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Tytuł artykułu

Comparative study of various controllers applied to a three phases parallel multi-cell buck converter

Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
PL
Badanie porównawcze różnych sterowników zastosowanych do trójfazowego równoległego wieloogniwowego konwertera buck
Języki publikacji
EN
Abstrakty
EN
This paper presents a comparative evaluation study about the application of four control methods to a Parallel multilevel DC-DC converter, for purpose to achieve better currents and voltage regulation. Proportional-integral, Fractional Proportional-integral, Fuzzy logic and sliding mode controllers are applied. Fast dynamic response of the output current, voltage, and robustness to load variation are obtained with the sliding mode controller.
PL
W artykule przedstawiono porównawcze badanie ewaluacyjne dotyczące zastosowania czterech metod sterowania do równoległego wielopoziomowego przekształtnika DC-DC w celu uzyskania lepszej regulacji prądów i napięć. Stosowane są sterowniki proporcjonalno-całkujące, ułamkowe proporcjonalno-całkowe, rozmyte i ślizgowe. Dzięki regulatorowi trybu ślizgowego uzyskuje się szybką dynamiczną odpowiedź prądu wyjściowego, napięcia i odporności na zmiany obciążenia.
Rocznik
Strony
59--65
Opis fizyczny
Bibliogr. 27 poz., rys., tab.
Twórcy
autor
  • Laboratory of Advanced Technologies of Electrical Engineering (LATAGE), Faculty of Electrical and Computer Engineering, Mouloud Mammeri University (UMMTO), 15000 Tizi-Ouzou, Algeria
autor
  • Laboratory of Advanced Technologies of Electrical Engineering (LATAGE), Faculty of Electrical and Computer Engineering, Mouloud Mammeri University (UMMTO), 15000 Tizi-Ouzou, Algeria
  • Laboratory of Advanced Technologies of Electrical Engineering (LATAGE), Faculty of Electrical and Computer Engineering, Mouloud Mammeri University (UMMTO), 15000 Tizi-Ouzou, Algeria
autor
  • Laboratory of Advanced Technologies of Electrical Engineering (LATAGE), Faculty of Electrical and Computer Engineering, Mouloud Mammeri University (UMMTO), 15000 Tizi-Ouzou, Algeria
  • University Akli Mohand Oulhadj-Bouria, Algeria
  • Laboratory of Advanced Technologies of Electrical Engineering (LATAGE), Faculty of Electrical and Computer Engineering, Mouloud Mammeri University (UMMTO), 15000 Tizi-Ouzou, Algeria
autor
  • LS2N Laboratory/Ecole Centrale de Nantes, 44321 Nantes Cedex 3, France
Bibliografia
  • [1] Garcia O., Zumel P., de Castro A., Alou P., Cobos J. A.).,Current self-balance mechanism in multiphase buck converter, IEEE Transactions on Power Electronics., 24 (2009), No. 6,1600-1606
  • [2] Meynard T., Laplace B. C., Forest F., Labouré E., Parallel multicell converters for high current: Design of intercell transformers, IEEE International Conference on Industrial Technology., (2010). 1359-1364
  • [3] Kiran N.,Sliding Mode Control of Buck Converter. Bulletin of Electrical Engineering and Informatics., 3 (2014), No. 1, 37-44
  • [4] Amghar B., Darcherif A., Barbot J. P., Z (TN)-Observability and control of parallel multicell chopper using Petri nets, IET Power Electronics., 6 (2013), No. 4, 710-720
  • [5] Bouhalli N., Cousineau M., Sarraute E., Meynard, T.,Multiphase coupled converter models dedicated to transient response and output voltage regulation studies, 13th International Power Electronics and Motion Control Conference.,(2008), 281-287
  • [6] Garcia P. D., Cortizo P. C., De Menezes B. R., Mendes, M. S.,Sliding mode control for current distribution in DC-to-DC converters connected in parallel, IEEE Power Electronics Specialists Conference., 2 (1996), 1513-1518
  • [7] Djondiné P., Barbot J. P., Ghanes M.,Comparison of sliding mode and petri nets control for multicellular chopper, International Journal of Nonlinear Science, 25 (2018), No 2, 67- 75.
