For the electronics industry, increased throughput is a vital contributor to economic success as well as the flexibility and quality of processing methods. Of ever-increasing importance, modern laser processing is particularly well-suited to fulfilling that industry's requirements - and those of other sectors, too. Specific examples of scanner-based processing methods include full-surface processing, and cutting of contours or openings in hardened glass in the manufacturing of smart devices. Specially developed to meet rigorous demands for dynamics, precision and long-term stability in 24/7 operation, SCANLAB's excelliSCAN scan system newly defines the core elements of scan technology.
An Impressive System Designed for Industrial Usage
excelliSCAN utilizes galvo scanners with ultra-precise digital angle sensors and a completely new SCANahead servo control: this control solution enables highly dynamic laser processing unencumbered by the existing limitations of conventional servos with tracking error. The new servo design achieves a previously unattainable union of very high speed with very high dynamic performance, thus delivering clear productivity gains to users. Moreover, high-speed contour marking accuracy (e.g. starting off from sharp corners and curves) is significantly improved.
excelliSCAN's new mechanical design provides enhanced stability, more compactness and optimal heat removal under dynamic load. In addition to the familiar water-cooling option, SCANLAB for the first time offers a system variant with efficient, active air-cooling. This is particularly welcome for machine designs that don't allow water as a coolant. excelliSCAN will initially be available with a 14-mm aperture; a 10-mm version is in preparation. Control is provided by the newly developed RTC 6 control board, which, together with the scan system, will debut this June at the laser tradeshow in Munich.