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PVpanel Sim
Two dimensional spice simulation of thin film solar panels, including shunt induced variability, and partial shadow effects.
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Archive Version 2.0
Published on 02 Dec 2013 All versions
doi:10.4231/D37D2Q73G cite this
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Abstract
PVpanel Sim is a spice simulation utility for two dimensional simulation of thin film solar panels, using the conventional equivalent circuit for individual cells. The tool incorporates the variability of shunt conduction from cell to cell, and effect of sheet resistance of contact material. This allows the user to assess the gap between cell and module efficiency in thin film technologies. The user can change the distribution of shunts from cell to cell, and vary the contact sheet resistance to understand their effect on panel efficiency.
Another feature of the tool allows the user to analyze the effect of partial shadowing the panel due to nearby object in full 2D. The tool calculates the reverse stresses generated on the shaded cells, based on the user defined breakdown characteristics.
The second version of this tool adds the capability by adding an enhanced non-linear equivalent circuit more suitable for thin film solar cells.
Credits
Mario R. Pinon, Elliott E. Gurrola, Sourabh Dongaonkar, and Muhammad A. Alam
Sponsored by
SRC-ERI Network for Photovoltaic Technology
References
Universality of non-Ohmic shunt leakage in thin-film solar cells,” Journal of Applied Physics
S. Dongaonkar, J. D. Servaites, G. M. Ford, S. Loser, J. Moore, R. M. Gelfand, H. Mohseni, H. W. Hillhouse, R. Agrawal, M. A. Ratner, T. J. Marks, M. S. Lundstrom, and M. A. Alam
vol. 108, no. 12, p. 124509, 2010
Identification, Characterization and Implications of Shadow Degradation in Thin Film Solar Cells
S. Dongaonkar, Y. Karthik, D. Wang, M. Frei, S. Mahapatra, and M. A. Alam
Reliability Physics Symposium (IRPS), 2011 IEEE International, 2011, pp. 5E.4.1 – 5E.4.5.
Physics and Statistics of Non-Ohmic Shunt Conduction and Metastability in Amorphous Silicon p-i-n Solar Cells
S. Dongaonkar, Karthik Y., S. Mahapatra, and M. A. Alam
IEEE Journal of Photovoltaics, 1(2), 111-117, (2011)
End to End Modeling for Variability and Reliability Analysis of Thin Film PV
S. Dongaonkar, and M. A. Alam
2012 IEEE International Reliability Physics Symposium (IRPS 2012), pp. 4A.4.1-4A.4.6
Universal statistics of parasitic shunt formation in solar cells, and its implications for cell to module efficiency gap
S. Dongaonkar, S. Loser, E. J. Sheets, K. Zaunbrecher, R. Agrawal, T. J. Marks, and M. A. Alam
Energy & Environmental Science, vol. 6, pp. 782–787, 2013
S. Dongaonkar, J. D. Servaites, G. M. Ford, S. Loser, J. Moore, R. M. Gelfand, H. Mohseni, H. W. Hillhouse, R. Agrawal, M. A. Ratner, T. J. Marks, M. S. Lundstrom, and M. A. Alam
vol. 108, no. 12, p. 124509, 2010
Identification, Characterization and Implications of Shadow Degradation in Thin Film Solar Cells
S. Dongaonkar, Y. Karthik, D. Wang, M. Frei, S. Mahapatra, and M. A. Alam
Reliability Physics Symposium (IRPS), 2011 IEEE International, 2011, pp. 5E.4.1 – 5E.4.5.
Physics and Statistics of Non-Ohmic Shunt Conduction and Metastability in Amorphous Silicon p-i-n Solar Cells
S. Dongaonkar, Karthik Y., S. Mahapatra, and M. A. Alam
IEEE Journal of Photovoltaics, 1(2), 111-117, (2011)
End to End Modeling for Variability and Reliability Analysis of Thin Film PV
S. Dongaonkar, and M. A. Alam
2012 IEEE International Reliability Physics Symposium (IRPS 2012), pp. 4A.4.1-4A.4.6
Universal statistics of parasitic shunt formation in solar cells, and its implications for cell to module efficiency gap
S. Dongaonkar, S. Loser, E. J. Sheets, K. Zaunbrecher, R. Agrawal, T. J. Marks, and M. A. Alam
Energy & Environmental Science, vol. 6, pp. 782–787, 2013
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