Influence of Solder Pads to PERC Solar Cells for Module Integration

Publikation: Beitrag in FachzeitschriftKonferenzaufsatz in FachzeitschriftForschungPeer-Review

Autoren

  • Fabian Kiefer
  • Till Brendemühl
  • Miriam Berger
  • Anja Lohse
  • Sabine Kirstein
  • Nadja Braun
  • Martin Lehr
  • Frank Heinemeyer
  • Verena Jung
  • Arnaud Morlier
  • Susanne Blankemeyer
  • Iris Kunze
  • Renate Winter
  • Nils Peter Harder
  • Thorsten Dullweber
  • Marc Köntges
  • Rolf Brendel

Organisationseinheiten

Externe Organisationen

  • Institut für Solarenergieforschung GmbH (ISFH)
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Seiten (von - bis)368-374
Seitenumfang7
FachzeitschriftEnergy Procedia
Jahrgang38
Frühes Online-Datum5 Sept. 2013
PublikationsstatusVeröffentlicht - 2013
Veranstaltung3rd International Conference on Crystalline Silicon Photovoltaics, SiliconPV 2013 - Hamelin, Deutschland
Dauer: 25 März 201327 März 2013

Abstract

The majority of screen printed solar cells has silver pads at the rear side to enable soldering for the module manufacturing. The pads increase the recombination at the silicon/metal interface due to the absence of a back surface field (BSF) at the solder pads. This reduces the efficiency of full-area Al-BSF solar cells. For passivated emitter and rear cells (PERC), a large area fraction of the rear side is covered with the passivation layer. When using specially designed Ag pastes for the rear side of PERC cells, the passivation of this layer is maintained, and the rear recombination is reduced. A comparison of solar cells with and without solder pads confirms that there is no loss in solar cell performance, both cell types achieve an efficiency of 19.6%. We investigate the influence of solder pads to PERC solar cells by calculating the effective rear surface recombination. The calculations confirm that there is a loss in open circuit voltage of less than 2 mV due to the solder pads. A 54-cell PERC PV module is manufactured. The cell-to-module loss reveals that the module process is still to be optimized. Comparable modules made from 9 solar cells lost less than 1% relative in all J-V parameters after a 1000h damp-heat test.

ASJC Scopus Sachgebiete

Zitieren

Influence of Solder Pads to PERC Solar Cells for Module Integration. / Kiefer, Fabian; Brendemühl, Till; Berger, Miriam et al.
in: Energy Procedia, Jahrgang 38, 2013, S. 368-374.

Publikation: Beitrag in FachzeitschriftKonferenzaufsatz in FachzeitschriftForschungPeer-Review

Kiefer, F, Brendemühl, T, Berger, M, Lohse, A, Kirstein, S, Braun, N, Lehr, M, Heinemeyer, F, Jung, V, Morlier, A, Blankemeyer, S, Kunze, I, Winter, R, Harder, NP, Dullweber, T, Köntges, M & Brendel, R 2013, 'Influence of Solder Pads to PERC Solar Cells for Module Integration', Energy Procedia, Jg. 38, S. 368-374. https://doi.org/10.1016/j.egypro.2013.07.291, https://doi.org/10.15488/1002
Kiefer, F., Brendemühl, T., Berger, M., Lohse, A., Kirstein, S., Braun, N., Lehr, M., Heinemeyer, F., Jung, V., Morlier, A., Blankemeyer, S., Kunze, I., Winter, R., Harder, N. P., Dullweber, T., Köntges, M., & Brendel, R. (2013). Influence of Solder Pads to PERC Solar Cells for Module Integration. Energy Procedia, 38, 368-374. https://doi.org/10.1016/j.egypro.2013.07.291, https://doi.org/10.15488/1002
Kiefer F, Brendemühl T, Berger M, Lohse A, Kirstein S, Braun N et al. Influence of Solder Pads to PERC Solar Cells for Module Integration. Energy Procedia. 2013;38:368-374. Epub 2013 Sep 5. doi: 10.1016/j.egypro.2013.07.291, 10.15488/1002
Kiefer, Fabian ; Brendemühl, Till ; Berger, Miriam et al. / Influence of Solder Pads to PERC Solar Cells for Module Integration. in: Energy Procedia. 2013 ; Jahrgang 38. S. 368-374.
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title = "Influence of Solder Pads to PERC Solar Cells for Module Integration",
abstract = "The majority of screen printed solar cells has silver pads at the rear side to enable soldering for the module manufacturing. The pads increase the recombination at the silicon/metal interface due to the absence of a back surface field (BSF) at the solder pads. This reduces the efficiency of full-area Al-BSF solar cells. For passivated emitter and rear cells (PERC), a large area fraction of the rear side is covered with the passivation layer. When using specially designed Ag pastes for the rear side of PERC cells, the passivation of this layer is maintained, and the rear recombination is reduced. A comparison of solar cells with and without solder pads confirms that there is no loss in solar cell performance, both cell types achieve an efficiency of 19.6%. We investigate the influence of solder pads to PERC solar cells by calculating the effective rear surface recombination. The calculations confirm that there is a loss in open circuit voltage of less than 2 mV due to the solder pads. A 54-cell PERC PV module is manufactured. The cell-to-module loss reveals that the module process is still to be optimized. Comparable modules made from 9 solar cells lost less than 1% relative in all J-V parameters after a 1000h damp-heat test.",
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TY - JOUR

