Abstract: | |
The back end process of passivated emitter and rear cells (PERC) consists of at least one laser process and three screen-printing steps followed by the stringing and tabbing of the cells. To reduce the number of steps we have developed a process that metallizes the rear side including contact formation and simultaneously interconnects the cells. We attach an Al foil to an encapsulant layer. By laser processing we form 'laser-fired and bonding contacts' (LFBC) on the passivated rear side of the solar cells. The Al foil contacting the rear is laser welded to the Ag screen-printed front side metallization of the next cell and thus forms the cell interconnection. The laser contacts on the rear show a surface recombination velocity Scont for the contact regions of cm/s and a contact resistivity of 3.52 m?cm2. We present a first proof-of concept module combining the in-laminate Ag-Al laser welding and the LFBC reaching an efficiency of 18.4%. In accelerated aging test modules show no degradation (< 1% in efficiency) after 100 humidity-free cycles.
|
|
License of this version: | CC BY-NC-ND 4.0 Unported - https://creativecommons.org/licenses/by-nc-nd/4.0/ |
Publication type: | Article |
Publication date: | 2016 |
Keywords english: | laser fiered contacts, laser welding, module interconnection, PERC solar cells, Aluminum, Aluminum foil, Bonding, Crystalline materials, Efficiency, Laser beam welding, Passivation, Screen printing, Silver, Solar cells, Testing, Welding, Accelerated aging test, Cell interconnection, Contact formation, Contact resistivities, module interconnection, Proof of concept, Surface recombination velocities, Integrated circuit interconnects |
DDC: | 530 | Physik |
Controlled keywords(GND): | Konferenzschrift |
Showing items related by title, author, creator and subject.