Commenced in January 2007
Frequency: Monthly
Edition: International
Paper Count: 33122
Double Manifold Sliding Mode Observer for Sensorless Control of Multiphase Induction Machine under Fault Condition
Authors: Mohammad Jafarifar
Abstract:
Multiphase Induction Machine (IM) is normally controlled using rotor field oriented vector control. Under phase(s) loss, the machine currents can be optimally controlled to satisfy certain optimization criteria. In this paper we discuss the performance of double manifold sliding mode observer (DM-SMO) in Sensorless control of multiphase induction machine under unsymmetrical condition (one phase loss). This observer is developed using the IM model in the stationary reference frame. DM-SMO is constructed by adding extra feedback term to conventional single mode sliding mode observer (SM-SMO) which proposed in many literature. This leads to a fully convergent observer that also yields an accurate estimate of the speed and stator currents. It will be shown by the simulation results that the estimated speed and currents by the method are very well and error between real and estimated quantities is negligible. Also parameter sensitivity analysis shows that this method is rather robust against parameter variation.Keywords: Multiphase induction machine, field oriented control, sliding mode, unsymmetrical condition, manifold.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1109051
Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1823References:
[1] R. Kianinezhad, B. Nahid-Mobarakeh, L. Baghli, F. Betin, G.A. Capolino, "Modeling and Control of Six-Phase symmetrical Induction Machine Under Fault Condition Due to Open Phases", IEEE Trans on Industrial Electronics, Vol. 55, No. 5, MAY 2008.
[2] M. Comanescu, "Single and double compound manifold sliding mode observers for flux and speed estimation of the induction motor drive", Published in IET Electric Power Applications, October 2013.
[3] M. Jafarifar, R. Kianinezhad, S. GH. Seifosaadat, “Sliding Mode Sensorless Control of Symmetrical Six-Phase Induction Machines”, 6th international conference on electrical and electronic engineering (ELECO), 2009, Turkey.
[4] R. Kianinezhad, B. Nahidmobarakeh, F. Betin and G. A. Capolino, “Sensorless field-oriented control for six-phase induction machines”, IEEE Industry Applications Society Conference, IAS 2005; 2-6 Oct. 2005, Hong Kong.
[5] A. Derdiyok, "Speed-Sensorless Control of Induction Motor Using a Continuous Control Approach of Sliding-Mode and Flux Observer", IEEE Trans. Industrial Electronics, Vol. 52, No. 4, pp: 1170-1176, AUGUST 2005.
[6] Y. Zhao, T. A. Lipo, “Modelling and control of a multi-phase induction machine with structural unbalance. Part II: Field-oriented control and experimental verification,” IEEE Trans on Energy Conversion, Vol. 11, no. 3, pp. 578–584, Sep. 1996.
[7] G. K. Singh, K. Nam, and S. K. Lim, “A simple indirect field-oriented control scheme for multiphase induction machine,” IEEE Trans on. Industrial Electronics vol. 52, no. 4, pp. 1177–1184, Aug. 2005.
[8] C. B. Jacobina, R. S. Miranda, M. B. de R. Corrêa, A. M. N. Lima, “Disturbance-free operation of a six-phase AC motor drive system”, in Proc.35th Annu.PESC, Aachen, Germany, Jun. 20–25, 2004, vol. 2, pp. 925–931.
[9] G. K. Singh, Vinay Pant, ”Analysis of a Multiphase Induction Machine Under Fault Condition in a Phase- Redundant A.C. Drive Syste”, Electric Machines & Power Systems journal, Nov 2010.
[10] M. A. Fnaiech, F. Betin, G. Capolino and F. Fnaiech, “Fuzzy Logic and Sliding-Mode Controls Applied to Six-Phase Induction Machine With Open Phases”, IEEE Trans. on Industrial Electronics, VOL. 57, NO. 1, January 2010.