Fast Response Three Phase Induction Motor Using Indirect Field Oriented Control (IFOC) Based On Fuzzy-Backstepping

  • Rizana Fauzi Politeknik Elektronika Negeri Surabaya
  • Dedid Cahya Happyanto Politeknik Elektronika Negeri Surabaya
  • Indra Adji Sulistijono Politeknik Elektronika Negeri Surabaya
DOI: https://doi.org/10.24003/emitter.v3i1.36

Abstract

Induction Motor in Electrical drive system at a accelleration speed for example in electric cars have a hard speed setting is set on a wide range, causing an inconvenience for motorists and a fast response is required any change of speed. It is necessary for good system performance in control motor speed and torque at low speed or fast speed response, which is operated by Indirect Field Oriented Control (IFOC). Speed control on IFOC methods should be better to improving the performance of rapid response in the induction motor. In this paper presented a method of incorporation of Fuzzy Logic Controller and Backstepping (Fuzzy-Backstepping) to improve the dynamically response speed and torque in Induction Motor on electric car, so we get smoothness at any speed change and braking as well as maximum torque of induction motor. Test results showed that Fuzzy-Backstepping can increase the response to changes speed in electric car. System testing is done with variations of the reference point setting speed control system, the simulation results of the research showed that the IFOC method is not perfect in terms of induction motor speed regulation if it’s not use speed control. Fuzzy-Backstepping control is needed which can improve the response of output, so that the induction motor has a good performance, small oscillations when start working up to speed reference.

Keywords: Fuzzy-Backstepping, IFOC, induction motor

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References

B. K. Bose, “Modern Power electronics and AC drives,†The University of Tennessee, Knoxville, USA, Prentice Hall, 2002.

B.Subudhi, Anish Kumar, “dSPACE implementation of Fuzzy Logic based Vector Control of Induction Motorâ€, IEEE (2009).

C. C. Channand K. T. Chau, Member, IEEE, An Overview of Power Electronics in Electric Vehicles, IEEE Transactions on Industrial Electronics, vol. 44, no. 1, February 1997.

Divya Rai ,Swati Sharma, Vijay Bhuria “Fuzzy Speed Controller Design of Three Phase Induction Motorâ€, IJETAE, Volume 2, Issue 5, May 2012.

Fauzi Rizana, Dedid C.H, Indra A, Fast Respon Three Phase Induction Motor Based on Indirect Field Oriented Control (IFOC) Using Fuzzy-PI, International Electrocic Symposium (IES), December 2014.

Fauzi Rizana, Dedid C.H, Indra A, Implementation of Direct Quadrate (D-Q) Modelling In Three Phase Induction Motor Speed Control Using Indirect Field Oriented Control (IFOC) Based On Hybrid Fuzzy-PI, The Fourth Indonesian-Japanese Conference on Knowledge Creation and Intelligent Computing (KCIC) 2015.

Rene Jager, ‘Fuzzy Logic in Controlâ€, PhD Thesis, Delft University, Holland, 1995.

Jerry M. Mendel, “Fuzzy Logic Systems for Engineering : A Tutorialâ€, Proceedings of the IEEE, Vol. 83, no. 3, 1995, pp. 345-377.

Nobuyoshi Mutoh, Satoru Kaneko, Taizou Miyazaki, Ryosou Masaki, and Sanshiro Obara, A Torque Controller Suitable for Electric Vehicles, IEEE Transactions On Industrial Electronics, vol. 44, no. 1, February 1997.

Dong-Choon Lee, Seung-Ki Sul and Min-Ho Park, High PerformanceCurrent Regulator for a Field-Oriented Controlled Induction Motor Drive,†IEEE Trans. on Industry Application, vol. 30, no. 5, pp. 1247-1257, 1994

Mariam Khan, and Narayan C. Kar, Performance Analysis of Fuzzy Based Indirect Field Oriented Control of Induction Motor Drives for Hybrid Electric Vehicles, IEEE.

Patakor Aini. F, Sulaiman. M, Ibrahim. Z, “Comparisson Performance Of Induction Motor Using SVPWM and Hysteresis Current Controllerâ€, Journal of Theoretical and Applied Information Technology, vol. 30 no. 1, 2011.

S. Peresada, A. Tonielli, and R. Morici, “High-Performance Indirect Field- Oriented Output-Feedback Control of Induction Motors,†ElsevierScience, S. Peresada et al./ Automatica, vol. 35, pp.1033-1047, 1999

Jae-Sung Yu, Sang-Hoon Kim, Fuzzy logic based Vector Control scheme for permanent magnet Synchronous motors in elevator drive applicantion, IEEE Trans on Industrial Electronics, Vol. 54 No. 4, Aug 2007.

M. Vasudevan, R. Arumugam, S.Paramasivam, High Performance Adaptive Intelligent Direct Torque Control Schemes for Induction Motor Drives, Serbian Journal Of Electrical Engineering, Vol. 2, No. 1, May 2005, 93 – 116.

Mamdani,E.H, Application Of Fuzzy Algoritms For Control Of Simple Dynamic Plant, Proc.Of IEEE, 12,1974, h.1585 – 1588.

Published
2015-06-01
How to Cite
Fauzi, R., Happyanto, D. C., & Sulistijono, I. A. (2015). Fast Response Three Phase Induction Motor Using Indirect Field Oriented Control (IFOC) Based On Fuzzy-Backstepping. EMITTER International Journal of Engineering Technology, 3(1), 92-114. https://doi.org/10.24003/emitter.v3i1.36
Issue
Vol 3 No 1 (2015)
Section
Articles

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