T1 - Influence of Solder Pads to PERC Solar Cells for Module Integration

AU - Kiefer, Fabian

AU - Brendemühl, Till

AU - Berger, Miriam

AU - Lohse, Anja

AU - Kirstein, Sabine

AU - Braun, Nadja

AU - Lehr, Martin

AU - Heinemeyer, Frank

AU - Jung, Verena

AU - Morlier, Arnaud

AU - Blankemeyer, Susanne

AU - Kunze, Iris

AU - Winter, Renate

AU - Harder, Nils Peter

AU - Dullweber, Thorsten

AU - Köntges, Marc

AU - Brendel, Rolf

PY - 2013

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N2 - The majority of screen printed solar cells has silver pads at the rear side to enable soldering for the module manufacturing. The pads increase the recombination at the silicon/metal interface due to the absence of a back surface field (BSF) at the solder pads. This reduces the efficiency of full-area Al-BSF solar cells. For passivated emitter and rear cells (PERC), a large area fraction of the rear side is covered with the passivation layer. When using specially designed Ag pastes for the rear side of PERC cells, the passivation of this layer is maintained, and the rear recombination is reduced. A comparison of solar cells with and without solder pads confirms that there is no loss in solar cell performance, both cell types achieve an efficiency of 19.6%. We investigate the influence of solder pads to PERC solar cells by calculating the effective rear surface recombination. The calculations confirm that there is a loss in open circuit voltage of less than 2 mV due to the solder pads. A 54-cell PERC PV module is manufactured. The cell-to-module loss reveals that the module process is still to be optimized. Comparable modules made from 9 solar cells lost less than 1% relative in all J-V parameters after a 1000h damp-heat test.

AB - The majority of screen printed solar cells has silver pads at the rear side to enable soldering for the module manufacturing. The pads increase the recombination at the silicon/metal interface due to the absence of a back surface field (BSF) at the solder pads. This reduces the efficiency of full-area Al-BSF solar cells. For passivated emitter and rear cells (PERC), a large area fraction of the rear side is covered with the passivation layer. When using specially designed Ag pastes for the rear side of PERC cells, the passivation of this layer is maintained, and the rear recombination is reduced. A comparison of solar cells with and without solder pads confirms that there is no loss in solar cell performance, both cell types achieve an efficiency of 19.6%. We investigate the influence of solder pads to PERC solar cells by calculating the effective rear surface recombination. The calculations confirm that there is a loss in open circuit voltage of less than 2 mV due to the solder pads. A 54-cell PERC PV module is manufactured. The cell-to-module loss reveals that the module process is still to be optimized. Comparable modules made from 9 solar cells lost less than 1% relative in all J-V parameters after a 1000h damp-heat test.

KW - Metallisation

KW - PERC

KW - PERC PV module

KW - Solar Cells

KW - Solder Pads

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U2 - 10.1016/j.egypro.2013.07.291

DO - 10.1016/j.egypro.2013.07.291

M3 - Conference article

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JO - Energy Procedia

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