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Indirect Vector Control of Multi Cage Induction Motor

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International Journal of Computer Applications
© 2013 by IJCA Journal
Volume 68 - Number 2
Year of Publication: 2013
Authors:
Neelakantha Guru
Santosh Kumar Mishra
B. Nayak
10.5120/11552-6829

Neelakantha Guru, Santosh Kumar Mishra and B Nayak. Article: Indirect Vector Control of Multi Cage Induction Motor. International Journal of Computer Applications 68(2):25-32, April 2013. Full text available. BibTeX

@article{key:article,
	author = {Neelakantha Guru and Santosh Kumar Mishra and B. Nayak},
	title = {Article: Indirect Vector Control of Multi Cage Induction Motor},
	journal = {International Journal of Computer Applications},
	year = {2013},
	volume = {68},
	number = {2},
	pages = {25-32},
	month = {April},
	note = {Full text available}
}

Abstract

This paper presents a methodology for indirect vector control of a double cage induction motor. Vector control or field oriented control offers more precise control of high performance drives where oscillations in air gap flux linkages are intolerable. The mathematical model of a double cage induction machine is proposed. The developed model is studied with constant V/f control taking the boost voltage into account and indirect vector control. A comparison is made between the two control methods. Finally Simulation results have shown better results with indirect vector control compared to constant V/f control.

References

  • VAS, P. , "Electric machines and drives. A space-vector theory approach", (Clarendon Press, Oxford, 1992).
  • J. Pedra,F. Corcoles and L. Sainz, "Effects of unsymmetrical voltage sags on squirrel-cage induction motors" IET Gener. Transm. Distrib. , Vol. 1, No. 5,September 2007, pp. 769–775.
  • Stephen J. Chapman, "Electric machinery fundamentals", McGraw-Hill,1991.
  • Jukov V. , "Short-circuit in electric system nodes with complex load", MEI, Moscow, 1994.
  • E. Levi and D. Rauski, "Modelling of deep-bar and double-cage self-exicited induction generators for wind-electricity generation studies," ELSEVIER Electric Power Systems Research, 27(1993), pp. 73–81.
  • D. O'Kelly and Simons, "Introduction to Generalised Electrical Machine Theory", McGraw-Hill, 1968.
  • Mohan, N. "Advanced Electric Drives. Analysis, Control and Modeling using Simulink®", MNPERE, 2001.
  • Adkins, B. "The General Theory of Electrical Machines" Chapman & Hall Ltd, 1962.
  • B. ArunaKumari, K. Naga Sujatha, K. Vaisakh, "Assessment of Stresses On Induction Motor
  • Under Different Fault Conditions",Journal of Theoretical and Applied Information Technology, 2009, pp. 772-779
  • W. Shepherd and J. Stanway, "An experimental closed-loop variable speed drive incorporating a thyristor driven induction motor," IEEE Trans. Ind. Gen. Applicat. , vol. IGA-3, pp. 559–565, Nov. /Dec. 1967.
  • A. Abbondanti, "Method of flux control in induction motors driven by variable frequency, variable voltage supplies," in Proc. IEEE-IAS Int. Semi-Annual Power Conversion Conf. , 1977, pp. 177–184.
  • K. Koga, R. Ueda, and T. Sonoda, "Constitution of V/f control for reducing the steady state speed error to zero in induction motor drive system," in Conf. Rec. IEEE-IAS Annu. Meeting, 1990, pp. 639–646.
  • I. Takahashi, T. Noguchi, A new quick response and high efficiency control strategy of an induction motor, in: Conf. Rec. IEEE-IAS Annu. Meeting, 1985, 495–502.
  • M. Depenbrock, Direct self-control for high dynamics performance of inverter feed a. c. machines, ETZ Arch. 7 (7) (1985) 211–218.
  • I. Boldea, S. A. Nasar, Torque vector control (TVC)—a class of fast and robust torque, speed and position digital controllers for electric drives, in: Conf. Rec. EMPS'88, vol. 15, 1988, 135–148.
  • D. Casadei, F. Profumo, G. Serra, A. Tani, FOC and DTC: two viable schemes for induction motors torque control, IEEE Trans. Power Electron. 17 (September) (2002) 779–787.
  • P. Pohjalainen, P. Tiitinen, J. Lalu, The next-generation motor control method—direct torque control, DTC, in: Conf. Rec. EPE'94, 1994, 115– 120.
  • J. -K. Kang, S. -K. Sul, New direct torque control of induction motor for minimum torque ripple and constant switching frequency, IEEE Trans. Ind. Appl. 35 (September/October) (1999) 1076–1082.
  • B. H. Kenny, R. D. Lorenz, Stator and rotor flux based deadbeat direct torque control of induction machines, in: Conf. Rec. IEEE-IAS Annu. Meeting, vol. 1, 2001, 133–139.