AM-MODULE NEXT GEN Prefocusing Deflection Units

AMS item number: SW11865

Optical Deflection ±0.325 rad; Processing Speed 30 rad/s; Positioning Speed 30 rad/s; Digital... more

Product information "AM-MODULE NEXT GEN Prefocusing Deflection Units"

Optical Deflection ±0.325 rad; Processing Speed 30 rad/s; Positioning Speed 30 rad/s; Digital Control via RL3-100 Protocol; Resolution 0.76 µrad

Raylase’s AM-MODULE NEXT GEN prefocusing deflection units for fiber-coupled lasers feature homogeneous power density and exceptionally low drift values. They enable ultra-dynamic, rapid processing with flexible spot diameters. Full digital, model-based control is ensured with absolute precision. Up to 4 modules can be operated simultaneously over one construction field. Direct connection of a photodiode or pyrometer for process control is also possible.

For more effective process monitoring, the BASE-Module can be expanded with the SENSOR-Module. The two integrated sensors not only ensure customized quality control, they also enable archiving and process control. Focus tracking is built-in for one of the sensors. Data can be preprocessed either directly in the expanded camera electronics or on a powerful frame grabber.

The AM-MODULE NEXT GEN prefocusing deflection units are available in two variants: As a standard module or a high-performance module with fully digitally galvo-scanner. The high-performance module is designed for use in the manufacture of ultra-high precision components which must satisfy particularly high safety specifications. This application is of particular interest for users in the aerospace industry, automotive manufacturing and medical engineering.

Key Features:

Fast Beam Deflection With Uniform Power Distribution Over the Entire Field
High Dynamic for 3D-Production of Metal Parts for Working Fields From up to 600 mm x 600 mm
Innovative Design for Effective Full Parallelization Over the Working Field
Direct Fiber Connection and Zoom Axis for Highly Dynamic Change of Spot Size
On-Axis Process Monitoring and Control Using Various Sensors With Focus Tracking
Control: Via RL3-100 Protocol 20 Bit
Optical Deflection (typ.): ±0.325 rad
Resolution RL3-100, 20 Bit: 0.76 µrad
Repeatability (RMS): <0.4, <2.0 µrad
Position Noise (RMS): <2.0, <3.2 µrad
Max. Temperature Drift: 8, 15 ppm/K Gain, 10, 15 µrad/K Offset
Long-term Drift (8 h): <50, <60 µrad, <30, <40 µrad (Water Temperature Control)
Beam Divergence: 80 to 140 mrad (Typ.), 90 to 150 mrad (Max.)
Tuning: Hatching (H)
Processing Speed: 30 rad/s
Positioning Speed: 30 rad/s
Tracking Error: 0.23, 0.25 ms
Step Response Time (@1% of Full Scale): 0.66, 0.70 ms
Tracking Error Focusing Unit: 1.5 ms
Speed of Moving Lens: 880 mm/s
Power Supply: +48 VDC, 6 A RMS, max. 10 A
Temperature Range: +15°C to +40°C
Protection: IP64
Dimensions: 284 x 150 x 393 mm (BASE Module), 315 x 150 x 393 mm (SENSOR Module), 589 x 150 x 393 mm (Total)
Weight: Approx. 15 kg (BASE Module), 14 kg (SENSOR Module)

Applications: Manufacturing of Ultra-high Precision Components With Particularly High Safety Specifications; Aerospace Industry; Automotive Manufacturing; Medical Engineering