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Output voltage control system for a three-level neutral-point clamped quasi-Z-source inverter

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Warianty tytułu
PL
Sterowanie napięciem wyjściowym dla trójpoziomowego falownika z diodami poziomującymi zasilanego ze źródła quasi-Z
Języki publikacji
EN
Abstrakty
EN
This paper presents three closed loop control systems for a three-level neutral-point-clamped quasi impedance source inverter. These control systems are designed and simulated to enable validation of their operation for improvement of the capabilities of the three-level neutral-pointclamped quasi impedance source inverter during variable input voltage situations. PID controller-based control systems could be used in photovoltaic applications in which the output voltage of the solar array depends on the irradiance and the temperature produces variable input voltage.
PL
W artykule przedstawiono trzy algorytmy sterowania w pętli zamkniętej, bazujące na regulatorach PID, dla trójpoziomowego przekształtnika z diodami poziomującymi zasilanego ze źródła quasi-Z. Przeprowadzono badania symulacyjne omawianych algorytmów, w celu potwierdzenia ich pozytywnego wpływu na pracę przekształtnika w warunkach zmienności napięcia wejściowego. Proponowane strategie mają potencjalne zastosowanie w fotowoltaice, gdzie występują zmiany napięcia wyjściowego w zależności od temperatury i nasłonecznienia.
Rocznik
Strony
76--80
Opis fizyczny
Bibliogr. 21 poz., rys., tab.
Twórcy
  • Power Electrical and Electronic Systems (PE&ES). University of Extremadura (Spain)
autor
  • Tallinn University of Technology (Estonia)
  • Chernihiv State Technological University
autor
  • Chernihiv State Technological University
  • Power Electrical and Electronic Systems (PE&ES). University of Extremadura (Spain)
autor
  • Tallinn University of Technology (Estonia)
Bibliografia
  • [1] Cao D., Jiang S., Yu X., Peng F.Z. “Low-cost semi-z-source for single-phase photovoltaic systems”, IEEE Transaction on Power Electronics, vol.26, no. 12, pp. 3514-3523, Dec. 2011.
  • [2] Calais M., Agelidis V.G. “Multilevel converters for single-phase grid connected photovoltaic systems. An overview”, IEEE International Symposium on Industrial Electronics, vol.1, pp. 224-229, Jul. 1998.
  • [3] Calais M., Myrzik J., Spooner T., Agelidis V.G. “Inverters for single-phase grid connected photovoltaic systems. An overview”, IEEE International 33rd Annual Power Electronic Special Conference. pp.1995-2000, 2002.
  • [4] Myrzik J., Calais M. “String and module integrated inverters for single-phase grid connected photovoltaic systems. An overview”, IEEE Bologna PowerTech Conference. International 33rd Annual Power Electronic Special Conference, vol. 2. pp.8, 2003.
  • [5] Xue Y., Chang L., Kjaer S.B., Bordonau J., Shimizu T. “Topologies of single-phase inverters for small distributed power generators: An overview”, IEEE Transaction on Power Electronics, vol.19, no. 5, pp. 1305-1314, Sep. 2004.
  • [6] Kjaer S.B., Pedersen J.K., Blaabjerg F. “A review of singlephase grid-connected inverters for photovoltaic modules”, IEEE Transaction on Industry Applications, vol.41, no. 5, pp. 1292-1306, Sep. 2005.
  • [7] Carrasco J. M, Franquelo L. G., Bialasiewicz J.T., Galvan E., Guisado R.C.P., Prats M.A.M., León J.I., Moreno-Alfonso N. “Power electronic systems for the grid integration of renewable energy sources: A survey”, IEEE Transaction on Industrial Electronics, vol.53, no. 4, pp. 1002-1016, Jun. 2006.
  • [8] Li Q., Wolfs P. “A review of the single phase photovoltaic module integrated converter topologies with three different DC link configurations”, IEEE Transaction on Power Electronics, vol.23, no. 3, pp. 1320-1333, May. 2008.
