• Title of article

    Presenting a New High Gain Boost Converter with Inductive Coupling Energy Recovery Snubber for Renewable Energy Systems- Simulation, Design and Construction

  • Author/Authors

    Sharifiyana ، Omid Department of Electrical Engineering - Smart Microgrid Research Center - Islamic Azad University, Najafabad Branch , Dehghani ، Majid Department of Electrical Engineering - Smart Microgrid Research Center - Islamic Azad University, Najafabad Branch , Shahgholian ، Ghazanfar Department of Electrical Engineering - Smart Microgrid Research Center - Islamic Azad University, Najafabad Branch , Mirtalaee ، Mohamad Mehdi Department of Electrical Engineering - Smart Microgrid Research Center - Islamic Azad University, Najafabad Branch

  • From page
    1417
  • To page
    1436
  • Abstract
    Solar energy is one of the most important sources of energy because it is a renewable and inexhaustible energy. This paper presents a new energy recovery snubber for a high step-up boost converter, which can be used in renewable energy systems such as photovoltaic. The proposed snubber enjoys useful advantages such as providing soft-switching conditions, high voltage gain, simplicity of control, and balanced voltage stresses. In this topology, the voltage stress on the diodes and switches is a small percentage of the output voltage. A simple boost and a fly-forward converter are used to increase the output voltage. A snubber circuit is used for the main switch to recover the energy of the snubber capacitor. Therefore, the main switch turns off at low voltage and it causes a reduction in turn off loss. Experimental results of a 48V to 380V and 500W laboratory prototype show efficiency greater than 95% and verify the given theoretical analysis.
  • Keywords
    active snubber circuit , Boost Converter , fly , forward converter , new energy sources , Solar energy , voltage gain coefficient
  • Journal title
    Journal of Solar Energy Research
  • Journal title
    Journal of Solar Energy Research
  • Record number

    2744830