• Title of article

    Investigation of a New Topology for Multilevel Inverters Fed by Photovoltaic System for Linear Induction Motor

  • Author/Authors

    Jafari ، Hossein Department of Power Engineering - University of Tehran , Vaez-Zadeh ، Sadegh Department of Power Engineering - The University of Tehran

  • From page
    1081
  • To page
    1094
  • Abstract
    In this paper, a new structure of multilevel inverters with the reducing the count of utilized power equipment is presented. This inverter consists of two parts, a basic module, and an H-bridge. Since the basic module part is only able to generate positive and zero voltage levels, so the Hbridge is connected to the basic module to generate all levels symmetrically (positive and negative). The newly suggested inverter is investigated by two input source determination algorithms and the general configuration of the converter is proposed with the ability to extend to a high number of levels. From the general structure of the proposed multilevel inverter, one circuit is selected to perform all the simulations, implementations, and other studies on it. Moreover, in order to investigate the proper operation of the proposed structure, this inverter has been simulated in the application of a linear induction motor in which the inverter voltage sources are powered by photovoltaic systems. The power losses of the casestudy circuit with symmetrically determined input sources using the NLC modulation method are investigated for three various loads. Besides, to demonstrate the merits and features of the new inverter, the suggested inverter is compared with some recent inverters. Finally, to demonstrate the possibility and function of the suggested multilevel inverter, the casestudy circuit is simulated and implemented in MATLAB/Simulink software and power electronics laboratory, respectively.
  • Keywords
    Basic Module , Symmetric Multilevel Inverter , Asymmetric Multilevel Inverter , Cascaded Multilevel Inverter
  • Journal title
    Journal of Solar Energy Research
  • Journal title
    Journal of Solar Energy Research
  • Record number

    2726895