SIMULATIVE STUDY OF PHOTOVOLTAIC MODULE BASED CONVERTER-INVERTER SYSTEM

Authors

  • Joewins Jacob Department of Electrical Engineering, S. A. T. I. Vidisha - 464001 R.G.P.V. University, (M.P.), India

Abstract

In this work modelling and simulation for power generation application has been introduce here via electronic equivalent circuit the Photo-Voltaic mathematical model developed here. The developed model introduces the prediction of Photo-Voltaic cell behaviour by variation in temperature and radiation of solar circumstances. The output of Photo-Voltaic cell 56 volt (depending on the temperature variation) given to the BOOST converter with Inverter. Finally we get 230V AC output as per our requirement.

 

Keywords: Improved boost converter, embedded controller, solar cell

References

Vimal M. Vaniya, Jaydeep G. Gajipara Prof. Jayanti A. Jadav “Single Phase PWM Inverter With Close Loop Dc-Dc Boost Converter For Solar Application”

International Journal of Engineering Research & Technology (IJERT) Vol. 2 Issue 5, May – 2013 ISSN: 2278-0181

Tarak Salmi, Mounir Bouzguenda, Adel Gastli, Ahmed Masmoudi “MATLAB/ Simulink Based Modelling of Solar Photovoltaic Cell” international journal of renewable energy research tarak salmi et al., Vol.2, No.2, 2012.

German Advisory Council on Global Change WBGU Berlin 2003 www.wbgu.de; Renewable Energy Policy Network for the 21st Century Renewable Global Status Report 2006.

Distributed Power Coalition of America. “What is Distributed Power?” http://www.distributedgeneration. com/dpca/what.html.

Power electronics and applications by M.H.Rashid”person publication” third addition 2010.

Power Electronics by “P S Bhimbra” Khanna publication 7th addition 2009.

K.B. Khanchandani, and M.D. Singh, Power Electronics, New Delhi: Tata Mcgrawhill, 2005.

Texas Instruments. Application Report of SLVA372B–November 2009 July 2010 Basic Calculation of a Boost.

Converter’s Power Stage Low Power DC/DC Application by Brigitte Hauke.

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Published

2015-09-05