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Simulation and analysis of an isolated full-bridge DC/DC boost converter operating with a modified perturb and observe maximum power point tracking algorithm

Treść / Zawartość
Identyfikatory
Warianty tytułu
Konferencja
International Conference on Environment and Electrical Engineering (17 ; 06-09.06.2017 ; Milan, Italy)
Języki publikacji
EN
Abstrakty
EN
The purpose of the present study is to simulate and analyze an isolated full-bridge DC/DC boost converter, for photovoltaic panels, running a modified perturb and observe maximum power point tracking method. The zero voltage switching technique was used in order to minimize the losses of the converter for a wide range of solar operation. The efficiency of the power transfer is higher than 90% for large solar operating points. The panel enhancement due to the maximum power point tracking algorithm is 5.06%.
Rocznik
Strony
45--50
Opis fizyczny
Bibliogr. 10 poz., rys., tab.
Twórcy
autor
  • Experimental and Technological Research and Study Group (NExT) Federal Institute of Goias (IFG), Goiânia, Brazil
  • Experimental and Technological Research and Study Group (NExT) Federal Institute of Goias (IFG), Goiânia, Brazil
  • Experimental and Technological Research and Study Group (NExT) Federal Institute of Goias (IFG), Goiânia, Brazil
  • Experimental and Technological Research and Study Group (NExT) Federal Institute of Goias (IFG), Goiânia, Brazil
autor
  • Experimental and Technological Research and Study Group (NExT) Federal Institute of Goias (IFG), Goiânia, Brazil
  • Engineering Federal University of Goiás (UFG), Goiânia, Brazil
  • School of Electrical, Mechanical and Computer Engineering Federal University of Goiás (UFG), Goiânia, Brazil
  • Engineering Federal University of Goiás (UFG), Goiânia, Brazil
  • School of Electrical, Mechanical and Computer Engineering Federal University of Goiás (UFG), Goiânia, Brazil
Bibliografia
  • [1] M.I. Hofferta et al., “Advanced technology paths to global climate stability: Energy for a greenhouse planet,” Science, vol. 298, pp. 981-987, 01 Nov 2002.
  • [2] B. Parida, S. Iniyanb, and R. Goic, “A review of solar photovoltaic technologies,” Renewable and Sustainable Energy Reviews, vol. 15, pp. 1625-1636, 2011.
  • [3] M.H. Rashid, Power electronics handbook, third edition ed. Butterworth-Heinemann, 2010.
  • [4] N. Femia, G. Petrone, G. Spagnuolo, and M. Vitelli, Power Electronics and Control Techniques for Maximum Energy Harvesting in Photo-voltaic Systems. CRC Press, 2013.
  • [5] M.G. Villalva, M.F. Espindola, T.G. de Siqueira, and E. Ruppert, “Modeling and control of a three-phase isolated grid-connected converter for photovoltaic applications,” Revista Controle & Automação, vol. 22, no. 3, pp. 215-228, 2011.
  • [6] S.B. Kjær, “Design and control of an inverter for photovoltaic applications,” Ph.D. dissertation, Fac. of Eng. and Science, Aalborg University, Denmark, Aalborg, Jan. 2005.
  • [7] B. Yu, “An improved dynamic maximum power point tracking method for pv application,” IEICE Electronics Express, vol. 11, no. 2, pp. 1-10, 2014.
  • [8] M.G. Villalva, J.R. Gazoli, and E.R. Filho, “Comprehensive approach to modeling and simulation of photovoltaic arrays,” IEEE Transactions on Power Eletronics, vol. 24, no. 5, pp. 1198-1208, 2009.
  • [9] G.P. Medeiros, “Analysis and simulation of the p&o mppt algorithm using a linearized pv array model,” 10th Brazilian Power Electronics Conference (COBEP), 2009.
  • [10] L. Piegari, R. Rizzo, I. Spina, and P. Tricoli, “Optimized adaptive perturb and observe maximum power point tracking control for photovoltaic generation,” Energies, 2015, vol. 8, pp. 3418-3436, 2015.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-08b355f4-0d32-433a-80d3-4ed19e35e980
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