  • [8] Raviraj V. S. C., Sen P. C.,Comparative study of proportionalintegral, sliding mode, and fuzzy logic controllers for power converters, IEEE Transactions on Industry Applications., 33 (1997), No. 2, 518-524
  • [9] Bendaoud K., Krit S., Kabrane,M., Ouadani H., Elaskri M., Karimi K., Elmaimouni L., Fuzzy logic controller (FLC): Application to control DC-DC buck converter, International Conference on Engineering & MIS (ICEMIS).,(2017) , 1-5
  • [10] Erdem H.,Comparison of fuzzy, PI and fixed frequency sliding mode controller for DC-DC converters, International Aegean Conference on Electrical Machines and Power Electronics., (2007), 684-689
  • [11] Fekik A., Denoun H., Benamrouche N., Benyahia N., Zaouia, M. (2015).,A fuzzy–logic based controller for three phase PWM rectifier with voltage oriented control strategy, International Journal Of Circuits, Systems And Signal Processing.,9 (2015), 412- 419
  • [12] Mude N. R., Sahu A., Adaptive control schemes for DC-DC buck converter, International Journal of Engineering Research and Applications., 2 (2012),No .3, 463-467
  • [13] Siri K., Lee C. Q., Wu T. E., Current distribution control for parallel connected converters, IEEE Transactions on Aerospace and Electronic Systems., 28 (1992), No. 3, 829-840
  • [14] Byanpambé G., Djondiné P., Effa Y. J., Sur la modulation des convertisseurs multicellulaires parallèles., International Journal of Innovation Sciences and Research (2018).
  • [15] Yang N., Wu C., Jia R., Liu C., Fractional-order terminal sliding-mode control for buck DC/DC converter, Mathematical Problems in Engineering ., (2016)
  • [16] Lindiya A., Palani S., Performance comparison of various controllers for DC-DC synchronous buck converter, Procedia Engineering., 38 (2012), 2679-2693
  • [17] Ghosh A., Prakash M., Pradhan S., Banerjee S., A comparison among PID, Sliding Mode and internal model control for a buck converter, IEEE 40th Annual Conference of the Industrial Electronics Society., (2014), 1001-1006
  • [18] Yilmaz U., Kircay A., Borekci S., PV system fuzzy logic MPPT method and PI control as a charge controller, Renewable and Sustainable Energy Reviews., 81 (2018), 994-1001
  • [19] Guo L., Hung J. Y., Nelms R. M., Evaluation of DSP-based PID and fuzzy controllers for DC–DC converters, IEEE transactions on industrial electronics.,56 (2009), No.6, 2237-2248
  • [20] Tavazoei M. S., From traditional to fractional PI control: A key for generalization, IEEE Industrial electronics magazine., 6 (2012), No. 3, 41-51
  • [21] Singhal R., Padhee S., Kaur G., Design of fractional order PID controller for speed control of DC motor, International Journal of Scientific and Research Publications., 2 (2012), No. 6, 1-8
  • [22] Poovarasan J., Kayalvizhi R., Pongiannan R. K., Design of Fractional Order PID controller using Soft computing methods for a Buck-Boost converter, IOSR Journal of Electrical and Electronics Engineering., 7 (2013), No. 3, 55-59
  • [23] Antar B., Hassen B., Babes B., Afghoul H (2015)., Fractional order PI controller for grid connected wind energy conversion system, 4th International Conference on Electrical Engineering (ICEE)., (2015), 1-6
  • [24] Al-Nussairi M. K., Bayindir R., Hossain E., Fuzzy logic controller for Dc-Dc buck converter with constant power load, IEEE 6th International Conference on Renewable Energy Research and Applications (ICRERA).,(2017), 1175-1179
  • [25] Anand R., Gnanambal I., Poornema, N., Implementation of fuzzy logic controller for buck-boost converter combining KY and Synchronous buck converter for battery operated portable devices, Journal of Theoretical and Applied Information Technology.,67( 2014),N.1
  • [26] Cid-Pastor A., Giral R., Calvente J., Utkin V. I., Martinez- Salamero L., Interleaved converters based on sliding-mode control in a ring configuration, IEEE Transactions on Circuits and Systems I: Regular Papers., 58 (2011), No. 10, 2566-2577
  • [27] Guldemir H., Study of sliding mode control of dc-dc buck converter, Energy and power Engineering.,3 (2011), No. 4, 401-406
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3ea0a29d-cba2-4f80-b031-df166c6c4f25
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