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Modelling the effects of distributed series resistance on Suns-Voc, m-Voc and Jsc-Suns curves of solar cells

A simple model based on the simulation of distributed series resistance effects in solar cells is presented. This model overcomes limitations of the standard two-diode model representation of solar cells in respect to fitting Suns-V oc (m-V oc ) and J sc -Suns curves. The model results include (i) a...

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Bibliographic Details
Main Authors: Kunz, O., Varlamov, S., Aberle, A.G.
Format: Conference Proceeding
Language:English
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Summary:A simple model based on the simulation of distributed series resistance effects in solar cells is presented. This model overcomes limitations of the standard two-diode model representation of solar cells in respect to fitting Suns-V oc (m-V oc ) and J sc -Suns curves. The model results include (i) an improved understanding of two-dimensional current flows in shunted solar cells, (ii) the prediction of shunt types from m-V oc curves and corresponding distributed resistance model fits, (iii) the insight that lateral current flows in solar cells are responsible for deviations between J sc -Suns data and two-diode model fits in the high illumination range. The presented approach extends the application range of Suns-V oc measurements to solar cells which cannot adequately be described with the two-diode model.
ISSN:0160-8371
DOI:10.1109/PVSC.2009.5411707