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Abstrakty
This paper study the dynamic modeling of three phases, 6/4 Switched reluctance motor (SRM). We have studied the models of electromagnetic field using the finite element method (FEM) for calculation flux linkage and static torque. From the modeling have found a nonlinear of dynamic model, the SRM model has been then tested in a matlab/simulink environment, using nonlinear 2D look-up tables created from its calculated flux linkage and static torque data. The simulation studies for hysteresis and voltage control strategies.
Czasopismo
Rocznik
Tom
Strony
149--153
Opis fizyczny
Bibliogr. 13 poz., rys., wykr.
Twórcy
autor
- Electrical Engineering Laboratory, Faculty of Technology University of Biskra 07000, Algeria
autor
- Mechanics Department, Faculty of Sciences & Technology University of Biskra 07000, Algeria
autor
- Electrical Engineering Laboratory, Faculty of Technology University of Biskra 07000, Algeria
autor
- Material Sciences Department, Faculty of Science University of Biskra 07000, Algeria
Bibliografia
- [1] C. Hao, P. Constantin, Large power analysis of switched reluctance machine system for coal mine, Mining Science and Technology 19 (2009) 657–659.
- [2] H. M. Hasanien, S. M. Muyeen, J. Tamura, Torque ripple minimization of axial laminations switched reluctance motor provided with digital lead controller, Energy Conversion and Management 51 (2010) 2402–2406.
- [3] H. Chen, V. Trifa, Design of 2000kw switched reluctance machine system, Procedia Earth and Planetary Science 1 (2009) 1380–1384.
- [4] W. Ding, D. Liang, R. Tang, A fast nonlinear variable structure equivalent magnetic circuit modeling for dualchannel switched reluctance machine, Energy Conversion and Management 52 (2011) 308–320.
- [5] M. Balaji, V. Kamaraj, Evolutionary computation based multi-objective pole shape optimization of switched reluctance machine, Electrical Power and Energy Systems 43 (2012) 63–69.
- [6] Q. Song, X. Wang, L. Guo, L. Cheng, Double switched reluctance motors parallel drive based on dual89c52 single chip microprocessors, Procedia Earth and Planetary Science 1 (2009) 1435–1439.
- [7] T. S. Chuang, Acoustic noise reduction of a 6/4 srm drive based on third harmonic real power cancellation and mutual coupling flux enhancement, Energy Conversion and Management 51 (2010) 546–552.
- [8] S. Shoujun, L. Weiguo, D. Peitsch, U. Schaefer, Detailed design of a high speed switched reluctance starter/generator for more/all electric aircraft, Chinese Journal of Aeronautics 23 (2010) 216–226.
- [9] S. Liu, G. Tan, G. Luo, X. Zhang, Z. Ma, Magnetic performance of shearer switched reluctance motors drive, Procedia Earth and Planetary Science 2 (2011) 98–103.
- [10] H. A. Zarchi, G. R. A. Markadeh, J. Soltani, Direct torque and flux regulation of synchronous reluctance motor drives based on input-output feedback linearization, Energy Conversion and Management 51 (2010) 71–80.
- [11] L. dos Reis, A. Coelho, O. Almeida, J. Campos, Modeling and controller performance assessment for a switched reluctance motor drive based on setpoint relay, ISA Transactions 48 (2009) 206–212.
- [12] H. J. Chen, S. L. Lu, L. X. Shi, Development and validation of a general-purpose asic chip for the control of switched reluctance machines, Energy Conversion and Management 50 (2009) 592–599.
- [13] S. C. Wang, An fully-automated measurement system for identifying magnetization characteristics of switched reluctance motors, Measurement 45 (2012) 1226–1238.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ac2937c3-2ddb-4486-a14c-e5638a3a20b2