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Predictive and look-up table control methods of a three-level AC-DC converter under distorted grid voltage

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Power electronic three-level AC-DC converters connecting a utility grid with DC supplies are widely used in renewable energy sources. For such distributed systems, the quality of energy is very important. Hence, control algorithms of an AC-DC converter have to provide not only a sinusoidal shape of grid current, but also stable operation during transient states in the grid, e.g. voltage dips or voltage unbalance. This paper deals with the problem of robustness of AC-DC control methods under disturbed grid voltage. Three modern predictive control algorithms are presented and investigated under grid voltage distortions. Experimental results from a laboratory test setup illustrating properties of the described methods are shown.
Rocznik
Strony
609--618
Opis fizyczny
Bibliogr. 24 poz., rys., wykr., tab.
Twórcy
autor
  • Department of Power Electronics and Electric Drives, Bialystok University of Technology, 45D Wiejska St., 15-351 Białystok, Poland
  • Department of Power Electronics and Electric Drives, Bialystok University of Technology, 45D Wiejska St., 15-351 Białystok, Poland
autor
  • Department of Power Electronics and Electric Drives, Bialystok University of Technology, 45D Wiejska St., 15-351 Białystok, Poland
Bibliografia
  • [1] Y. Suh, Y. Go, and D. Rho, “A comparative study on control algorithm for active front-end rectifier of large motor drives under unbalanced input”, IEEE Transactions on Industry Applications, 47 (3), 1419‒1431 (2011).
  • [2] A. Sikorski and M. Korzeniewski, “Comparison of properties of the three-level DC/AC inverter controlled by DTC-ST and DTC-SVM methods”, Przegląd Elektrotechniczny 84 (6), 117‒120 (2008).
  • [3] R. Wandhare and V. Agarwal, “Novel integration of a PV-wind energy system with enhanced efficiency”, IEEE Trans. Power Electron. 30 (7), 3638–3649 (2015).
  • [4] K. Ma and F. Blaabjerg, “Modulation methods for neutral-pointclamped wind power converter achieving loss and thermal redistribution under low-voltage ride-through”, IEEE Trans. Ind. Electron. 61 (2), 835–845 (2014).
  • [5] S. Kouro, M. Malinowski, K. Gopakumar, J. Pou, L. Franquelo, B. Wu, J. Rodriguez, M. Perez, and J. Leon, “Recent advances and industrial applications of multilevel converters”, IEEE Trans. Ind. Electron. 57 (8), 2553–2580 (2010).
  • [6] H. Abu-Rub, S. Bayhan, S. Moinoddin, M. Malinowski, and J. Guzinski, “Medium-voltage drives: Challenges and existing technology”, in IEEE Power Electronics Magazine 3 (2), 29‒41 (2016).
  • [7] P. Wiatr and M.P. Kazmierkowski, “Model predictive control of multilevel cascaded converter with boosting capability – a simulation study”, Bull. Pol. Ac.: Tech 64 (3), 581‒590 (2016).
  • [8] A. Godlewska, R. Grodzki, P. Falkowski, M. Korzeniewski, K. Kulikowski, and A. Sikorski, “Advanced control methods of DC/AC and AC/DC power converters – look-up table and predictive algorithms”, Advanced Control of Electrical Drives and Power Electronic Converters, ed. Jacek Kabziński, Springer International Publishing, Cham, 221‒302, 2017.
  • [9] I. Lopez, S. Ceballos, J. Pou, J. Zaragoza, J. Andreu, I. Kortabarria, and V. Agelidis, “Modulation strategy for multiphase neutralpoint clamped converters”, IEEE Trans. Power Electron., 31 (2), 928–941 (2016).
  • [10] J. Rodriguez, S. Bernet, P.K. Steimer, and I. E. Lizama, “A survey on neutral-point-clamped inverters”, IEEE Transactions on Industrial Electronics 57 (7), 2219‒2230 (2010).
  • [11] J.R. Rodriguez, J. W. Dixon, J.R. Espinoza, J. Pontt, and P. Lezana, “PWM regenerative rectifiers: state of the art”, IEEE Transactions on Industrial Electronics 52 (1), 5‒22 (2005).
  • [12] M. Malinowski, M.P. Kaźmierkowski, and M. Jasiński, “Simple direct power control of three-phase PWM rectifier using space vector modulation (DPC-SVM)”, IEEE Trans. Ind. Electron 51 (2), 447‒454 (2004).
  • [13] K. Kulikowski and A. Sikorski, “New DPC look-up table methods for three-level AC/DC converter”, IEEE Transactions on Industrial Electronics 63 (12), 7930‒7938 (2016).
  • [14] J. Scoltock, T. Geyer, and U.K. Madawala, “Model predictive direct power control for grid-connected NPC converters”, IEEE Transactions on Industrial Electronics 62 (9), 5319‒5328 (2015).
  • [15] A. Sikorski and R. Grodzki, “Predictive control of the AC/DC converter”, 16th International Power Electronics and Motion Control Conference and Exposition, Antalya, 131‒136 (2014).
  • [16] X. Wang, F. Blaabjerg, and P.C. Loh, “Virtual RC damping of LCL-filtered voltage source converters with extended selective harmonic compensation”, IEEE Transactions on Power Electronics 30 (9), 4726‒4737 (2015).
  • [17] S. Piasecki, M. Jasinski, K. Rafal, M. Korzeniewski, and A. Milicua, “Higher harmonics compensation in grid-connected PWM converters for renewable energy interface and active filtering”, Przeglad Elektrotechniczny 87 (6), 85‒90 (2011).
  • [18] L. Hadjidemetriou, E. Kyriakides, and F. Blaabjerg, “A robust synchronization to enhance the power quality of renewable energy systems”, IEEE Transactions on Industrial Electronics, 62 (8), 4858‒4868 (2015).
  • [19] M.P. Kazmierkowski, M. Jasinski, and G. Wrona, “DSP-based control of grid-connected power converters operating under grid distortions”, IEEE Transactions on Industrial Informatics, 7 (2), 204‒211 (2011).
  • [20] J.A. Rohten et al., “Model predictive control for power converters in a distorted three-phase power supply”, IEEE Transactions on Industrial Electronics 63 (9), 5838‒5848 (2016).
  • [21] Y. Zhang, C. Qu, and J. Gao, “Performance Improvement of direct power control of PWM rectifier under unbalanced network”, IEEE Transactions on Power Electronics 32 (3), 2319‒2328 (2017).
  • [22] J. Rodriguez and P. Cortez, Predictive Control of Power Converters and Electrical Drives, J. Wiley & Sons, Chichester, 2012.
  • [23] M.P. Kazmierkowski, R. Krishnan, and F. Blaabjerg, Control in Power Electronics, Academic Press, USA, 2002.
  • [24] P. Antoniewicz, “Predictive control of three-phase ac/dc converters”, PhD Thesis, Warsaw University of Technology, 2009.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-08066436-6903-4011-a781-e4eda6939ae0
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