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Sterowanie wielopoziomowym symetrycznym przekształtnikiem USAMI przy wykorzystaniu algorytmów rojowych
Języki publikacji
Abstrakty
Harmonic Elimination Strategy (HES) has been a widely researched alternative to traditional PWM techniques. This paper presents the harmonic elimination strategy of a Uniform Step Asymmetrical Multilevel Inverter (USAMI) using Particle Swarm Optimization (PSO) which eliminates specified higher order harmonics while maintaining the required fundamental voltage. This method can be applied to USAMI with any number of levels. As an example, in this paper a seven-level USAMI is considered and the optimum switching angles are calculated to eliminate the fifth and seventh harmonics. The HES-PSO approach is compared to the well-known Sinusoidal Pulse-Width Modulation (SPWM) strategy. Simulation results demonstrate the better performances and technical advantages of the HES-PSO controller in feeding an asynchronous machine. Indeed, the harmonic distortions are efficiently cancelled providing thus an optimized control signal for the asynchronous machine. Moreover, the technique presented here substantially reduces the torque undulations.
W artykule zaprezentowano strategię eliminacji harmonicznych HES w przekształtniku wielopoziomowym asymetrycznym USAMI. Wykorzystano metodę algorytmów rojowych i porównano tę metodę z klasyczną metoda PWM.
Wydawca
Czasopismo
Rocznik
Tom
Strony
173--179
Opis fizyczny
Bibliogr. 25 poz., schem., tab., wykr
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autor
autor
autor
- Electrical Engineering Department, Hassiba Ben Bouali University, BP 151 Hay Es-Salam Chlef, Algeria, murad72000@yahoo.fr
Bibliografia
- [1] Rodriguez J., Lai J.S., Peng F.Z., Multilevel inverters: a survey of topologies, control and applications, IEEE Trans. Power Electron., 49 (2002), No. 3, 724-738
- [2] Baoming G., Peng F.Z., de Almeida A.T., Abu-Rub H., An Effective Control Technique for Medium-Voltage High-Power Induction Motor Fed by Cascaded Neutral-Point-Clamped Inverter, IEEE Trans. Ind. Electron., 57 (2010), No. 8, 2659-2668
- [3] Kojima H., Matsui K., Tsuboi K., Static Var compensator having active filter function for lower order harmonics, IEEE Conf. Ind. Electron. Soc., IECON’04, 2 (2004), 1133-1138
- [4] Rodriguez J., Bernet S., Steimer P.K., Lizama I.E., A Survey on Neutral-Point-Clamped Inverters, IEEE Trans. Ind. Electron., 57 (2010), No. 7, 2219-2230
- [5] Huang J., Corzine K.A, Extended operation of flying capacitor multilevel inverters, IEEE Trans. Power Electron., 21 (2006), No. 1, 140-147
- [6] Babaei E., A cascade Multilevel Converter Topology With Reduced Number of Switches, IEEE Trans. Power Electron., 23 (2008), No. 6, 2657-2664
- [7] Kouro S., Malinowski M., Gopakumar K., Pou J., Franquelo L.G., Wu B., Rodriguez J., Pérez M.A., Leon J.I., Recent Advances and Industrial Applications of Multilevel Converters, IEEE Trans. Ind. Electron., 57 (2010), No. 8, 2553-2580 PRZEGLĄD ELEKTROTECHNICZNY (Electrical Review), ISSN 0033-2097, R. 88 NR 3b/2012 179
- [8] Tolbert L.M., Peng F.Z., Habetler T.G., Multilevel converters for large electric drives, IEEE Trans. Ind. Appl., 35 (1999), No. 1, 36-44
- [9] Rodriguez J., Franquelo L.G., Kouro S., Leon J.I., Portillo R.C., Prats M.M., Pérez M.A., Multilevel Converters: An Enabling Technology for High-Power Applications, IEEE. Proc., 97 (2009), No. 11, 1786-1817
- [10] Song-Manguelle J., Mariethoz S., Veenstra M., Rufer A., A Generalized Design Principle of a Uniform Step Asymmetrical Multilevel Converter for High Power Conversion, European Conference on Power Electronics and Applications, EPE’01, Graz, Austria, 2001
- [11] Dahidah M.S.A., Agelidis V.G., Selective Harmonic Elimination PWM Control for Cascaded Multilevel Voltage Source Converters: A Generalized Formula, IEEE Trans. Power Electron., 23 (2008), No. 4, 1620-1630
- [12] Cunnyngham T., Cascade multilevel inverters for large hybridelectric vehicle applications with variant dc sources, Master thesis, University of Tennessee, Knoxville, 2001
- [13] Kumar J., Das B., Agarwal P., Selective Harmonic Elimination Technique for a Multilevel Inverter, Fifteenth National Power Systems Conference, NPSC’08, IIT Bombay, 2008
- [14] Chiasson J.N., Tolbert L.M., McKenzie K.J., Du Z., Control of a Multilevel Converter Using Resultant Theory, IEEE Trans. Contr. Syst. Technol., 11 (2003), No. 3, 345-354
- [15] Chiasson J.N., Tolbert L.M., McKenzie K.J., Du Z., A complete Solution to the Harmonic Elimination Problem, IEEE Trans. Power Electron., 19 (2004), No. 2, 491-499
- [16] Salehi R., Farokhnia N., Abedi M., Fathi S.H., Elimination of Low Order Harmonics in Multilevel Inverters Using Genetic Algorithm, Journal of Power Electronics, 11 (2011), nr 2, 132-139
- [17] El-Naggar K., Abdelhamid T.H., Selective harmonic elimination of new family of multilevel inverters using genetic algorithms, Energy Conversion and Management, 49 (2008), nr 1, 89-95
- [18] Bergh F.V.D., An Analysis of Particle Swarm Optimizers, Ph.D. thesis, University of Pretoria, South Africa, 2001
- [19] El-Abd M., Cooperative Models of Particle Swarm Optimizers, Ph.D. thesis, University of Waterloo, Canada, 2008
- [20] Sedighizadeh D., Masehian E., Particle Swarm Optimization Methods, Taxonomy and Applications, International Journal of Computer Theory and Engineering, 1 (2009), nr 5, 486-502
- [21] Veenstra M., Investigation and Control of a Hybrid Asymmetrical Multi-level Inverter for Medium-Voltage Applications, Ph.D. thesis, EPF-Lausanne, Switzerland, 2003
- [22] Taleb R., Meroufel A., Wira P., Harmonic Elimination Control of an Inverter Based on Artificial Neural Network Strategy, IFAC International Conference on Intelligent Control Systems and Signal Processing, ICONS’09, Istanbul, Turkey, 2009
- [23] Yao W., Hu H., Lu Z., Comparisons of Space-Vector Modulation and Carrier-Based Modulation of Multilevel Inverter, IEEE Trans. Power Electron., 23 (2008), No. 1, 45-51
- [24] Kaviani A.K., Fathi S.H., Farokhnia N., Ardakani A.J., PSO, an Effective Tool for Harmonics Elimination and Optimization in Multi-level Inverters, IEEE Conf. Ind. Electron. Appl., ICIEA’09, (2009), 2902-2907
- [25] Takuya S., Takuya K., Hiroyuki T., Kenya J., Particle Swarm Optimization for Single Phase PWM Inverters, IEEE Cong. Evol. Comput., CEC’11, (2011), 2501-2505
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Bibliografia
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bwmeta1.element.baztech-article-BPOH-0063-0014