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Data-Driven I–V Feature Extraction for Photovoltaic Modules

 
: Ma, X.; Huang, W.H.; Schnabel, E.; Köhl, M.; Brynjarsdottir, J.; Braid, J.L.; French, R.H.

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IEEE Journal of Photovoltaics 9 (2019), Nr.5, S.1405-1412
ISSN: 2156-3381
ISSN: 2156-3403
Englisch
Zeitschriftenaufsatz, Elektronische Publikation
Fraunhofer ISE ()

Abstract
In research on photovoltaic (PV) device degradation, current-voltage (I-V ) datasets carry a large amount of information in addition to the maximum power point. Performance parameters such as short-circuit current, open-circuit voltage, shunt resistance, series resistance, and fill factor are essential for diagnosing the performance and degradation of solar cells and modules. To enable the scaling of I-V studies to millions of I-V curves, we have developed a data-driven method to extract I-V curve parameters and distributed this method as an open-source package in R. In contrast with the traditional practice of fitting the diode equation to I-V curves individually, which requires solving a transcendental equation, this data-driven method can be applied to large volumes of I-V data in a short time. Our data-driven feature extraction technique is tested on I-V curves generated with the single-diode model and applied to I-V curves with different data point densities collected from three different sources. This method has a high repeatability for extracting I-V features, without requiring knowledge of the device or expected parameters to be input by the researcher. We also demonstrate how this method can be applied to large datasets and accommodates nonstandard I-V curves including those showing artifacts of connection problems or shading where bypass diode activation produces multiple “steps.” These features together make the data-driven I-V feature extraction method ideal for evaluating time-series I-V data and analyzing power degradation mechanisms in PV modules through cross comparisons of the extracted parameters.

: http://publica.fraunhofer.de/dokumente/N-564953.html