|
Titel:
|
|
High efficiency n-type metal wrap through cells and modules using industrial processes
|
|
|
|
Auteur(s):
|
Guillevin, N.; Gutjahr, A.; Geerligs, L.J.; Anker, J.; Bende, E.E.; Bennett, I.J.; Koppes, M.; Kossen, E.J.; Okel, L.A.G.; Slooff, L.H.; Broek, K.M.; Späth, M.; Tool, C.J.J.; Aken, B.B. van; Romijn, I.G.; Jianming, Wang; Ziqian, Wang; Zhai, jinye; Zhiliang, Wan; Shuquan, Tian; Zhiyan, Hu ; Gaofei, Li ; Bo, Yu; Jingfeng, Xiong
|
|
|
|
Gepubliceerd door:
|
Publicatie datum:
|
|
ECN
Zonne-energie
|
22-9-2014
|
|
|
|
ECN publicatienummer:
|
Publicatie type:
|
|
ECN-M--14-049
|
Conferentiebijdrage
|
|
|
|
Aantal pagina's:
|
Volledige tekst:
|
|
6
|
Download PDF
(408kB)
|
Samenvatting:
We report on our high efficiency n-type metal-wrap-through (MWT) cell and module technology. In this work, bifacial n-type MWT cells are produced by industrial processes in industrial full-scale and pilot-scale process equipment. The n-type cells benefit from high recombination lifetime in the wafer and bifaciality. When combined with MWT technology, high-power back-contact modules result, which can employ also very thin cells.
We will discuss optimization of the MWT contact layout and impact on paste consumption, showing how MWT technology, like multi-busbar technology, can support very low paste consumption while increasing efficiencies at the same time. We report a cell conversion efficiency of 21% (in-house measurement on a not conducting, but reflecting chuck), a significant gain compared to our earlier work.
Full-size modules (60 cells) have been made with power exceeding 300Wp and cell-to-module ratios of the different I-V parameters are discussed. Modules from cells with average efficiency of 20.9% are pending. This work shows that low-cost n-type bifacial cells are suitable for industrial high efficiency back-contact technology.
Terug naar overzicht.