German equipment supplier 4JET has launched a new thin film system designed for P1, P2 and P3 laser scribing of perovskite, cadmium telluride (CdTe), and copper indium gallium selenide (CIGS) solar technologies.
German equipment supplier 4JET unveiled a new laser system for thin film scribing.
Called TOPAZ P1/P2/P3, the new laser system can be equipped with a wide range of laser sources, including nanosecond, picosecond, and femtosecond lasers in the infrared, green or ultraviolet wavelength ranges from can be done from either the substrate-side or from the film-side. The company claims a throughput of greater than 10,000 substrates per day with 10-second cycle times for 300 scribe lines.
The working area is said to go up 2,400 mm x 1,300 mm, supporting substrate thickness in the range of 2 mm to 4 mm. “Customers can, of course, request specific dimensions within the working area range,” Benjamin Bopp, sales director at 4JET, told pv magazine.
The system has a laser sub-system design featuring “individual path tracking,” which Bopp said is related to the other features, such as individual auto-focus, and individual power-balancing for every single processing beam.
“In other concepts, there is only one sensor for a multitude of laser beams, for example, which causes inaccuracies by design. The laser beams from the source are split into multiple laser beams in the processing head. Since beam splitting is never perfect in real life, this leads to uneven power distribution, and therefore uneven scribing results,” said Bopp.
The laser units each have their own sensors, power level settings, and focus optics. These features result in more precise measurement and a higher number of measurement points, according to Bopp, which in turn means more precise, consistent scribing, and the potential to reduce unproductive areas between scribing lines, te so-called dead zones.
According to the manufacturer, the system design has also the benefit of being able to bring the scribes closer together without increasing the risk of crossing, which leads to fewer inaccuracies in terms of focus position, and fade out lines, especially at the edges of the modules.
The new solution has a power requirement of 400Vac, 63 A and a factory-floor footprint of 7,500 mm³ x 5,650 mm³ x 2,300 mm³, including peripherals.
First customers are using the new systems in pilot line production with several systems on order for mass production purposes, according to Bopp.
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Source: pv magazine