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Input-Output Feedback Linearization of Sensorless IM Drives with Stator and Rotor Resistances Estimation  

Hajian, Masood (Dept. of Electrical and Computer Eng., Isfahan University of Technology)
Soltani, Jafar (Dept. of Electrical and Computer Eng., Isfahan University of Technology)
Markadeh, Gholamreza Arab (Eng.Department, Shahrekord University)
Hosseinnia, Saeed (Dept. of Electrical and Computer Eng., Isfahan University of Technology)
Publication Information
Journal of Power Electronics / v.9, no.4, 2009 , pp. 654-666 More about this Journal
Abstract
Direct torque control (DTC) of induction machines (IM) is a well-known strategy of these drives control which has a fast dynamic and a good tracking response. In this paper a nonlinear DTC of speed sensorless IM drives is presented which is based on input-output feedback linearization control theory. The IM model includes iron losses using a speed dependent shunt resistance which is determined through some effective experiments. A stator flux vector is estimated through a simple integrator based on stator voltage equations in the stationary frame. A novel method is introduced for DC offset compensation which is a major problem of AC machines, especially at low speeds. Rotor speed is also determined using a rotor flux sliding-mode (SM) observer which is capable of rotor flux space vector and rotor speed simultaneous estimation. In addition, stator and rotor resistances are estimated using a simple but effective recursive least squares (RLS) method combined with the so-called SM observer. The proposed control idea is experimentally implemented in real time using a FPGA board synchronized with a personal computer (PC). Simulation and experimental results are presented to show the capability and validity of the proposed control method.
Keywords
Induction Motor; Direct Torque Control; Input-Output; Stator Flux; Sliding Mode; RLS;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
Times Cited By Web Of Science : 2  (Related Records In Web of Science)
Times Cited By SCOPUS : 2
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1 A. Benchaib, et. aI., "Sliding mode input-output linearization and field orientation for real-time control of induction motors," IEEE Trans on Pow. Elec., Vol.14, pp. 3-13, Jan. 1999   DOI   ScienceOn
2 J. Holtz, et. aI., "Drift and parameter compensated flux estimator for persistent zero stator frequency operation of sensorless controlled induction motors," IEEE Trans. on Ind. App., pp. 1052-1060, July 2003
3 B.Karanayil, et aI., "Online stator and rotor resistance estimation scheme using artificial neural networks for vector controlled speed sensorless induction motor drive," IEEE Trans. on Ind. Elec., Vol. 54, pp.167-176, Feb. 2007   DOI
4 G. R. Arab, J Soltani, "Robust direct torque control of adjustable speed sensorless induction machine drive based on space vector modulation using a PI predictive controller," Springer, pp. 485-496, 2006
5 J. Rodriguez, et aI., "Simple direct torque control of induction machine using space vector modulation," Elec. Let., Vol. 40, pp. 412-413, April 2004   DOI   ScienceOn
6 M. Bertoluzzo, et aI., "Direct torque control of an induction motor using a single current sensor," IEEE Trans. on Ind. Elec., Vol. 53, pp. 778-784, 2006   DOI
7 J.A. Santisteban, R.M. Stephan, "Vector control methods for induction machines: an overview," IEEE Trans. on Edu., Vol. 44, pp.170-175, 2001   DOI   ScienceOn
8 K.J. Astrom, et. aI., Adaptive control, Addison-Wesley Longman Publishing Co., 2nd Ed., 1994
9 J. Soltani, M. Hajian, "Adaptive fuzzy sliding mode control of speed sensorless universal field oriented induction motor drive with on-line stator resistance tuning," Iranian Journal of Science & Technology, Vol. 29, Trans. B., 2005
10 C. Aurora, et aI., "Design and experimental test of a speed/flux sliding mode observer for sensorless induction motors," in Proc. of American Control Conf, pp. 5881-5886, July 2007
11 C. Lascu, et. aI., "Direct torque control of sensorless induction motors: A sliding mode approach," IEEE Trans. on Ind. App., Vol. 40, pp. 582-590, March/April 2004   DOI   ScienceOn
12 M. Salem, "Classical controller with intelligent properties for speed control of vector controlled induction motor," Journal of Power Electronics, Vol. 8, No.3, pp. 210-216, 2008
13 L. Hong, et aI., "Implementation of direct torque control using matrix converter fed induction motor," Journal of Power Electronics, Vol. 8, No.1, pp. 74-80, 2008
14 M. Barut, et. aI., "Experimental evaluation of braided EKF for sensorless control of induction motors," IEEE Trans. on Ind. Elec., Vol. 55, pp.620-632, Feb. 2008   DOI
15 V. Ambrozic, et aI., "Band-constrained technique for direct torque control of induction motor," IEEE Trans. on Ind. Elec., Vol. 51, pp. 776-784, Aug. 2004   DOI   ScienceOn
16 S. Kaboli, E. Vahdati-Khajeh, M.R. Zolghadri, "Probabilistic voltage harmonic analysis of direct torque controlled induction motor drives," IEEE Trans. on Pow. Elec., vol. 21, July 2006, pp: 1041-1052   DOI   ScienceOn
17 J. Boldea, et. aI., The induction machine handbook, CRC Press, Chapter 13, 2002
18 L.S. Xuefang, et aI., "Implementation of hybrid control for motor drives," IEEE Trans. on Ind. Elec., Vol. 54, pp. 1946-1952, Aug. 2007   DOI
19 J. Hu, et. aI., "New integration algorithms for estimating motor flux over a wide speed range," IEEE Trans. Pow. Elec., Vol. 13, pp. 969-977, Sept. 1998   DOI   ScienceOn
20 N.R. Abjadi, et. aI., "Adaptive control of doubly fed field-oriented induction machine based on recursive least squares method taking the iron loss into account," in Proc. ofIPEMC2006, pp. 1-5, Aug. 2006
21 K.C. Veluvolu, et. aI., "Robust observer with sliding mode estimation for nonlinear uncertain systems," Control Theory & Applications, Vol. 1, pp. 1533-1540, Sept. 2007   DOI   ScienceOn