  • [9] Huang Y., Peng F.Z., Wang J., Yoo D.W. “Survey of the power conditioning system for PV power generation”, IEEE 37th Power Electronic Special Conference, pp.1-6, 2006.
  • [10] Kimball J.W., Kuhn B.T., Balog R.S. “A system design approach for unattended solar energy harvesting supply”, IEEE Transaction on Power Electronics, vol.24, no. 4, pp. 952-962, Apr. 2009.
  • [11] Ott, S., Roasto, I., Vinnikov, D. "Neutral point clamped quasiimpedance- source inverter," Compatibility and Power Electronics (CPE), 2011 7th International Conference- Workshop , pp.348-353, Jun. 2011.
  • [12] Ott, S., Roasto, I., Vinnikov, D., Lehtla, T. “Analytical and Experimental Investigation of Neutral Point Clamped Quasi- Impedance-Source Inverter”. Scientific Journal of Riga Technical University: Power and Electrical Engineering, vol.29, pp.113-118.
  • [13] Timbus A., Liserre M., Teodorescu R., Rodríguez P., Blaabjerg F. “Evaluation of Current Controller for Distributed Power Generation Systems”, IEEE Transaction on Power Electronics, vol.24, no. 3, pp. 654-664, Mar. 2009.
  • [14] Roncero-Clemente C., Romero-Cadaval E., Milanés-Montero M.I., Miñambres-Marcos V., Barrero F. “Modelo de String Fotovoltaico para PSCAD/EMTDC basado en las Especificaciones Técnicas del Fabricante”. Seminario Anual de Automática, Electrónica Industrial e Instrumentación 2011. Conference Proceeding. pp. 933-938. Jul. 2011.
  • [15] Roncero-Clemente C., Romero-Cadaval E., Roncero-Sánchez P., González-Romera E. “Comparison of Two Power Flow Control Strategies for Photovoltaic Inverters”. 38th Annual Conference of the IEEE Industrial Electronics Society (IECON). pp. 5149-5155, Oct. 2012.
  • [16] Roncero-Clemente C., Romero-Cadaval E., Husev O., Vinnikov D. “Simulation Study of Different Modulation Techniques for Three-Level Quasi-Z-Source Inverter”. Riga Technical University 53rd International Scientific Conference on Power and Electrical Engineering. Oct.2012.
  • [17] Husev O., Stepenko S., Roncero-Clemente C., Romero-Cadaval E., Vinnikov D. “Single Phase Three-Level Quasi-ZSource Inverter with a New Boost Modulation Technique”. 38th Annual Conference of the IEEE Industrial Electronics Society (IECON). pp. 5856-5861, Oct. 2012.
  • [18] Husev O., Roncero-Clemente C., Stepenko S., Vinnikov D., Romero-Cadaval E. “CCM Operation Analysis of the Single- Phase Three-Level Quasi-Z-Source Inverter”. 15th International Power Electronics and Motion Control Conference and Exposition (EPE-PEMC 2012 ECCE Europe). pp. DS1b.21-1- DS1b.21-6. Sep. 2012.
  • [19] Meshram P.M., Kanojiya R.G. “Tuning of PID Controller using Ziegler-Nichols Method for Speed Control of DC Motor”. IEEE International Conference of Advances in Engineering Science and Management (ICAESM-2012). pp. 117-122. Mar.2012.
  • [20] Mallesham G., Mishra S., Jha A.N. “Maiden Application of Ziegler-Nichols Method to AGC of Distributed Generation System”. IEEE PES Power System Conference and Exposition (PSCE 2009). Mar. 2009.
  • [21] Hang C.C., Astrom K.J., Ho W.K. “Refinements of the Ziegler-Nichols tuning formula”. IEEE Proceedings-D, vol.138, no. 2, Mar. 1991.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-646a055f-8abe-4488-81a0-337e94ca6db1
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