Journal of Electrical and Computer Engineering Innovations (JECEI)
دوره 8، شماره 1 ، فروردین 2020، صفحه 19-30 اصل مقاله (1.39 M )
نوع مقاله: Original Research Paper
شناسه دیجیتال (DOI): 10.22061/jecei.2020.6664.355
نویسندگان
P. Hamedani* 1 ؛ A. Shoulaei 2
1 Department of Railway Engineering and Transportation Planning, University of Isfahan, Isfahan, Iran
2 Department of Electrical Engineering, Iran University of Science & Technology, Tehran, Iran.
تاریخ دریافت : 12 اسفند 1397 ،
تاریخ بازنگری : 08 شهریور 1398 ،
تاریخ پذیرش : 17 آذر 1398
چکیده
Background and Objectives: Despite superior privileges that multiphase motors offer in comparison with their three-phase counterparts, in the field of multiphase linear induction motors (LIMs) few studies have been reported until now. To combine the advantages of both multiphase motors and linear induction motors, this paper concentrates on multiphase LIM drives considering the end effects.Methods: The main contributions of this paper can be divided into two major categories. First, a comparative study has been conducted about the dynamic performance of Fuzzy Logic Controller (FLC) and Genetic-PI controller for a seven-phase LIM drive; and second, because of the superior performance of the FLC method revealed from the results, the harmonic pollution of the FLC based LIM drive has been studied in the case of supplying through a five-level Cascaded H-bridge (CHB) VSI and then compared with the traditional two-level VSI fed one.Results: The five-level CHB-VSI has utilized a multiband hysteresis modulation scheme and the two-level VSI has used the traditional three-level hysteresis modulation strategy. Note that for harmonic distortion assessment both harmonic and interharmonic components are considered in THD calculations.Conclusion: The results validate the effectiveness of the proposed FLC for seven-phase LIM drive supplied with five-level CHB-VSI and guarantee for perfect control characteristics, lower maximum starting current, and significant harmonic and interharmonic reduction.
کلیدواژهها
CHB Inverter ؛ Fuzzy Logic Controller ؛ Linear Induction Motor (LIM) ؛ Multiphase LIM ؛ Total Harmonic Distortion
مراجع
[1] E. Levi, R. Bojoi, F. Profumo, H. A., Toliyat, S. Williamson, "Multi-phase induction motor drives- a technology status review," IET Electr. Power Appl., 1(4): 489-516, 2007.
[2] E. Levi, M. Jones, S. N. Vukosavic, H. A. Toliyat, "Operating principles of a novel multiphase multimotor vector-controlled drive," IEEE Transaction on Energy Conversion, 19(3): 508-517, 2004.
[3] E. Levi, M. Jones, S. N. Vukosavic, H. A. Toliyat, "A novel concept of a multiphase, multimotor vector controlled drive system supplied from a single voltage source inverter," IEEE Transaction on Power Electronics, 19 (2): 320-335, 2004.
[4] E. Levi, M. Jones, S. N. Vukosavic, "Even-phase multi-motor vector controlled drive with single inverter supply and series connection of stator windings," IEE Proc. Electric Power Applications, 150 (5): 580-590, 2003.
[5] M. Jones, S. N. Vukosavic, D. Dujic, E. Levi, "A synchronous current control scheme for multiphase induction motor drives," IEEE Transaction on Energy Conversion, 24(4): 860-868, 2009.
[6] H. Xu, H. A. Toliyat, L. J. Petersen, "Five-phase induction motor drives with DSP-based control system," IEEE Transaction on Power Electronics, 17 (4): 524-533, 2002.
[7] G. K. Singh, K. Nam, S. K. Lim, "A simple indirect field-oriented control scheme for multiphase induction machine," IEEE Transaction on Industrial Electronics, 52(4): 1177-1184, 2005.
[8] S. Williamson, S. Smith, "Pulsating torque and losses in multiphase induction machines," IEEE Transaction on Industry Applications, 39(4): 986-993, 2003.
[9] E. E. Ward, H. Harer, "Preliminary investigation of an inverter-fed 5-phase induction motor," Proceedings IEE, 116(6): 980-984, 1969.
[10] G. K. Singh, "Multi-phase induction machine drive research- a survey," International Journal of Electric Power system Research, 61: 139-147, 2002.
[11] E. Levi, A. Iqbal, S. N. Vukosavic, H. A. Toliyat, "Modeling and control of a five-phase series-connected two-motor drive," in Proc. of the IEEE Industry Electronics Society Annual Meeting-IECON, Roanoke, VA,:208-213, 2003.
[12] E. Levi, S. N. Vukosavic, M. Jones, "Vector control schemes for series-connected six-phase two-motor drive systems," IEE Proceedings Electric Power Applications, 152(2): 226-238, 2005.
[13] A. Shiri, A. Shoulaei, "Design Optimization and Analysis of Single-Sided Linear Induction Motor, Considering All Phenomena," IEEE Trans. on Energy Conversion, 27 (2): 516-525, 2012.
[14] M. R. Satvati, S. Vaez-Zadeh, "End-Effect Compensation in Linear Induction Motor Drives," Journal of power electronics, 11(5): 697-703, 2011.
