Jenoptik Lasers & Material Processing to release new crystalline photovoltaics products at Spain's PVSEC

Jena, Germany – Jenoptik's Lasers Business Unit will introduce its new infrared JenLas disk IR70 disk laser at the 25th European Photovoltaic Solar Energy Conference and Exhibition (PVSEC), a leading European trade fair for equipment and technology in the photovoltaic industries, in Valencia, Spain from September 6-9, 2010.

Jena, Germany – Jenoptik's Lasers Business Unit will introduce its new infrared JenLas disk IR70 disk laser at the 25th European Photovoltaic Solar Energy Conference and Exhibition (PVSEC), a leading European trade fair for equipment and technology in the photovoltaic industries, in Valencia, Spain from September 6-9, 2010.

Jenoptik’s disk laser product family, including the JenLas disk IR50, is already established in the market. By expanding the product family to higher power, the JenLas disk IR70 laser meets the requirements of the new technologies in the field of photovoltaics such as metal wrap-through (MWT) and emitter wrap-through (EWT – up to 20,000 holes/second).

The electrical efficiency of the cells can be increased through the use of MWT or EWT technology. In order to increase the active surface area of the cells, in the case of both technologies, the contacts are laid from the front to the rear side of the cell. The contact fingers that are currently used as standard and covers parts of the active surface area can thus be discarded. Further applications are long-distance marking of wafers, laser-fired contacts (LFC), and laser edge isolation.

The JenLas® disk IR70 allows users to achieve the highest quality at maximum throughput. This feature allows the user to achieve optimal laser parameters because the laser pulse length can be adjusted independently of the repetition rate. The laser covers a wide range of applications in the infrared wavelength range at 1030 nm with pulse energies up to 7 mJ and repetition rates up to 100 kHz. Consequently, the 65 W system is ideal for the laser drilling of silicon wafers, which then allow the efficient production of back-contact solar cells.

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