Abstract
Dynamical analysis and chaos control of a synchronous reluctance motor (SynRM) with a constant and sinusoidal load torque are studied in this paper. The SynRM with load vibration perturbation exhibits pitchfork bifurcation, steady state behavior, double-scroll chaotic attractor and coexistence of attractors between steady state behavior and double-scroll chaotic attractors. Furthermore, an analog circuit is designed and implemented in OrCAD-PSpice software to validate the dynamical behaviors found in the SynRM with load vibration perturbation during the numerical simulations. Finally, an adaptive backstepping sliding mode control is used to suppress the chaotic oscillations in the SynRM with load vibration perturbation. Numerical simulations confirm the effectiveness of the proposed controller.
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Acknowledgements
S.T.K. and P.R.N.T. wish to thank Prof. Paul Woafo (University of Yaounde I, Cameroon) for his valuable teachings and its fruitful advices. A.C.C. is grateful to Prof. Rene Yamapi (University of Douala, Cameroon) and Prof. Paul Woafo (University of Yaounde I, Cameroon) for their valuable teachings and their fruitful advices.
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Kingni, S.T., Cheukem, A., Tuwa, P.R.N. et al. Synchronous Reluctance Motor with Load Vibration Perturbation: Analysis, Electronic Implementation and Adaptive Backstepping Sliding Mode Control. Iran J Sci Technol Trans Electr Eng 45, 645–654 (2021). https://doi.org/10.1007/s40998-020-00390-w
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DOI: https://doi.org/10.1007/s40998-020-00390-w