• DocumentCode
    3495772
  • Title

    Modeling and simulation of maximum power point tracker for photovoltaic system

  • Author

    Yusof, Yushaizad ; Sayuti, Siti Hamizah ; Abdul Latif, Muhammad ; Wanik, Mohd Zamri Che

  • Author_Institution
    Dept. of Electr., Electron. & Syst. Eng., Malaysia Nat. Univ., Malaysia
  • fYear
    2004
  • fDate
    29-30 Nov. 2004
  • Firstpage
    88
  • Lastpage
    93
  • Abstract
    This paper presents an approach to model and simulate a maximum power point tracker (MPPT) of photovoltaic (PV) system for battery charging application. Firstly, a simulation of Shell SM50-H PV module current-voltage (I-V) and power-voltage (P-V) characteristics at various insolation and temperature levels have been carried out using Matlab software. Next, the incremental conductance algorithm is applied for maximum power point (MPP) tracking purpose, which is developed using C programming. This algorithm is selected due to its ability to withstand against any parameter variation and having a very high efficiency. As a result, by variation of the temperature and the insolation, the algorithm still managed to track the MPP successfully. Finally, a model of a boost converter is constructed using Matlab/Simulink, particularly with great utilization of the power system blockset, (PSB), in order to verify the performance of proposed MPPT system. MPPT controlling process is developed using a simple voltage based MPPT that is controlled by a microcontroller-based unit to drive the MOSFET power switch. As for the consequences, this technique performance tends to give significant efficiency, in addition, it is cost saving and reliable.
  • Keywords
    battery chargers; field effect transistor switches; microcontrollers; power MOSFET; power convertors; solar cell arrays; C programming; MOSFET power switch; Matlab; Matlab software; PV array; Simulink; battery charging application; boost converter; incremental conductance algorithm; maximum power point tracker; microcontroller-based unit; module current-voltage; photovoltaic system; power system blockset; solar cells; Application software; Batteries; Mathematical model; Photovoltaic systems; Power system management; Power system modeling; Process control; Solar power generation; Temperature; Voltage control;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Power and Energy Conference, 2004. PECon 2004. Proceedings. National
  • Print_ISBN
    0-7803-8724-4
  • Type

    conf

  • DOI
    10.1109/PECON.2004.1461622
  • Filename
    1461622