Quantitative local current-voltage analysis and calculation of performance parameters of single solar cells in modules

Abstract Quantitative characterization of single cells already embedded in modules is performed by a combination of electroluminescence imaging and dark lock-in thermography. Electroluminescence imaging is used to determine the terminal voltages of single cells in modules, and dark lock-in thermography imaging enables the use of quantitative analyses of single solar cells with the software Local I-V 2. This combination yields spatially resolved images of the performance parameters of single cells. To check the reliability of the method also the directly measured voltages of the single cells in a module have been used for Local I-V evaluation and are compared to the results of Local I-V evaluation from voltages determined by EL. The accuracy of the voltage determination in our experiments is about ±1% compared to directly measured voltages, leading to an accuracy of the cell parameters such as J 01 , U oc , efficiency, power, FF, and so on of about ±2% using the voltages determined by EL for the Local I-V analysis. With the method introduced it is possible to quantitatively identify the performance of single solar cells in modules reliably and non-destructively, thereby tracking quantitative changes of the cell performance due to degradation processes with high sensitivity and spatial resolution becomes possible.