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Abstract
Abstract— In recent years, sensorless modes of operation are becoming most convenient and standard solutions in the areas of electric drives. This paper explains about sensorless speed control of induction motor with a predictive current controller. The closed loop estimation system with at most robustness against any parameter variations is used for the control approach. In this paper further a noval scheme implementing Space Vector pulse width modulation is also proposed increasing overall stability. Here a Space Vector Pulse width modulated VSI is used to feed the IM. The simulation results illustrate the performance of IM on various conditions. The results are then compared with the conventional types verifying this scheme has better performance than the others.Â
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How to Cite
Prasanth P Kumar, R. S. K., & CR, A. K. (2015). Sensorless Sliding Mode Control of Induction Machine Based On SVPWM. International Journal of Emerging Trends in Science and Technology, 2(04). Retrieved from https://ijetst.igmpublication.org/index.php/ijetst/article/view/606
References
1. F. Alonge, F. D’Ippolito, and A. Sferlazza, “Sensorless control of induction-motor drive based on robust Kalman filter and adaptive speed estimation,†IEEE Trans. Ind. Electron., vol. 61, no. 3, pp. 1444–1453, Mar. 2014.
2. Rodrigo, Padilha,Vieira, Cristiane Cauduro Gastaldini Rodrigo ZelirAzzolin, and Hilton AbÃlioGründling “Sensorless Sliding-Mode Rotor Speed Observer of Induction Machines Based on Magnetizing Current Estimation†IEEE Trans. Ind. Electron, vol. 61, no. 9, pp. 443-455, Sept. 2014.
3. M. AhmadiehKhanesar, E. Kayacan, M. Teshnehlab, and O. Kaynak,“Extended Kalman filter based learning algorithm for type-2 fuzzy logic systems and its experimental evaluation,†IEEE Trans. Ind. Electron., vol. 59, no. 11, pp. 4443–4455, Nov. 2012.
4. T. Orlowska-Kowalska and M. Dybkowski, “Stator-current-based MRAS estimator for a wide range speed-sensorless induction-motor drive,†IEEE Trans. Ind. Electron., vol. 57, no. 4, pp. 1296–1308, Apr. 2010.
5. S. M. Gadoue, D. Giaouris and J. W. Finch, â€MRAS sensorless vector control of an induction motor using new sliding mode and fuzzy logic adaption mechanisms,†IEEE Trans. Energ. Conv., vol. 25, no. 2, pp. 394-402, Jun. 2010.
6. M. S. Zaky, M. M. Khater, S. S. Shokralla and H. A. Yasin, “Wide speed-range estimation with online parameter identification schemes of sensorless induc-tion motor drives,†IEEE Trans. Ind. Elect., vol. 56, no.5, pp. 1699-1707, May 2009.
7. J. W. Finch and D. Giaouris, “Controlled AC electrical drives,†IEEETrans. Ind. Ele-ctron., vol. 55, no. 1, pp. 1–11, Feb. 2008.
8. J. Holtz, “Sensorless control of induction machines—With or without signal injection†IEEE Trans. Ind. Electron., vol. 53, no. 1, pp. 7–30, Feb. 2006.
9. K. Ohyama, G. M. Asher, and M. Sumner, “Comparative analysis of experimental per-formance and stability of sensor less inducti-on motor drives,†IEEE Trans. Ind. Elect-ron., vol. 53, no. 1, pp. 178–186, Feb. 2006.
10. L. Ben-Brahim, “On the compensation of dead time and zero-current crossing for a PWM-inverter-controlled AC servo drive,†IEEE Trans. Ind. Electron., vol. 51, no. 5, pp. 1113–1117, Oct. 2004.
11. A. J. Koshkouei, A. S. I. Zinober, and K. J. Burnham, “Adaptive sliding mode back-stepping control of nonlinear systems with unmatched uncertainty,†Asian J. Control, vol. 6, no. 4, pp. 447–453, Dec. 2004.
12. J. Holtz and J. Quan, “Drift and parameter compensated flux estimator for persistent zero stator frequency operation of sensorless controlled induction motors,†IEEE Trans. Ind. Appl., vol. 39, no. 4, pp. 1052–1060, Jul./Aug. 2003.
13. S. H. Jeon K. K. Oh and J. Y. Choi, “Flux observer with online tuning of stator and rotor resistances for induction motors,†IEEE trans. On Ind. Electr., vol. 49. no. 3, pp. 653-664, June 2002.
