HDTV low noise sCMOS camera by Photonic Science

June 7, 2012
The high sensitivity full HDTV low noise cooled sCMOS camera from Photonic Science Limited (Millham, UK) delivers read out noise as low as 1.2 electrons at 100MHz overall scanning frequency.

The high sensitivity full HDTV low noise cooled sCMOS camera from Photonic Science Limited (Millham, UK) delivers read out noise as low as 1.2 electrons at 100MHz overall scanning frequency. It is designed for low light level requirements, with high intra scene dynamic range > 20.000:1. The camera compensates for fixed pattern noise, non-uniform response and gain balance on a parallel bus read out architecture. The small pixel size and good quantum efficiency make the camera an ideal candidate for fluorescence microscopy applications, hyperspectral imaging, on-line process control, low-light level imaging and spectroscopy applications.

More Products

-----

PRESS RELEASE

Photonic Science full HDTV low noise sCMOS camera

Delivers read out noise as low as 1.2 electrons at 100MHz overall scanning frequency and genuine 16 bit dynamic range at 30 fps.

The new high sensitivity full HDTV low noise cooled sCMOS camera from PSL delivers read out noise as low as 1.2 electrons at 100MHz overall scanning frequency.

It is targeted to users with low light level requirements, seeking real time acquisition with high intra scene dynamic range > 20.000:1.

The camera is actively compensating for fixed pattern noise, non uniform response and gain balance on a parallel bus read out architecture. Our camera can be triggered with rolling shutter mode at 30 fps, in full area scan or with reduced ROI scan for faster acquisition rates up to 3000 fps.

The small pixel size and good quantum efficiency make the camera an ideal candidate for fluorescence microscopy applications, hyperspectral imaging, on-line process control, low-light level imaging and spectroscopy applications.

The camera comes with a Gigabyte Ethernet or Camera Link interfaces and can be easily integrated into a networked instrumentation environment.

-----

Follow us on Twitter

Subscribe now to Laser Focus World magazine; it's free!

Sponsored Recommendations

Brain Computer Interface (BCI) electrode manufacturing

Jan. 31, 2025
Learn how an industry-leading Brain Computer Interface Electrode (BCI) manufacturer used precision laser micromachining to produce high-density neural microelectrode arrays.

Electro-Optic Sensor and System Performance Verification with Motion Systems

Jan. 31, 2025
To learn how to use motion control equipment for electro-optic sensor testing, click here to read our whitepaper!

How nanopositioning helped achieve fusion ignition

Jan. 31, 2025
In December 2022, the Lawrence Livermore National Laboratory's National Ignition Facility (NIF) achieved fusion ignition. Learn how Aerotech nanopositioning contributed to this...

Nanometer Scale Industrial Automation for Optical Device Manufacturing

Jan. 31, 2025
In optical device manufacturing, choosing automation technologies at the R&D level that are also suitable for production environments is critical to bringing new devices to market...

Voice your opinion!

To join the conversation, and become an exclusive member of Laser Focus World, create an account today!