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Oszacowanie strat energii w systemie fotowoltaicznym na podstawie symulacji czasu rzeczywistego w układzie FPGA

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Warianty tytułu
EN
Energy Losses Estimation of Photovoltaic System Based on the FPGA Real-Time Simulation
Języki publikacji
PL
Abstrakty
PL
Niniejszy artykuł podejmuje kwestię modelowania i wyliczania strat energii, powstałych podczas pracy jednofazowego mostkowego falownika napięcia, zastosowanego w zamodelowanym systemie fotowoltaicznym czasu rzeczywistego. System ten został zrealizowany i testowany w układzie FPGA z serii Cyclone II. Przedstawiona koncepcja obliczania mocy strat wykorzystanych tranzystorów IGBT i elementów diodowych, umożliwia wyznaczanie na bieżąco sprawności modułu falownikowego.
EN
This paper concerns modeling and computation of power losses in one-phase voltage inverter (VSI), used in real-time model of gridconnected photovoltaic system. This power electronic circuit was implemented and performed in Cyclone II FPGA device. Presented idea of IGBT and diode semiconductor power losses calculation enables real-time estimation of voltage inverter efficiency.
Rocznik
Strony
364--369
Opis fizyczny
Bibliogr. 26 poz., wykr., schem.
Twórcy
autor
autor
  • Akademia Górniczo Hutnicza im. Stanisława Staszica, Katedra Automatyki Napędu i Urządzeń Przemysłowych, Al. Mickiewicza 30, 30-059 Kraków, stala@agh.edu.pl
Bibliografia
  • [1] IEA International Energy Agency, Trends in photovoltaic applications. Survey report of selected IEA countries between 1992 and 2006, Report IEA-PVPS T1-16:2007
  • [2] Valentini M., Raducu A., Sera D., Teodorescu R., PV inverter test setup for European efficiency, static and dynamic MPPT efficiency evaluation, 11th International Conference on Optimization of Electrical and Electronic Equipment, (22-24 May 2008), 433-438
  • [3] Baumgartner F.P., Schmidt H., Burger B., Bründlinger R., Häberl i n H., Zehner M., Status and Relevance of the DC Voltage Dependency of the Inverter Efficiency, 22nd European Photovoltaic Solar Energy Conference and Exhibition, (3-7 September 2007), Fiera Milano,
  • [4] Bleterie B., Bründlinger R., Häberlin H., Baumgartner F., Schmidt H., Burger B. , Klein G., Abel - la M.A. , Redefinition of the European Efficiency – Finding the Compromise Between Simplicity and Accuracy
  • [5] Stala R., Testing of the grid-connected photovoltaic systems using FPGA-based real-time model, 13th International Power Electronics and Motion Control Conference, Poznań–Poland, (1 – 3 Sept. 2008)
  • [6] Parera R., Cirstea M., Koczara W., Teodorescu R., A Novel Integrated Renewable Energy System Modeling Approach, Allowing Fast FPGA Controller Prototyping, 11th International Conference on Optimization of Electrical and Electronic Equipment, (22-24 May 2008), 395 – 400
  • [7] Altera Corporat ion, Cyclone II Device Handbook, Vol. 1
  • [8] Lu L., Pytel S.G., Santi E., Bryant A.T., Hudgins J .L., Palmer P.R., Physical modeling of forward conduction in IGBTs and diodes, Fourteenth Industry Applications Conference, 2005, Conference Record of the 2005, Volume 4, (2-6 Oct. 2005), 2635-2642
  • [9] Bryant A.T., Liqing L., Santi E., Hudgins J.L., Palmer P.R. , Modeling of IGBT Resistive and Inductive Turn-On Behavior, IEEE Transactions on Industry Applications, Volume 44, Issue 3, (May-june 2008), 904-914
  • [10] Hefner A.R., A dynamic electro-thermal model for the IGBT, IEEE Transactions on Industry Applications, Volume 30, Issue 2, (March-April 1994), 394-405
  • [11] Reichl J., Berning D., Hefner A., Lai J .S ., Six-pack IGBT dynamic electro-thermal model parameter extraction and validation, Nineteenth Annual IEEE Applied Power Electronics Conference and Exposition, Volume 1, (2004), 246-251
  • [12] Blaabjerg F., Jaeger U., Munk-Nielsen S., Power losses in PWM-VSI inverter using NPT or PT IGBT devices, IEEE Transactions on Power Electronics, Vol. 10, Is. 3, (May 1995), 358-367
  • [13] Konrong W., Lee F.C., Guichao H., Borojevic D., A comparative study of switching losses of IGBTs under hardswitching, zero-voltage-switching and zero-current-switching, 25th Annual IEEE Power Electronics Specialists Conference, (20-25 June 1994), 1196-1204
  • [14] Eberle W., Zhiliang Z., Yan-Fei L., Sen P.C., A Simple Analytical Switching Loss Model for Buck Voltage Regulators, Twenty-Third Annual IEEE Applied Power Electronics Conference and Exposition, (Feb. 2008), 36-42
  • [15] Hsu J.T., Ngo K.D.T., A Behavioral Model of the IGBT for Circuit Simulation, 26th Annual IEEE Power Electronics Specialists Conference, Vol. 2, (18-22 June 1995), 865-871
  • [16] Maswood A. I., A switching loss study in SPWM IGBT inverter, IEEE 2nd International Power and Energy Conference, (1-3Dec. 2008), 609-613
  • [17] Cavalcanti M.C., da Silva E.R., Jacobina C., Losses in soft-switched and hard-switched voltage inverters, IEEE International Symposium on Industrial Electronics, Vol. 1, (9-11 June 2003), 533-537
  • [18] Cavalcanti M.C., da Silva E.R., Boroyevich D., Dong W., Jacobina C.B. , A feasible loss model for IGBT in soft-switching inverters, IEEE 34th Annual Power Electronics Specialist Conference, Vol. 4, (15-19 June 2003), 1845-1850
  • [19] Cassimere B., Sudhoff S.D., Aliprantis D.C., Swinney M.D., IGBT and PN junction diode loss modeling for system simulations, IEEE International Conference on Electric Machines and Drives, (15-15 May 2005), 941-949
  • [20] Wiechmann E.P., Aqueveque P., Burgos R., Rodriguez J., On the Efficiency of Voltage Source and Current Source Inverters for High-Power Drives, IEEE Transactions on Industrial Electronics, Vol. 55, Is. 4, (April 2008), 1771-1782
  • [21] Internat ional Rect if ier , IGBT with Ultra fast Soft Recovery Diode – IRGP4063DPbF Data Sheet
  • [22] Rashid M.H., Power Electronics Handbook, Academic Press, (2001)
  • [23] Cavalcanti M.C., da Silva E.R., Jacobina C.B., Boroyevich D., Dong W., Comparative Evaluation of Losses in Soft and Hard-Switched Inverters, Ind. App. Conf., 38th IAS Annual Meeting, Vol. 3, (12-16 Oct. 2003), 1912-1917
  • [24] Gupta R., Ghosh A., Joshi A., Generalized converter modulation and loss estimation for grid interface applications, Power and Energy Society General Meeting – Conv. and Delivery of El. Energy in the 21st Century, (20-24 July 2008), 1-6
  • [25] Lundquist W., Winding Losses in High Frequency Power Inductors, West Coast Magnetics
  • [26] Shimizu T., Iyasu S., A Practical Iron Loss Calculation for AC Filter Inductors Used in PWM Inverters, IEEE Transactions on Industrial Electronics, Vol. 56, Is. 7, (July 2009), 2600–2609
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPOM-0023-0009
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