14. Y. Zhang, 1. Changxi and Y.r. Utkin, Sensorless Sliding-Mode Control of induction Motors, IEEE Transactions on Industry Applications, Vo1. 47,No. 6, pp. 1286-1297, December 2000.
15. H. S. Shih and K. K. Shyu, “Nonlinear sliding-mode torque control with adaptive back stepping approach for induction motor drive,†IEEE Trans.Ind.Electron., vol. 46, no. 2, pp. 380–389, Apr. 1999
2. Rodrigo, Padilha,Vieira, Cristiane Cauduro Gastaldini Rodrigo ZelirAzzolin, and Hilton AbÃlioGründling “Sensorless Sliding-Mode Rotor Speed Observer of Induction Machines Based on Magnetizing Current Estimation†IEEE Trans. Ind. Electron, vol. 61, no. 9, pp. 443-455, Sept. 2014.
3. M. AhmadiehKhanesar, E. Kayacan, M. Teshnehlab, and O. Kaynak,“Extended Kalman filter based learning algorithm for type-2 fuzzy logic systems and its experimental evaluation,†IEEE Trans. Ind. Electron., vol. 59, no. 11, pp. 4443–4455, Nov. 2012.
4. T. Orlowska-Kowalska and M. Dybkowski, “Stator-current-based MRAS estimator for a wide range speed-sensorless induction-motor drive,†IEEE Trans. Ind. Electron., vol. 57, no. 4, pp. 1296–1308, Apr. 2010.
5. S. M. Gadoue, D. Giaouris and J. W. Finch, â€MRAS sensorless vector control of an induction motor using new sliding mode and fuzzy logic adaption mechanisms,†IEEE Trans. Energ. Conv., vol. 25, no. 2, pp. 394-402, Jun. 2010.
6. M. S. Zaky, M. M. Khater, S. S. Shokralla and H. A. Yasin, “Wide speed-range estimation with online parameter identification schemes of sensorless induc-tion motor drives,†IEEE Trans. Ind. Elect., vol. 56, no.5, pp. 1699-1707, May 2009.
7. J. W. Finch and D. Giaouris, “Controlled AC electrical drives,†IEEETrans. Ind. Ele-ctron., vol. 55, no. 1, pp. 1–11, Feb. 2008.
8. J. Holtz, “Sensorless control of induction machines—With or without signal injection†IEEE Trans. Ind. Electron., vol. 53, no. 1, pp. 7–30, Feb. 2006.
9. K. Ohyama, G. M. Asher, and M. Sumner, “Comparative analysis of experimental per-formance and stability of sensor less inducti-on motor drives,†IEEE Trans. Ind. Elect-ron., vol. 53, no. 1, pp. 178–186, Feb. 2006.
10. L. Ben-Brahim, “On the compensation of dead time and zero-current crossing for a PWM-inverter-controlled AC servo drive,†IEEE Trans. Ind. Electron., vol. 51, no. 5, pp. 1113–1117, Oct. 2004.
11. A. J. Koshkouei, A. S. I. Zinober, and K. J. Burnham, “Adaptive sliding mode back-stepping control of nonlinear systems with unmatched uncertainty,†Asian J. Control, vol. 6, no. 4, pp. 447–453, Dec. 2004.
12. J. Holtz and J. Quan, “Drift and parameter compensated flux estimator for persistent zero stator frequency operation of sensorless controlled induction motors,†IEEE Trans. Ind. Appl., vol. 39, no. 4, pp. 1052–1060, Jul./Aug. 2003.
13. S. H. Jeon K. K. Oh and J. Y. Choi, “Flux observer with online tuning of stator and rotor resistances for induction motors,†IEEE trans. On Ind. Electr., vol. 49. no. 3, pp. 653-664, June 2002.
14. Y. Zhang, 1. Changxi and Y.r. Utkin, Sensorless Sliding-Mode Control of induction Motors, IEEE Transactions on Industry Applications, Vo1. 47,No. 6, pp. 1286-1297, December 2000.
15. H. S. Shih and K. K. Shyu, “Nonlinear sliding-mode torque control with adaptive back stepping approach for induction motor drive,†IEEE Trans.Ind.Electron., vol. 46, no. 2, pp. 380–389, Apr. 1999