymi, drugi - z uwzględnieniem zjawiska nasycenia, trzeci i czwarty - uwzględniające również straty w rdzeniu. Przedstawiono rezultaty badań symulacyjnych oraz laboratoryjnych umożliwiające weryfikację prezentowanych modeli w celu wyboru modelu najdokładniejszego.
Rocznik
Strony
129--146
Opis fizyczny
Bibliogr. 24 poz., tab., rys.
Twórcy
autor
autor
  • Laboratoire de Robotique, Parallélisme et Systemes Energétiques - Faculté de Génie Electrique et Informatique, Université des Sciences et de la Technologie, USTHB, Algiers, Algeria
Bibliografia
  • 1. B1aschke F.: The principal of field orientation as applied to the transvector closed-loop control system for rotating field machines. Siemens review, 34 (1972), pp. 217-220.
  • 2. Vas P.: Vector control of AC machine. Oxford/UK, Clarendon Press, 1990.
  • 3. Leonhard W.: Control of electrical drives. New York, Spinger Verlag, 1984.
  • 4. Moulahoum S., Touhami O., Ibtiouen R., Benhaddadi M.: Vector controlled induction machine by considering saturation. IEEE, Inter. Conf. On Computer and App., ICCTA, Alexandria, Egypt, 1998, pp. 169-174.
  • 5. Hildebrand E.N., Roehrdanz H.: Losses in Three-Phase Induction Machines Fed by PWM Converter. IEEE, Trans, Energy Conv., 16 (3), (2001), pp. 228-233.
  • 6. Benhaddadi M., Touhami O., Moulahoum S., Olivier G.: Iron core losses: Measurement and impact in induction motor vector control. IEEE, Instrumentation & Measurement technology conference IMTC'98, St-Paul, USA, 1998, pp. 723-727.
  • 7. Boldea I., Nasar S.A.: Unified treatment of core losses and saturation in orthogonal axis models of electric machines. Proc. IEE, 134 (B), (1987), pp. 353-363.
  • 8. Williamsons., Healy R.C.: Space vector representation of advanced motor models for vector controlled induction motors. Proc. IEE, Elect. Power App., 143 (1), (1996), pp. 69-77.
  • 9. Faiz J., Seifi A.R.: Dynamic analysis of induction motors with saturable inductances. Elec. Power System Research EPSR, 34 (1995), pp. 205-210.
  • 10. Liao Y.W., Levi E.: Modelling and simulation of a stand-alone induction generator with rotor flux oriented control. Elect. Power System Research EPSR, 46 (1998), pp. 141-152.
  • 11. Bispo D., Neto L.M., Resende J.T., Andrade D.A.: A New Strategy for Induction Machine Modelling Taking Into Account the Magnetic Saturation. IEEE Trans Indus. Appl, 37 (6), (2001), pp. 1710-1719.
  • 12. Levi E.: A unified approach to main flux saturation modelling in d-q axis models of induction machines. IEEE, Trans, Energy, Conv, 10 (3), (1995), pp. 455-461.
  • 13. Levi E., Sokola M., Boglietti A., Pastorelli M.: Iron loss in rotor flux oriented induction machines: Identification, Assessment of detuning and compensation. IEEE, Trans, Power Electronics, 11 (5), (1996), pp. 698-708.
  • 14. Wee S.D., Shin M.H., Hyun D.S.: Stator flux oriented control in induction motor considering iron loss. IEEE, Trans, Indus, Appl, 48 (3), (2001), pp. 602-608.
  • 15. Moulahoum S., Touhami O., Benhaddadi M.: Iron loss in vector controlled induction machine. Inter. Conf. on Electrical Machines, ICEM, Istanbul, Turkey, 1998, pp. 169-174.
  • 16. Garcia G.O., Santisteban J.A., Brignone S.D.: Iron loss influence on a field oriented controller. Annual Int, conf, IEEE Industrial Electronics Society IECON, Bologna, Italy, 1994, pp. 633-638.
  • 17. Sokola M., Levi E., Jamieson G., Williams D.: Representation and compensation of iron loss in rotor flux oriented induction machines. In proc, IEEE Int. Conf. Power Electronics, Drives and Energy systems for industrial growth PEDES, New Delhi, India, 1996, pp. 243-249.
  • 18. Jung J., Nam K.: A vector control scheme for EV induction motors with a series iron loss model. IEEE, Trans, Indus, Electronics, 45 (4), (1998), pp. 617-624.
  • 19. Jacobina C, Filho J., Lima A.: Estimating the Parameters of Induction Machines at Standstill. IEEE, Trans, Energy, Conv, 17 (1), (2002), pp. 85-89.
  • 20. Telford D., Dunnigan M., Williams B.: Online Identification of Induction Machine Electrical Parameters for Vector Control Loop Tuning. IEEE, Trans, Indus, Electronics, 50 (2), (2003), pp. 253-261.
  • 21. Klaes N.R.: Parameter identification of an Induction Machine with regard to dependencies on Saturation. IEEE Trans Indus Appl, 29 (6), (1993), pp. 1135-1140.
  • 22. Levi E., Soko1a M., Vukosavic S.: A Method for Magnetizing Curve Identification in Rotor Flux Oriented Induction Machines. IEEE, Trans, Energy, Conv, 15 (2), (2000), pp. 157-162.
  • 23. Stankovic A., Benedict E., John V., Lipo T.: A Novel Method for Measuring Induction Machine Magnetizing Inductance. IEEE Trans Ind Appl, 39 (5), (2003), pp. 1257-1263.
  • 24. Touhami O., Ibtiouen R., Moulahoum S., Mekhtoub S.: Analysis and compensation of parameters effect in vector controlled induction machine. AEE, Archives of Electrical Engineering, L(2), (2001), pp. 165-182.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPS2-0037-0002
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