Model |
SP203P |
Spectral Range |
1440-1605 nm |
Beam Sizes |
600μm - 5.3mm |
Communication Interface |
USB 3.0 |
Sensor Type |
Phosphor-Coated Silicon CMOS |
Compatible Light Sources |
CW, Pulsed |
Active Area |
5.3 X 7.1 mm |
CCD Recess |
4.5 mm |
Elements |
2048 x 1536 |
Effective Pixel Pitch |
60 µm |
Dynamic Range |
32dB |
Full Resolution Frame Rate |
24 fps |
Software |
BeamMic |
CE Compliance |
Yes |
UKCA Compliance |
Yes |
China RoHS Compliance |
Yes |
Software - BeamMicTM - Basic Laser Beam Analyzer System
• High-speed false color beam intensity profile displays in both 2D and 3D
• Operates in Windows 7 and Windows 10
• Numerical beam profile analysis employs patented advanced calibration algorithms
• Extensive set of ISO quantitative measurements
• ISO beam width and diameter methods
• Enhanced window layout tools to get the most out of the desktopdisplay area
• Pass/fail testing available on most all measured parameters
• Support for USB SPxxx series cameras
• Supports satellite windows on multiple monitors
• Continuous zoom scaling in both 2D and 3D
• Results logging capabilities exportable to Excel
• Industry std data file formats, HDF5 and CSV
• Configurable Report Generator that allows cut and paste of results, images and settings from .PDF and .XPS file types
• Statistical Analysis of all measured parameters
• Both Drawn and Auto Aperture for isolating beam data
• Integrated automatic Help linked into this .pdf Users Guide
• Automation interface via .NET components
BeamMic is an introductory product for those that do not need all of the features in our award winning beam profiling product, BeamGage. BeamMic includes a simplified set of measurements allowing for basic beam characterization to help improve your system performance without going to a full-featured SPC type system. This is perfect for the operator to do a quick check on the laser system prior to starting their process. BeamMic meets many of our industrial customer’s basic needs at a cost effective price.
The beam’s size, shape, uniformity or approximation to the expected power distribution, can make or break an application. Accurate knowledge of these parameters is essential to the accuracy of any laser-based application. As laser applications push the boundaries of laser performance it is becoming more critical to understand the operating criteria.