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Tytuł artykułu

High performances of polynomial and nonlinear backstepping control strategies of an induction motor fed by matrix converter

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
PL
Wielomianowe I nieliniowe sterowanie silenikiem indukcyjnym za pośrednictwem przetwornika macierzowego
Języki publikacji
EN
Abstrakty
EN
The main objective of this paper is to present the performance analysis of the oriented flux control of an induction motor associated with a matrix converter. A polynomial technique of RST type is used for speed control. As for the control of internal current loops, the technique used is based on the nonlinear approach. Overall, the proposed feedback law is asymptotically stable, which is shown in the context of the Lyapunov theory. The design of the control laws by the backstepping technique has been detailed while taking account of the non-linearities in the design phase of the control system. The objective is to obtain a good transient response and a good capacity of rejection of charge disturbance. The induction motor incorporating the proposed control techniques (RST-Backstepping) has been successfully implemented in numerical simulation using Matlab/Simulink under different operating conditions where the static and dynamic responses of the system are evaluated. It can be seen that the proposed control technique provides good speed monitoring performance. For internal loops, overall stability is ensured and the proposed approach presents good robustness to the uncertainties of the system parameters.
PL
W artykule zaprezentowano analizę właściwości sterowania silnikiem indukcyjnym za pośrednictwem przetwornika macierzowego. Zastosowano wielomianową technikę RST do sterowania prędkością. Do sterowania pętlą prądową zastosowano metodę nieliniową. Zaproponowane sprzężenie zwrotne jest asymtotycznie stabilne w konteksście teorii Lapunova. Numeryczne symulacje wykazały skuteczność zaproponowanej metody.
Rocznik
Strony
133--139
Opis fizyczny
Bibliogr. 27 poz., rys.
Twórcy
  • University Ibn Khaldoun, Department of Electrical Engineering, Tiaret, Algeria
autor
  • University Ibn Khaldoun
autor
  • The university of Sciences &Technology of Oran
Bibliografia
  • [1] M. A Rahman, M. Vilathgamuwa, M. N. Uddin, and K. Tseng," Nonlinear Control of Interior Permanent-Magnet Synchronous Motor", IEEE Transactions on Industry Applications, Vol. 39, N°. 2, pp: 408-416.
  • [2] B. K. Bose, Power Electronics and Motor Drives, Pearson Education Inc., Delhi, India, 2003.
  • [3] W. Leonhard, "Control of Electrical Drives, " Springer-Verlag, 1990.
  • [4] L. Harnefors, M. Jansson, R. Ottersten and K. Pietilainen, "Unified sensorless vector control of synchronous and induction motors," IEEE Transactions on Industrial Electronics, vol. 50, no. 1, pp. 153-160, February 2003.
  • [5] RaduBojoi, Paolo Guglielmi and Gian-Mario Pellegrino, "Sensorless direct field-oriented control of three-phase induction motor drives for low-cost applications," IEEE Transactions on Industrial Applications, vol. 44, no. 2, pp. 475-481, March 2008.
  • [6] A. V. Ravi Teja, C. Chakraborty, S. Maiti, and Y. Hori, "A New Model Reference Adaptive Controller for Four Quadrant Vector Controlled Induction Motor Drives", IEEE Transactions on Industrial Electronics, vol. 59, no. 10, pp. 3757–3767, 2012.
  • [7] R. Trabelsi, A. Khedher, M.F. Mimouni, F.M. Sahli "Backstepping control for an induction motor using an adaptive sliding rotor-flux observer", Electr Power Syst Res, 93 (2012), pp. 1–15.
  • [8] Uddin MN, Chy MMI. "Development and Implementation of a nonlinear controller incorporating flux control for IPMSM. In: Proceedings of the 33rd annual conference of the IEEE industrial electronics society, IECON; 2007, p. 1067–72.
  • [9] N. Mansour, A. Djahbar, B. Mazari, "Matrix converter for sixphase induction machine drive system", ActaElectrotechnica et Informatica, 8 (2) (2008), pp. 64–69.
  • [10] Kianinezhad R, Seyfossadat, Talaeizadeh V, "A new DTC of six-phase induction machines using matrix converter" In: IEEE conference on advances in computational tools for engineering applications, ACTEA, 2009.
