# Mathematical Model of 72 W Cosmic Module with MATLAB/SIMULINK

 International Journal of Electrical and Electronics Engineering © 2015 by SSRG - IJEEE Journal Volume 2 Issue 5 Year of Publication : 2015 Authors : Pranay Kumar Dewangan, Amit Goswami, Sanjay Kumar Dewangan 10.14445/23488379/IJEEE-V2I5P104
##### How to Cite?

Pranay Kumar Dewangan, Amit Goswami, Sanjay Kumar Dewangan, "Mathematical Model of 72 W Cosmic Module with MATLAB/SIMULINK," SSRG International Journal of Electrical and Electronics Engineering, vol. 2,  no. 5, pp. 16-21, 2015. Crossref, https://doi.org/10.14445/23488379/IJEEE-V2I5P104

##### Abstract:

The Earth life is dependable upon infinite source of green energy. There is an increasing trends for the use of solar cells in industry and domestic appliances because cosmic energy is expected to play significant role in future grids as non-conventional resources. The Large-scaled integration of non-conventional sources into the grid is possible by the computer simulations so there is extreme growing demand for computer simulation of non-conventional resources. The Electrical energy gained by the photon energy of the sun technically named as Photovoltaic (PV). The proposed model is based upon the maximised electric power extraction from the solar cell radiation and electrical driver interface for implementing electrical characteristic of power limited systems in power simulations. This paper gives us details steps of one-by-one procedures for the simulation of photovoltaic (PV) modules with Matlab/Simulink. Single diode equivalent circuit is processed in order to examine I-V and P-V properties are obtained for the typical 72W PV module. The suggested model is designed using a user-friendly idol and a communication box like simulink section libraries. The model is dynamic in computational multiplicity and it is easy to build for representing wide-range of photovoltaic (PV) installations.

##### Keywords:

cosmic energy, photovoltaic cell, PV module, matlab/Simulink.

##### References:

[1] N.Pandiarajan and R. Muthu, “Mathematical Modeling of Photovoltaic module with simulink,” International Conference on Electrical Energy systems(ICEES 2011), pp.314-319, January 3-5, 2011.
[2] Cemal Keles, B. Baykant Alogoz, Muart Akcin, Asim Kaygusuz, Abdulkerim Karabiber, “A Photovoltaic System Model For Matlab/Simulink Simulations,” International Conference on Energy and Electrical Drives(POWERENG), pp.1643-1647, May 13-17, 2013.
[3] Kinal kachhiya, Makarand Lokhande, Mukesh Patel, “Matlab / Simulink Model of Solar PV Module and MPPT Algorithm,” National conference on Recent Trends in Engineering & Technology, May13-14, 2011.
[4] Alex Joseph, Kamala J, “PV Array Characteristics Analysis Under Partial Shading & Modeling of P&O MPPT Applied Boost convertor Using Matlab/Simulink,” International Conference on Energy Efficient Technologies For Sustainability (ICEETS), pp.596-601, 2013.
[5] Ramos Hernanz, JA., Campayo Martín, J.J. Zamora Belver, I., Larrañaga Lesaka, J., Zulueta Guerrero, E. Puelles Pérez, E. , “Modeling of Photovoltaic Module,” International Conference on Renewable Energies and Power Quality (ICREPQ) Granada (Spain), Marth23-25,2010.
[6] Samer Alsadi, Basim Alsayid, “Maximum Power Point Tracking Simulation For Photovoltaic Systems Using Perturb and Observe Algorithm,” International Journal of Engineering and Innovative Technology (IJEIT) Volume2, issue6, pp.80-85, December 2012.
[7] M.Veerachary, “Power Tracking for Nonlinear PV Sources with Coupled Inductor SEPIC Converter,” IEEE Transactions on Aerospace and Electronic Systems, vol.41, No.3, pp.1019-1029, July 2005.
[8] I. H. Altas and A.M. Sharaf, “A Photovoltaic ArraySimulation Model for Matlab-Simulink GUI Environment,” IEEE, Clean Electrical Power, International Conference on Clean Electrical Power (ICCEP '07), pp.341-345, June 14-16, 2007, Ischia, Italy.
[9] S.Chowdhury, S.P.Chowdhury, G.A.Taylor, and Y.H.Song, “Mathematical Modeling and Performance Evaluation of a Stand-Alone Polycrystalline PV Plant with MPPT Facility,” IEEE Power and Energy Society General Meeting-Conversion and Delivery of Electrical Energy in the 21st Century, pp.1-7, July 20-24, 2008.
[10] Jee-Hoonk Jung, and S. Ahmed, “Model Construction of Single Crystalline Photovoltaic Panels for Real-time Simulation,” IEEE Energy Conversion Congress & Expo, pp. 342-349, September 12-16, 2010, Atlanta, USA.
[11] S. Nema, R.K.Nema, and G.Agnihotri, “Matlab /simulink based study of photovoltaic cells / modules /array and their experimental verification,” International Journal of Energy & Environment, pp.487-500, Volume1, Issue 3, 2010.
[12] Chen Qi and Zhu Ming, "Photovoltaic Module for a standalone PV system," International Conference on applied physics and Industrial Engineering, pp. 94-110, 2012.