PresseBox
Press release BoxID: 463688 (CINOGY Technologies GmbH)
  • CINOGY Technologies GmbH
  • Max-Näder-Str. 15
  • 37115 Duderstadt
  • http://www.cinogy.com
  • Contact person
  • Andy Kaemling
  • +49 (5527) 8483772

UV-Laser Beam Profiler with CMOS-Technology

(PresseBox) (Duderstadt, ) The newest entry-level beam profiler CinCam CMOS-UV is optimized to provide excellent sensitivity from 200-1100nm spectral range. The ultra-compact design enables easy adaption to standard optical imaging systems, attenuators and opto-mechanical components ensuring highest flexibility. In combination with the highly developed beam profiling software RayCi, this new UV-Beam Profiler with 1.3 MPixel CMOS sensor and 5.3µm² pixel size provides accurate laser beam analysis of cw and pulsed laser systems. Unique analytical capabilities and incomparable visualization modes open up new opportunities in laser beam analysis according to ISO standards.

Applications:

- Laser beam analysis of cw and pulsed lasers
- Implementing / Adjustment / Maintenance of laser systems
- Quick control of laser modes and adjustment errors
- Near-Field and Far-Field analyses of lasers

Advantages:

- Most cost-effective UV-Beam Profiler on the market
- Ultra-compact design for easy integration in optical systems
- MPixel CMOS sensor without cover glass and without microlenses
- Real-time monitoring by a high frame rate and high dynamic range
- Standard high-speed USB 2.0 interface

CINOGY Technologies GmbH

CINOGY Technologies GmbH is specialized in the research & development and manufacturing of high-quality laser beam profiling systems. Based on many years of experience, CINOGY can benefit from a profound know-how to fulfil almost any beam profiling requirement.

CINOGY Technologies provides high quality laser beam profiling systems from the UV to IR spectral range, enabling accurate laser profile analysis. The beam profilers are available with the specifically designed analysis software, RayCi, which utilizes newly developed analytical capabilities and visualization modes according to ISO standards.