Design and simulation of a low-cost solar irradiance meter for PV applications

Rhiat Mohammed; Karrouchi Mohammed; Hassari Anas; Melhaoui Mustapha; Atmane Ilias; Azzaoui Hanae; El Ouariachi Mostafa; Bouchnaif Jamal; Schmitz Pascal; Hirech Kamal

doi:10.1051/e3sconf/202346900076

E3S Web of Conferences (Jan 2023)

Design and simulation of a low-cost solar irradiance meter for PV applications

Rhiat Mohammed,
Karrouchi Mohammed,
Hassari Anas,
Melhaoui Mustapha,
Atmane Ilias,
Azzaoui Hanae,
El Ouariachi Mostafa,
Bouchnaif Jamal,
Schmitz Pascal,
Hirech Kamal

Affiliations

Rhiat Mohammed: Higher School of Technology - LGEM Laboratory, Mohammed First University
Karrouchi Mohammed: Higher School of Technology - LGEM Laboratory, Mohammed First University
Hassari Anas: Higher School of Technology - LGEM Laboratory, Mohammed First University
Melhaoui Mustapha: Faculty of Sciences & Technics - LSEET Laboratory, Cadi Ayyad University
Atmane Ilias: Higher School of Technology - LGEM Laboratory, Mohammed First University
Azzaoui Hanae: Higher School of Education and Training - ASPIL Laboratory, Mohammed First University
El Ouariachi Mostafa: Higher School of Technology - LGEM Laboratory, Mohammed First University
Bouchnaif Jamal: Higher School of Technology - LGEM Laboratory, Mohammed First University
Schmitz Pascal: Solar-Institut Jülich, Aachen University of Applied Sciences
Hirech Kamal: Higher School of Technology - LGEM Laboratory, Mohammed First University

DOI: https://doi.org/10.1051/e3sconf/202346900076
Journal volume & issue: Vol. 469
p. 00076

Abstract

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This work presents the design and simulation of a low-cost solar irradiance meter based on a PV cell that offers a cheap alternative to existing expensive solar irradiance instruments like pyranometers. Our proposed theoretical framework establishes a direct correlation between solar irradiance and the short circuit current of the photovoltaic (PV) cell. Through sophisticated simulations, we have demonstrated that solar irradiance levels can be accurately determined by measuring the voltage drop across the shunt resistor connected to the PV cell. This voltage differential is subsequently amplified and captured by the analog to digital converter of a microcontroller. The real-time results are then displayed on a Liquid Crystal Display (LCD), providing immediate feedback. The proposed system can be used to measure direct solar irradiance in solar applications to estimate the energy generated by PV panels.

Published in E3S Web of Conferences

ISSN: 2267-1242 (Online)
Publisher: EDP Sciences
Country of publisher: France
LCC subjects: Geography. Anthropology. Recreation: Environmental sciences
Website: http://www.e3s-conferences.org/

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