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Electrical Engineering

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14.11.2016 | Original Paper

Effect of power factor on torque capability of FOC induction machine in field weakening region for propulsion systems

verfasst von: G. K. Nisha, Z. V. Lakaparampil, S. Ushakumari

Erschienen in: Electrical Engineering | Ausgabe 3/2017

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Abstract

Propulsion system used in applications like electric traction, rolling stock, etc. requires high torque at low speed for starting and climbing and nearly constant power at high speed. Induction machines, which are rugged, reliable, low cost and has less maintenance, satisfy the characteristics of the propulsion and reinstating the traditionally used DC series motor for this purpose. Field oriented control (FOC) of induction machines can decouple its torque control from field control and extended speed range operation with constant power beyond rated speed by field weakening (FW). It is desirable to retain maximum torque capability in the FW region for propulsion applications at high speed. To produce maximum torque that machine could possibly develop at FW region, the maximum inverter voltage and current must be appropriately utilized. This paper proposes an innovative approach to improve the torque capability of induction machine in FW region by modifying the design of induction machine to change the bahaviour of the machine to suit propulsion requirements. Extensive simulation of the design options generated from the design modification has been carried out using MATLAB/Simulink and torque-speed characteristics are compared.

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Zeraoulia M, Benbouzid MEH, Diallo D (2006) Electric motor drive selection issues for HEV propulsion systems: a comparative study. IEEE Trans Veh Technol 55(6):1756–1764CrossRef

Rub HA, Iqbal A, Guzinski J (2012) High performance control of AC drives. Wiley, New York, pp 375–388

Kim SH, Sul SK (1995) Maximum torque control of an induction machine in the field weakening region. IEEE Trans Ind Appl 31(4):787–794CrossRef

Shin MH, Hyun DS, Cho SB (2002) Maximum torque control of stator flux oriented induction machine drive in the field weakening region. IEEE Trans Ind Appl 38(1):117–122CrossRef

Bunte A, Grotstollen H, Krafka P (1996) Field weakening of induction motors in a very wide region with regard to parameter uncertainties. In: Proceedings of IEEE power electronics specialists conference PESC, June 1996, pp 944–950

Kim SH, Sul SK (1997) Voltage control strategy for maximum torque operation of an induction machine in the field weakening region. IEEE Trans Ind Appl 44(4):512–518

Harnefors L, Pietilanen K, Gertmar L (2001) Torque-maximizing field weakening control: design, analysis and parameter selection. IEEE Trans Ind Electron 48(1):161–168CrossRef

Mengoni M, Zari L, Tani A, Serra G, Casadei D (2008) Stator flux vector control of induction motor drive in the field weakening region. IEEE Trans Power Electron 23(2):941–949CrossRef

Lin PY, Lai YS (2011) Novel voltage trajectory control for field-weakening operation of induction motor drives. IEEE Trans Ind Appl 47(1):122–127CrossRef

10.

Levi E, Wang M (2002) A speed estimator for high performance sensorless control of induction motors in the field weakening region. IEEE Trans Power Electron 17(3):365–378CrossRef

11.

Leonhard W (1996) Control of electrical drives. Springer, New York, pp 163–180

12.

Lakaparampil ZV, Fathima KA, Ranganathan VT (1996) Design modeling simulation and implementation of vector controlled induction motor drive. Proc Power Electron Drive Syst 2:862–868

13.

Nisha GK, Lakaparampil ZV, Ushakumari S (2012) Sensorless vector control of SVPWM fed induction machine using MRAS—sliding mode. In: Proceedings of IEEE international conference on green technology, ICGT 2012, December 2012, pp 29–36

14.

Holmes DG, Lipo TA (2003) Pulse width modulation for power converters: principles and practice. Wiley IEEE Press, New JerseyCrossRef

15.

Nisha GK, Ushakumari S, Lakaparampil ZV (2012) Method to eliminate harmonics in PWM: a study for single phase and three phase. In: Proceedings of international conference on emerging technology trends on advanced engineering research, ICETT 2012, Kollam, India, February 2012, pp 598–604

16.

Nisha GK, Ushakumari S, Lakaparampil ZV (2012) Harmonic elimination of space vector modulated three phase inverter. Lecture notes in engineering and computer science. In: Proceedings of the international multi-conference of engineers and computer scientists 2012, March 2012, pp 1109–1115

17.

Nisha GK, Ushakumari S, Lakaparampil ZV (2012) CFT based optimal PWM strategy for three phase inverter. In: Proceedings of IEEE international conference on power, control and embedded systems. ICPCES 2012, December 2012, pp 1–6

18.

Nisha GK, Ushakumari S, Lakaparampil ZV (2012) Online harmonic elimination of SVPWM for three phase inverter and a systematic method for practical implementation. IAENG Int J Comput Sci 39(2):220–230

19.

Sul S-K (2011) Control of electric machine drive systems. Wiley, New Jersey, pp 255–267

20.

Nisha GK, Lakaparampil ZV, Ushakumari S (2013) FFT analysis for field oriented control of SPWM and SVPWM inverter fed induction machine with and without sensor. Int J Adv Electr Eng 2(4):151–160

21.

Nisha GK, Lakaparampil ZV, Ushakumari S (2013) Sensorless field oriented control of SVM inverter fed induction machine in field weakening region using sliding mode observer. Lecture notes in engineering and computer science. In: Proceedings of the 7th world congress on engineering, London, July 2013, pp 1174–1181

22.

Nisha GK, Lakaparampil ZV, Ushakumari S (2013) Performance study of field oriented controlled induction machine in field weakening using SPWM and SVM fed inverters. Int Rev Model Simul 6(3):741–752

23.

Nisha GK, Lakaparampil ZV, Ushakumari S (2013) Four quadrant operation of sensorless FOC induction machine in field weakening region using MRAS—sliding mode observer. In: Proceedings of IEEE international conference on control communication and computing, ICCC, Trivandrum, India, December 2013, pp 33–38

24.

Nisha GK, Lakaparampil ZV, Ushakumari S (2014) Effect of leakage inductance on torque capability of field oriented controlled induction machine in field weakening region. In: International conference on advances in engineering and technology ICAET, March 2014, pp 741–752

25.

Nisha GK, Lakaparampil ZV, Ushakumari S (2014) Four quadrant operation of field weakened FOC induction motor drive using sliding mode observer. In: Transactions on engineering technologies, Springer publication, May 2014, special volume of WCE, pp 385–402

Titel: Effect of power factor on torque capability of FOC induction machine in field weakening region for propulsion systems
verfasst von: G. K. Nisha
Z. V. Lakaparampil
S. Ushakumari
Publikationsdatum: 14.11.2016
Verlag: Springer Berlin Heidelberg
Erschienen in: Electrical Engineering / Ausgabe 3/2017
Print ISSN: 0948-7921
Elektronische ISSN: 1432-0487
DOI: https://doi.org/10.1007/s00202-016-0479-x

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