Are you looking for a marking unit for laser markings with ultrashort pulses? Then the TruMicro Mark 2000 is the ideal choice. The first all-around, turnkey solution for ultrashort pulse laser in a marking station includes a scanner, laser cooler, and software, in addition to the laser. With peak pulse powers of 0.5 MW, it is productive even with moderate average powers in cold material processing. The system offers the benefits of maximum process stability and monitored pulse energy for each individual pulse. The multi-pulse technology enables the individual adaptation of pulse number and distance in freely configurable pulse trains. This means that you can also use the TruMicro Mark 2000 for other applications in cold processing.
High beam quality for absolute precision
The ultrafast power modulator keeps power and pulse energy at an exact level.
With ultrashort pulses, you can mark even highly reflective surfaces.
With the TruMicro Mark 2000, you can mark implants and surgical instruments in a corrosion-resistant way.
Create deep black, corrosion-resistant markings with extreme peak pulse power.
Mark chromed plastics without modifying the polymer layer.
100% of the average power even in individual pulses, as a result of monitored fiber technology.
TruMicro Mark 2020
TruMicro Mark 2030
|BEAM QUALITY (M²)||< 1.3||< 1.3|
|WAVELENGTH||1030 nm||1030 nm|
|AVERAGE OUTPUT POWER||10 W||20 W|
|PULSE DURATION||20 ps|
< 900 fs
< 400 fs
< 900 fs
< 400 fs
|MAX. PULSE ENERGY||10 µJ Optional: 20 µJ and 50 µJ||20 µJ Optional: 50 µJ|
|MAX. REPETITION RATE||1000 kHz Optional: 2000 kHz, 200 kHz for 50 µJ pulse energy (10 W)||1000 kHz Optional 2000 kHz, 400 kHz for 50 µJ pulse energy (20 W)|
|DIMENSIONS OF LASER HEAD (W X H X D)||838.5 mm x 375 mm x 180 mm||838.5 mm x 375 mm x 180 mm|
|DIMENSIONS OF SUPPLY CABINET (W X H X D)||600 mm x 1225 mm x 825 mm||600 mm x 1225 mm x 825 mm|
|DIMENSIONS OF WORK STATION (W X H X D)||860 mm x 2000 mm x 1312 mm||860 mm x 2000 mm x 1312 mm|
In the Battery Pack the thermo management system provides the optimum temperature conditions. Further information: https://youtu.be/dWe3MQtmi_AShow all news