A Model And Analysis Of Photovoltaic Modules With Irradiation And Temperature Variations Based On Simulation Technology

  • Ferdinand Hia Universitas Pembangunan Panca Budi, Medan, North Sumatera, Indonesia
  • Reza Erlangga Universitas Pembangunan Panca Budi, Medan, North Sumatera, Indonesia
  • Taufiq Kamil Universitas Pembangunan Panca Budi, Medan, North Sumatera, Indonesia
  • Fadhil Fahlevi Universitas Pembangunan Panca Budi, Medan, North Sumatera, Indonesia
  • Solly Aryza Universitas Pembangunan Panca Budi, Medan, North Sumatera, Indonesia
Keywords: Photovoltaics (PV), Irradiation, Temperature, IV and PV Characteristics, Simulation

Abstract

This article discusses the modeling and analysis of Photovoltaic (PV) modules with irradiation and temperature variations using simulation technology. Modeling is carried out on solar modules through the pn junction principle, a PV module model with temperature independence of photocurrent sources, diode saturation currents, and series resistances based on the Shockley diode equation. The photovoltaic process of solar radiation, PV cells convert a portion of the photovoltaic potential directly into electricity with IV and PV output characteristics. Electromagnetic radiation from the sun's energy is converted into electricity through the photovoltaic effect. The photovoltaic module simulation process with Matlab/Simulink, is carried out to observe the performance through the IV and PV characteristics of the solar module. The model, which is developed in a user-friendly manner using the Simulink block, shows the results of the PV characteristics when irradiation increases, the output current increases and the output voltage also increases. This results in a net increase in power output with increased irradiation at constant temperature.

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Published
2025-01-09
How to Cite
Ferdinand Hia, Reza Erlangga, Taufiq Kamil, Fadhil Fahlevi, & Solly Aryza. (2025). A Model And Analysis Of Photovoltaic Modules With Irradiation And Temperature Variations Based On Simulation Technology. INFOKUM, 13(01), 117-126. Retrieved from https://infor.seaninstitute.org/index.php/infokum/article/view/2765
Issue
Vol. 13 No. 01 (2025): Infokum
Section
Articles

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