- Marks organic material such as wood, paper and leather
- Easy to integrate into production lines
- Thermoelectrical air cooling system
- High flexibility
- Minimal maintenance effort
- Easy operation and simple to learn how
- Extended range of auxiliaries
CO2 LASER MARKING SYSTEM
Technical specification
| Wave length | 10.600nm |
| Output power | 30W @ 50% ED |
| 20W @ 75% ED | |
| Beam mode | TEMoo, M²<1,2 |
| Pilot laser | integriert, 650nm / 1mW |
| Power consumption | typ.: 300W, max.: 600W |
Focussing lens system |
F 100----------------------------------F 150---------------------------------F 250------------------------ |
| Focus diameter* | 100µm--------------------------------125µm-------------------------------150µm----------------------- |
| Marking area | 70mm x 70mm--------------------110mm x 110mm-----------------180mm x 180mm------ |
| Dimensions (L x W x H) | 740mm x 201mm x 233mm |
| Weight | 20kg/ 44 pound (lb) |
| Cooling | Air cooling integrated in the laser beam source, no external cooling unit required |
| Laser class | 4, optional laser protective class 1 |
* Spot diameter on the workpiece. Deviations due to different material are possible.
With the COTwo Marker, ACI Laser GmbH supplements its range of innovative laser marking systems. The ALL-IN-ONE philosophy, which has also provided the basis for the development of this laser system, is represented by the compact design of the complete laser system. As it is for the diode pumped solid state lasers, external supply and cooling units are a thing of the past. With an optical output power of up to 30W, marking of glass, printed circuit boards and organic material, e.g. paper, wood and leather, is easily feasible. The COTwo Marker is offered with marking areas of 70mm x 70mm, 110mm x 110mm and 180mm x 180mm. With the same dimensions and electrical interfaces as of the solid state laser series, the laser is also controlled by the marking software MagicMark V3 delivered with the machine. Via the USB2.0-interface, the software identifies automatically the connected device as solid state or CO2 Laser.
