Industrial Laser Material Processing
Small Geometries – High Dynamic – Debris Protection
Machining platforms for creating tiny geometries in the micron range demand motion systems that provide a consistent, accurate and dynamic processing in multiple dimensions. As the size and mass of the manufactured parts may be challenging and particles may be formed during machining, the system components used need to be highly precise, stiff, robust and offer reliable performance.
Key Features of the Stages
Reference edge to support the alignment in the machine
Connector for purge air to create overpressure
Side seal and hard cover to protect against particles
Robust industrial IP65 connectors for flexible cable exit
Easy access to the lubrication system
Different encoder variants including absolute-measuring sensors offering nanometer resolution
Different stage widths for different loads and cantilever reduction
Laser Positioning
- Synchronous servo motor
- Heavy-duty recirculating ball bearings
- Holding brake
- Ability to run directly on 110/240 volt AC
>> L-417 High-Load Linear Stage
Workpiece Positioning
- Ironless magnetic direct drive linear motors
- Heavy-duty recirculating ball bearings
- XY configuration without adapter plate
- XY drag chain cable management
>> V-417 High-Load Linear Motor Stage
Motion Control
- ACS SPiiPlus EtherCAT® network motion controllers and drive modules for optimum synchronization of the axes and simultaneous control of the laser
>> ACS Motion Controllers - The Laser Control Module (LCM) can control a laser source directly with full synchronization to the motion path. LCM is able to interface with a wide range of lasers such as DPSS, CO2, excimer, fiber, Q-switched, picosecond, or femtosecond. It is also suitable for position based triggering applications for test and inspection tasks
>> ACS Laser Control Module
Downloads
Brochure
Automation Platforms for Laser Material Processing
Precision – Throughput – Synchronized Motion
Version / Date
BRO67E R1 2018-06
pdf - 3 MB
Version / Date
BRO67CN 2018-11
pdf - 12 MB