Archivio Istituzionale della RicercaMulti-Terminal multi-junction solar cells (MJSC) offer higher efficiency potential than series connected (two-Terminal) ones. In addition, for terrestrial applications, the efficiency of multi-Terminal solar cells is less sensitive to solar spectral variations than the two-Terminal series-connected one. In space, generally, cells are always illuminated with AM0 spectrum and no impact is expected from spectral variations. Still, in space, the multi-Terminal approach offers some advantages in comparison with the series-connected architecture approach derived from a higher end of life (EOL) efficiency. In this work we review the potential of multi-Terminal solar cells for achieving extended EOL efficiencies with emphasis in the potential of the three-Terminal heterojunction bipolar transistor solar cell, a novel multi-Terminal MJSC architecture with a simplified structure not requiring, for example, tunnel junctions.
Potential of the three-Terminal heterojunction bipolar transistor solar cell for space applications / Marti, A.; Cappelluti, F.; Antolin, E.; Garcia-Linares, P.; Zehender, M.; Svatek, S. A.; Artacho, I.; Cristobal, A. B.; Gonzalez, J. R.; Baur, C.; Ramiro, I.. - ELETTRONICO. - (2019), pp. 1-5. (Intervento presentato al convegno 2019 European Space Power Conference, ESPC 2019 tenutosi a Juan-les-Pins (FRANCIA) nel 2019) [10.1109/ESPC.2019.8932085].
Potential of the three-Terminal heterojunction bipolar transistor solar cell for space applications
Cappelluti F.;
2019
Abstract
Multi-Terminal multi-junction solar cells (MJSC) offer higher efficiency potential than series connected (two-Terminal) ones. In addition, for terrestrial applications, the efficiency of multi-Terminal solar cells is less sensitive to solar spectral variations than the two-Terminal series-connected one. In space, generally, cells are always illuminated with AM0 spectrum and no impact is expected from spectral variations. Still, in space, the multi-Terminal approach offers some advantages in comparison with the series-connected architecture approach derived from a higher end of life (EOL) efficiency. In this work we review the potential of multi-Terminal solar cells for achieving extended EOL efficiencies with emphasis in the potential of the three-Terminal heterojunction bipolar transistor solar cell, a novel multi-Terminal MJSC architecture with a simplified structure not requiring, for example, tunnel junctions.
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08932085Marti_VoR.pdf
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2006.01089Marti_AAM.pdf
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https://hdl.handle.net/11583/2855902