  • [11] R. Vargas, J. Rodrıguez, U. Ammann, and P. W. Wheeler, “Predictive current control of an induction machine fed by a matrix converter with reactive power control,” IEEE Trans. Ind. Elecron., vol. 55, no. 12, pp. 4372– 4380, Dec. 2008.
  • [12] R. Vargas, U. Ammann, B. Hudoffsky, J. Rodriguez, and P. Wheeler, “Predictive torque control of an induction machine fed by a matrix converter with reactive input power control,” IEEE Trans. Ind. Electron., vol. 25, no. 6, pp. 1426–1438, Jun. 2010.
  • [13] S. Li, T. A. Haskew, R. P. Swatloski, and W. Gathings, “Optimal and direct-current vector control of driven pmsg wind turbines,” IEEE Transactions on Power Electronics, vol. 27, pp. 2325–2337, May 2012.
  • [14] Ho and Sen, E.Y.Y. Ho, P.C. Sen, "A microcontroller-based induction motor drive system using variable structure strategy with decoupling", Industrial Electronics on IEEE Transactions, 37 (3) (1990), pp. 227–235.
  • [15] .M. Gutierrez-Villalobos, J. Rodriguez-Resendiz, E.A. Rivas-Araiza, V.H. Mucino, "A review of parameter estimators and controllers for induction motors based on artificial neural networks", Neurocomputing, 118 (2013), pp. 87–100.
  • [16] Kowalska et al., T.O. Kowalska, K. Szabat, K. Jaszczak, "The influence of parameters and structure of PI-type fuzzy controller on DC drive system dynamics", Fuzzy Sets and Systems, 131 (2) (2002), pp. 251–264.
  • [17] O. Barambones, P. Alkorta, "A robust vector control for induction motor drives with an adaptive sliding-mode control law", J FranklInst, 348 (2) (2011), pp. 300–314.
  • [18] Mehazzem F, Nemmour AL, Reama A, Benalla H., "Nonlinear integral backstepping control for induction motors". In: Proceedings of 2011 international Aegean conference on electrical machines and power electronics and 2011 Electromotion Joint Conference (ACEMP); 2011. p. 331–36.
  • [19] D. Traoré, J. De Leon, A. Glumineau, "Sensorless induction motor adaptive observer-backstepping controller: experimental robustness tests on low frequencies benchmark", IET Control Theory Appl, 48 (10) (2010), pp. 1989–2002.
  • [20] B.K. Bose, "Power electronics and AC drives," Englewood Cliffs, NJ, Prentice-Hall, 1986.
  • [21] B.K. Bose, "Power electronics and variable frequency Drives: Technology and applications," IEEE press 1997.
  • [22] B.K. Bose, "Modern power electronics and AC drives", Uper Saddle River, N.J: Printice Hall, 2002.
  • [23] Roy, G., et al. "Asynchronous operation of cycloconverter with improved voltage gain by employing a scalar control algorithm". in Conference Record of the 1987 IEEE Industry Applications Society Annual Meeting. Papers Presented at the 22nd Annual Meeting.1987. Atlanta, GA, USA: IEEE.
  • [24] Roy, G. and G.E."Cycloconverter operation under a new scalar control algorithm". in 20th Annual IEEE Power Electronics Specialists Conference - PESC'89, June 26-29, 1989. Milwaukee, WI, USA.
  • [25] A. Alesina and M. G. B. Venturini, "Solid-state power conversion: A Fourier analysis approach to generalized transformer synthesis", IEEE, Trans. Circuits Syst., vol. CAS-28, pp. 319–330, Apr. 1981.
  • [26] A. Alesina and M. Venturini, "Intrinsic amplitude limits and optimum design of 9-switches direct PWM AC–AC converters", in Proc. IEEE, PESC’88, vol. Apr., 1988, pp. 1284–1291.
  • [27] A. Alesina and M. G. B. Venturini, "Analysis and design of optimum amplitude nine-switch direct AC–AC converters", IEEE Trans. Power Electron., vol. 4, pp. 101–112, Jan. 1989.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-8b0164cd-d21a-4465-bf50-2005de6d09f1
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