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Electronic Devices

Development of Photovoltaic Module using Matlab Program

Rostislav Rusev
Faculty of Telecommunications Technical University of Sofia Kl. Ohridski 8, 1797 Sofia Bulgaria

Abstract: With the help of the semi-empirical approach we have developed a photovoltaic module using Copper Indium Selenide. We have prepared the coding with matlab and checked the simulation data with real testing data using the input given by two different producers. The outcome produces the acceptance as it is able to predict the new voltage and power at a high irradiance and the voltage values are acceptable. We prove that this model is used very successfully and can to use to measure the power generation in the live scenario.

Keywords: Copper Indium Gallium Selenide (CIGS) Photovoltaic Modules, Behavioural Model Development of Photovoltaic Module using Matlab Program

DOI:https://doi.org/10.6025/ed/2022/11/2/35-40

Full_Text PDF 1.86 MB Download: 78 times

References:

[1] Solar Frontier achieves world record thin-film solar cell efficiency of 22.9% [Online]. Available: www.solar-frontier.com/eng/ news/2017/1220_press.html.
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[4] Sun, X., Silverman, T.J., Garris, R.L., Deline, C. & Alam, M.A. (2016) An illumination- and temperature-dependent analytical model for copper indium gallium diselenide (CIGS) solar cells. IEEE Journal of Photovoltaics, 6, 1298–1307 [DOI: 10.1109/ JPHOTOV.2016.2583790].
[5] MATLAB Website. www.mathworks.com.
[6] Solibro website: http://solibrosolar.Com/fileadmin/image/05_News_Downloads/Downloads/D ata_sheets/G2.1/ Solibro_datasheet_SL2_G2-1_2017- 04_Rev03_EN.pdf.
[7] Solar Frontier website. www.solarfrontier. com/eng. Solutions/products/pdf/datesheat_170.pdf.
[8] Angelov, G., Rusev, R., Andonova, A. & Hristov, M. (2013) Behavioral modeling of polycrystalline module ETP660230WW. Proceedings of the International Spring Seminar on Electronics Technology, p 221–226, Art. no. 6648246.

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