DAT-WinCamD-LCM
Laser Beam Profiler WinCamD-LCM
This laser beam profiler features a CMOS sensor that guarantees frame rates of up to 60 Hz with high dynamics and is suitable for large beam diameters up to 11 mm.
The quality of the radiation is often referred to in material processing and measurement technology. Depending on the application, the quality is determined by the temporal and local stability of the output power, the width of the frequency spectrum, the temporal and local coherence, and the magnitude of the beam divergence, which is related to the extent to which the radiation can be focused.
DAT-WinCamD-LCM
This laser beam profiler features a CMOS sensor that guarantees frame rates of up to 60 Hz with high dynamics and is suitable for large beam diameters up to 11 mm.
DAT-WinCamD-QD-1550
DataRay's ILM system is used for beam profile monitoring of high power lasers consisting of an attenuator for high powers, an imaging lens system and a camera system. The measurement of very small laser beams with diameters of less than micrometers is possible despite often high laser powers.
DAT-TaperCamD-LCM
DAT-WinCamD-THz
DAT-WinCamD-QD-2000
This Laser Beam Profiler from DataRay is equipped with a CQD sensor and offers a spectral response in the SWIR range of 350 - 2000 nm with resolutions up to 1920 x 1080 pixel.
DAT-WinCamD-GCM
This laser beam profiler has a CMOS sensor that guarantees frame rates of up to 60 Hz at high dynamic range and is suitable for large beam diameters up to 11.3 mm. The GCM version works with a GigE connection and is therefore ideal for installation in industrial systems.
DAT-WinCamD-LCM
This laser beam profiler features a CMOS sensor that guarantees frame rates of up to 60 Hz with high dynamics and is suitable for large beam diameters up to 11 mm.
DAT-WinCamD-IRBB
The beam analysis camera WinCamD-IR-BB with integrated microbolometer array enables analyzes on long-wave lasers in the range of 2 μm to 16 μm.
DAT-WinCamD-QD-1550
DataRay's ILM system is used for beam profile monitoring of high power lasers consisting of an attenuator for high powers, an imaging lens system and a camera system. The measurement of very small laser beams with diameters of less than micrometers is possible despite often high laser powers.