Thermo Scientific SpectraCAM?0 pages

Designed for Versatility
Designed for applications requiring
extremly wide linear dynamic range,
or adaptive exposure control, the
Thermo Scientific SpectraCAM imaging system uses unique random
access integration techniques
employing true pixel addressability,
Non-Destructive ReadOut (NDRO), collective read or binning, and selective
Region of Interest (ROI) clearing to
provide high dynamic range that may
exceed 10(8) or 28bits allowing the
user to read very dim signals in the
presence of highly illuminated ones.
Additional unique camera features
included in the system are artificial
intelligence (AI) algorithms for the
readout or injection of ROIs based on
the experimentally observed signal.
The 16bit thermo electrically cooled
SpectraCAM™ system is available in
either a purged, or hermetically
sealed configuiration for single use or
OEM applications.
Performance Options
The random access CID is sensitive
from 165nm - 1100nm, and is capable of direct X-Ray imaging.
Application specific coatings such as
GdO2S for imaging of mid to high level
X-Rays, as well as LUMOGEN coating
for extended UV range below 165nm
are available. The camera controller
is based on PENTIUM® CPU/PC104+
architecture enabling dynamic control
of ROI data acquisition algorithms
and real-time video processing. The

Part of Thermo Fisher Scientific

Product Specifications

Thermo Scientific SpectraCAM™

The Thermo Scientific
SpectraCAM scientific grade
imaging system is based on the
new random access Charge
Injection Device (RACID) imager
architecture featuring low noise,
arbitrary pixel selection and readout, Non Destructive Read-out
capabilities, and collective pixel
readout or binning, and is available in either 1024 x 1024, or 540 x
540 pixel format.

camera software supports export of
data in various imaging (.FITS, .TIF,
.JPEG, and .CID) and spreadsheet formats. Along with programmable position and size, each ROI may be individually programmed for binning and
NDRO.
Features:
. CID (Charge Injection Device)
Imager technology
. High Linear Dynamic Range, up to
28bits (with 100 NDRO’s)
. True Random Pixel Addressability
. Non-Destructive Pixel Readout
. Wide Wavelength Response
(165 - 1000nm)
. Collective Non-Destructive Readout
of selectable Binned Regions
. Virtually No Blooming Under Severe
Light conditions
. Contiguous Pixel Structure with High
Fill Factor
Applications:
. Spectroscopy
. Biological Imaging
. Other Scientific Applications