A Behavioral Model for Solar Cells With Transient Irradiation and Temperature Assessment

A Behavioral Model for Solar Cells With Transient Irradiation and Temperature Assessment

The time to market of maximum power point tracking circuits for solar cells depends on the time of transient simulations. But, the traditional tools use a nonlinear resistor model for the solar cells. The question is if it is possible to use another nonlinear relationship to improve the convergence...

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Veröffentlicht in:IEEE access 2019, Vol.7, p.90882-90890
Hauptverfasser: Gonzalez-Diaz, Victor Rodolfo, Romero-Camacho, Sergio, Ambrosio-Lazaro, Roberto C., Mino-Aguilar, Gerardo, Bonizzoni, Edoardo, Maloberti, Franco
Format: Artikel
Sprache:eng
Schlagworte:
analytical models
Circuits
Convergence
Current voltage characteristics
Integrated circuit modeling
Irradiation
Mathematical model
Maximum power tracking
Photovoltaic cells
Radiation effects
Solar cell
Solar cells
solar power generation
Solid modeling
Temperature
Temperature measurement
Transient analysis
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Zusammenfassung:The time to market of maximum power point tracking circuits for solar cells depends on the time of transient simulations. But, the traditional tools use a nonlinear resistor model for the solar cells. The question is if it is possible to use another nonlinear relationship to improve the convergence features. This paper presents a new method for modeling a solar cell, considering temperature and irradiation changes and an improved convergence performance. In this model, the solar cell's current-voltage (I-V) characteristics for three irradiation and two temperature conditions are required, showing a feasible procedure. The proposed model is fitted to three commercial solar cells exhibiting a maximum average error of 2.51 percent. It is tested in a transient analysis converging to the expected values in a maximum power point tracking circuit.
ISSN:2169-3536
2169-3536
DOI:10.1109/ACCESS.2019.2927364