Hyperspec UV0 pages
Data Sheet
Hyperspec® UV
Hyperspectral Imaging Sensor
Hyperspec® UV imaging sensor for the 250nm
to 600nm spectral range
Headwall’s Hyperspec® UV integrated hyperspectral imaging sensor
provides the foundation for utilizing hyperspectral imaging to achieve
superior spectral sensing and chemical imaging results for missioncritical applications ranging from biomedical applications to forensic
science to process monitoring where UV measurement is a critical application parameter.
Key attributes of the hyperspectral imaging instrument are:
High performance aberration corrected hyperspectral imaging for 250 - 600nm
Fully reflective imager eliminates chromatic distortion over the entire wavelength range
Back-Illuminated CMOS sensor optimized for ultra-violet response
100% fill-factor and high Quantum Efficiency (QE) maximizes UV sensitivity & dynamic range
Applications:
•t Biomedical research
•t Chemical & biological analysis
•t Food safety & quality
•t Forensics
•t Laboratory & healthcare
•t Material identification
•t Microscopy
Greater than 50 frames per second digital readout
The award-winning, Hyperspec imaging spectrometer family is built
on a totally reflective concentric, f/2.0 optical design and optimized for
imaging in harsh environments. All Hyperspec® instruments are based
on Headwall’s patented aberration-corrected, imaging design which
feature the company’s original holographic diffraction gratings.
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In order to minimize stray light and aberrations, transmissive optical
components are not used within the imaging spectrometer. This platform is further enhanced by a telecentric optical input design which
enables superior spectral and spatial imaging.
The Hyperspec® UV sensors are also available with the Hyperspec®
Starter Kit, the Hyperspec® Reflectance/Fluorescence System, and in
pan/tilt configurations for stationary deployment or portable fieldbased deployment.
Application-Specific Solutions For Critical Environments
www.headwallphotonics.com
•t Multi-channel/multi-point t
•t Process control of biomass/biofuelst
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Key Benefits:
•t Superb imaging performance
•t High spectral/spatial resolution
•t Ideal for low light, low signal applications
•t Accurate, consistent spectral measurement
•t Compact with very wide field of view
•t Extremely high signal-to-noise
•t Very portable - laboratory or field
•t Rugged design for durability & stability
•t Cost effective deployment