Resumen
En la literatura han planteado el uso de modelos matemáticos, para predecir la eficiencia resaltando la importancia de estudiar a los paneles fotovoltaicos, en función de las condiciones atmosféricas. Aquí se establecen ecuaciones de correlación para; la eficiencia, el voltaje en circuito abierto, y la corriente de cortocircuito. Las ecuaciones se establecen en función de la irradiancia, y la temperatura ambiente. Se encontró que la predicción da mejores resultados combinando la ecuación del voltaje en circuito abierto con la ecuación de la corriente de cortocircuito, en comparación con la ecuación de la eficiencia establecida por correlación directa. Para establecer la correlación se usa el método de regresión lineal múltiple a partir de mediciones en horarios pico. Se demostró que la ecuación de correlación del voltaje en circuito abierto, en combinación con las mediciones de la corriente de cortocircuito, concuerdan muy bien con la eficiencia medida.
Palabras Clave: Eficiencia, Irradiancia, Panel fotovoltaico.

Abstract
In the literature, the use of mathematical models has been proposed to predict efficiency, highlighting the importance of studying photovoltaic panels, depending on atmospheric conditions. Here correlation equations are established for; efficiency, open circuit voltage, and short circuit current. The equations are established as a function of irradiance and ambient temperature. It was found that the prediction gives better results by combining the open circuit voltage equation with the short circuit current equation, compared to the efficiency equation established by direct correlation. To establish the correlation, the multiple linear regression method is used from measurements at peak times. The open-circuit voltage correlation equation, in combination with the short-circuit current measurements, was shown to agree very well with the measured efficiency.
Keywords: Efficiency, Irradiance, Photovoltaic panel.

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