[15] Y. Han, Z. Nie, J. Xu, J. Zhu, J. Sun, "Mathematical model and vector control of a six-phase linear induction motor with the dynamic end effect," Journal of power electronics, 20(2): 698–709, 2020.
[16] A. H. Selcuk, H. Kurum, “Investigation of End Effects in Linear Induction Motors by Using the Finite-Element Method,” IEEE Transactions on Magnetics, 44(7): 1791-1795, 2008.
[17] J. Duncan, C. Eng, "Linear induction motor-equivalent-circuit model," IEE Proc. Power Application, 130(1): 51-57, 1983.
[18] K. Nam, J. H. Sung, "A new approach to vector control for linear induction motor considering end effects," in Proc. Of the IEEE Industry Applications Conference,: 2284-2289, 1999.
[19] G. Kang, K. Nam, "Field-oriented control scheme for linear induction motor with the end effect," IEE Proc. on Electric Power Appl., 152(1): 1565-1572, Nov. 2005.
[20] P. Hamedani, A. Shoulaie, J. M. M. Sadeghi, "Independent Control of Multiple Multiphase Linear Induction Motors Supplied From a Single Voltage Source Inverter," in Proc. of the 3rd International Conference on Recent Advances in Railway Engineering (ICRARE-2013), Tehran, Iran, May. 2013.
[21] J. Zhao, Z. Yang, J. Liu, T. Q. Zheng, "Indirect vector control scheme for linear induction motors using single neuron PI controllers with and without the end effects," in Proc. of the 7th Word Congress on Intelligent Control and Automation, china, : 5263-5267, 2018.
[22] E. F. Silva, E. B. Santos, P. C. M. Machado, M. A. A. Oliveira, "Vector control for linear induction motor," in Proc. of the 3rd IEEE International Conference on Industrial Technology (ICIT 2003), Maribor, Slovenia, :518-523, 2003.
[23] P. Hamedani, A. Shoulaie, "Modification of the field-weakening control strategy for linear induction motor drives considering the end effect," Advances in Electrical and Computer Engineering (AECE), 15(3): 3-12, 2015.
[24] J. Rodriguez, J. S. Lai, F. Z. Peng, "Multilevel Inverters: A Survey of Topologies, Controls, and Applications," IEEE Trans. Ind. Electron., 49, (4, :724-738, 2002.
[25] J. Rodriguez, S. Bernet, B. Wu, J. O. Pontt, S. Kouro, "Multilevel Voltage-Source-Converter Topologies for Industrial Medium-Voltage Drives," IEEE Trans. Ind. Electron., 54(6): 2930-2945, 2007.
[26] F. Khoucha, S. M. Lagoun, K. Marouani, A. Kheloui, M. E. H. Benbouzid, "Hybrid Cascaded H-Bridge Multilevel-Inverter Induction-Motor-Drive Direct Torque Control for Automotive Applications," IEEE Trans. Ind. Electron., 57(3), : 892-899, 2010.
[27] J. Rodriguez, L. Moran, P. Correa, C. Silva, "A Vector Control Technique for Medium-Voltage Multilevel Inverters," IEEE Trans. Ind. Electron., 49(4): 882-888, 2002.
[28] J. Wen, K. M. Smedley, "Hexagram Inverter for Medium-Voltage Six-Phase Variable-Speed Drives," IEEE Trans. Ind. Electron., 55(6), : 2473-2481, 2008.
[29] Z. Du, B. Ozpineci, L. M. Tolbert, J. N. Chiasson, J. N. "DC–AC Cascaded H-Bridge Multilevel Boost Inverter with No Inductors for Electric/Hybrid Electric Vehicle applications," IEEE Trans. Ind. Appl, 45(3): 963-970, 2009.
[30] R. Gupta, A. Ghosh, A. Joshi, "Multiband Hysteresis Modulation and Switching Characterization for Sliding-Mode-Controlled Cascaded Multilevel Inverter," IEEE Trans. Ind. Electron., 57(7): 2344-2353, 2010.
[31] A. Shiri, A. Shoulaie, "End effect braking force reduction in high-speed single-sided linear induction machine," International Journal of Energy Conversion and Management, Elsevier, 61: 43-50, 2012.
[32] A. Dehestani, S. Mohamadian, A. Shoulaie, "Unbalance Assessment and Apparent Power Decomposition in the Electric System of Interharmonic-producing Loads," European Transactions on Electrical Power. 24(2): 246-263, 2012.
[33] P. Hamedani, A. Shoulaie, "Indirect field oriented control of linear induction motors considering the end effects supplied from a cascaded H-bridge inverter with multiband hysteresis modulation," in Proc. of the 4th Power Electronics Drive Systems and Technologies Conference (PEDSTC), Tehran, Iran, :13-19, 2013.
[34] B. Mirzaeian, A. Kiyoumarsi, P. Hamedani, C. Lucas, "A new comparative study of various intelligent based controllers for speed control of IPMSM drives in the field-weakening region," International Journal of Expert Systems with Applications, Elsevier, 38(10): 12643-12653, 2011.
[35] M. H. J. Bollen, I. Y. H. Gu, "Signal Processing of Power Quality Disturbances," Piscataway, NJ, IEEE Press, :185-190, 2006.
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