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SUPERSCAN IV
The SUPERSCAN IV's model-based, digital regulation offers extremely dynamic responses and final speeds, which really come into play when used in MOTF-applications (Marking-and-processing-On-The-Fly) in conjunction with one of our linear translator modules. The robust, water-cooled master block design, combined with optional air flushing, enables applications at up to 6 kW laser power. Available in apertures of 10, 15, 20, and 30 mm.
MINISCAN III
The new MINISCAN III offers very stable digital control, which further improves noise and drift values, thereby making the system even more reliable and robust. Both the XY2-100 16 bit and the SL2-100 20 bit protocols can be used with the digital interface. A corresponding cable defines the use of the protocol. Available in apertures of 10, 14, and 20 mm.
AXIALSCAN FIBER RD-30
The AXIALSCAN FIBER RD-30 is a highly integrated pre-focusing beam deflection unit for use in industrial production environments. Whether laser welding, cutting or cleaning, thanks to its dust-proof housing and integrated collimation optics, the AXIALSCAN FIBER RD-30 is the ideal deflection unit even under harsh production conditions.
FOCUSSHIFTER RD-14
The FOCUSSHIFTER RD-14 is a 3D deflection unit that is especially valuable at low laser powers and in small and mediumsized processing fields. It uses a flat field correction using an f-theta lens and also offers highly dynamic adjustment of the z-position of the focus. Thanks to its compact housing and multiple mounting options, the FOCUSSHIFTER RD-14 fi ts into almost any laser system, making it the ideal solution for processing in 2.5D.
AM MODULE III
The AM-MODULE III is designed for additive production. This means reliability and process safety were basic ideas in the development of the system. Precise and pre-aligned integrated collimation and scanner optics allow to use lasers with best beam quality. The additional zoom function ensures that the focus shape is always maintained, even when working with dynamically enlarged spot diameters. And it can also dynamically compensate for possible variations in energy density in the scan field.