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Three Level Inverter Based Shunt Active Power Filter Using Multi-Level Hysteresis Band Current Controller

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Warianty tytułu
PL
Sterowanie bocznikowego aktywnego filtru mocy z przekształtnikiem trójpoziomowym oparte na wielopoziomowym regulatorze histerezowym prądu
Języki publikacji
EN
Abstrakty
EN
In this paper, a three-level inverter based Shunt Active Power Filter (SAPF) using Multi-Level Hysteresis Current Controller (MLHCC) is presented for solution of power quality problems in distribution system. A simulation model of SAPF is prepared in Matlab/Simulink environment. MLHCC is used for control of SAPF currents. In simulation study, it is considered that SAPF executes two tasks covering compensation of harmonics and reactive power. Therefore, control algorithm is formed to execute two tasks. The Synchronous Reference Frame Method (SRFM) is used to extract the reference currents. Dynamic performance of SAPF is evaluated using two nonlinear loads switched at different times. Some simulation results are given to show performance of a three-level inverter based SAPF using MLHCC. Simulation results show that current harmonics has been kept inside specific recommendation of IEEE-519 and ac grid is approximately kept in unity power factor.
PL
W artykule przedstawiono bocznikowy aktywny filtr mocy (ang. Shunt Active Power Filter) z trójpoziomowym falownikiem. Sterowanie oparte zostało na wielopoziomowym regulatorze histerezowym prądu (ang. Multi-Level Hysteresis Current Controller). Filtr aktywny spełnia rolę kompensatora wyższych harmonicznych oraz mocy biernej.
Rocznik
Strony
227--231
Opis fizyczny
Bibliogr. 25 poz., tab., rys.
Twórcy
autor
autor
autor
Bibliografia
  • [1] Teke, A., Sarıbulut, L., Meral, M.E. and Tümay, M., “Active Power Filter: Review of Converter Topologies and Control Strategies”, Gazi University Journal of Science, 24(2):283-289, (2011).
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  • [3] Zabihi, S. and Zare, F., “An Adaptive Hysteresis Current Control Based on Unipolar PWM for Active Power Filters”, Australian Universities Power Engineering Conference (AUPEC), Melbourne, Australia, TS-11 Power Electronics 2, (2006).
  • [4] Uçar, M., “3-Fazlı 4-Telli Paralel Aktif Güç Filtresinin Tasarımı Ve Uygulanması”, MSc Thesis, Kocaeli Üniversitesi Fen Bilimleri Enstitüsü, Kocaeli, 33-44, (2005).
  • [5] Çöteli, R., Uçar, F., Dandil, B., Ata, F., "Paralel Aktif Güç Filtresinin Denetimi için Farklı Referans İşaret Çıkarma Yöntemlerinin İncelenmesi", International Advanced Technologies Symposium (IATS'11), Elazığ, Vol-4, 461-466, (2011).
  • [6] Enjeti, P., Shireen, W., Packebush, P., Pitel, I., “Analysis And Design Of A New Active Power Filter To Cancel Neutral Current Harmonics In Three Phase Four Wire Electric Distribution Systems”, Industry Applications Society Annual Meeting, Conference Record of the IEEE, Toronto, Canada, Vol.2, 939-946, (1993)
  • [7] Karuppanan, P., Saswat, K., R., Kamalakanta, M., “Three Level Hysteresis Current Controller Based Active Power Filter for Harmonic Compensation”, International Conference on Emerging Trends In Electrical And Computer Technology, Nagercoil India, (2011).
  • [8] Asiminoaei, L., Rodriguez, P. and Blaabjerg, F., “Application of Discontinuous PWM Modulation in Active Power Filters”, IEEE Trans. Power Electronics, Vol. 23 (4), 1692-1706, (2008).
  • [9] Asiminoaei, L., Blaabjerg, F. and Hansen, S., “Evaluation of Harmonic Detection Methods for Active Power Filter Applications”, in Proc. APEC 2005, Austin USA, 635-641, (2005).
  • [10] Sirisukprasert, S., “The Modelling and Control of a Cascaded- Multilevel Converter-Based STATCOM”, PhD. Thesis, Dept. ECE Virginia Tech., USA, 2004.
  • [11] Amini, J. “Flying Capacitor Multilevel Inverter Based Shunt Active Power Filter with Trifling Susceptibility to Divisional Voltages Deregulation”, International Conference on Environment and Electrical Engineering (EEEIC) 10th, Rome Italy, 1-5, (2011)
  • [12] Muhammad H. Rashid, “Power Electronics Handbook: Devices, Circuits and Applications, Second Edition“, Academic Press, Elsevier, USA, (2007)
  • [13]Morán, L., A., Dixon, J., W., Espinoza, J., R., Wallace, R., R., “Using Active Power Filters To Improve Power Quality”, in COBEP '99, Brazil, (1999).
  • [14] Bhattacharya, S. and Divan, D., “Synchronous Frame Based Controller Implementation for A Hybrid Series Active Filter System”, Industry Applications Conference, 13th IAS Annual Meeting, pp. 2531 - 2540 vol.3, (1995).
  • [15] Kocabaş, İ., Uçak, O., Terciyanlı, A., “DSP Tabanlı Gerilim Kaynaklı Şönt Aktif Güç Filtresi Uygulaması”, ELECO’06, Bursa, (2006).
  • [16] Kazmierkowski, M.P. and Malesani, L., Current Control Techniques for Three-Phase Voltage-Source PWM Converters: A Survey, IEEE Trans. Ind. Electron., Vol.45, no. 5, pp. 691-703, 1998.
  • [17] Brod D.M. and Novotny, D. M., “Current control of VSI-PWM Inverter” IEEE Trans. on Industry Appl., Vol.21, pp.562-570, 1985.
  • [18] Jiang Zeng, Chang Yu, Qingru Qi, Zheng Yan, Yixin Ni, B.L. Zhang, Shousun Chen and Felix F. Wu, “A novel hysteresis current control for active power filter with constant frequency” Electric Power Systems Research 68, pp.75-82, 2004.
  • [19] Milosevic M., “Hysteresis current control in three-phase voltage source inverter”, Technical Report, Zurich, (2003)
  • [20] Ghosh, A. and Joshi, A., A new approach to load balancing and power factor correction in power distribution system, IEEE Trans. Power Delivery, vol.15, no. 1, pp. 417-422, 2000.
  • [21] Bode, G.H., and Holmes, D.G, Implementation of three level hysteresis current control for a single phase voltage source inverter, IEEE PESC Conf., pp. 33-38, 2000.
  • [22] Loh, P.C., Bode, G.H., and Holmes, D.G, and Lipo, T.A., A time-based double band hysteresis current regulation strategy for single phase multilevel inverters, IEEE Trans. Ind. Appl., vol. 39, no. 3, pp. 883-892, 2003.
  • [23] Corzine, K.A., A hysteresis current regulated control for multilevel drives, IEEE Trans. Energy Convers., vol. 15, no. 2, pp. 169-175, 2000.
  • [24] Karuppanan, P., Kumar, S. R., Mahapatra, K., Three Level Hysteresis Current Controller based Active Power Filter for Harmonic Compensation, International Conference on Emerging Trends in Electrical and Computer Technology, 2011.
  • [25] Midtsund, T., “Control of Power Electronic Converters in Distributed Power Generation Systems”, MSc Thesis, Norwegian University of Science and Technology Department of Energy and Environment, (2010).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPS4-0004-0091
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