Remote RadEye Family0 pages
Remote RadEye X-Ray Camera
DATASHEET
Overview
Key Features
• Sensor module weighs 1kg or less
• Choose from 4 different sensor
modules that provide up to
100 x 100mm active image area
• Choose from 3 different electronic
modules: digital frame grabber,
USB, or Ethernet interface
• Choose from 3 different resolution
options: 22.5µm, 48µm and 96µm
The Remote RadEye™ x-ray camera provides the
ultimate flexibility in design and product options for
your complex imaging applications. Our unique camera
design separates the x-ray sensor module from its
supporting electronics: the module is mounted on a
detachable cable enabling easy installation into tight
spaces or on gantry systems. While other imaging
solutions can be bulky and difficult to implement, the
Remote RadEye is slim, lightweight, and housed in a
rugged stainless steel package. The Remote RadEye
is suitable for industrial inspection applications where
images are taken in tight or difficult-to-reach spaces. In
addition, system integrators gain flexibility in building
cabinet systems or portable inspection applications.
This revolutionary x-ray camera is a cost-effective
imaging solution for NDT/industrial inspection, scientific
research such as x-ray crystallography, and general
radiography applications.
• Supports x-ray energies as low as
5keV and up to 160kVp
• 12- or 14-bit digital video output
• Ready-to-run software and drivers
Rad-icon
Imaging Corporation
a division of DALSA
In partnership with:
Description
The Remote RadEye™ x-ray camera is a flexible,
rugged and cost-effective solution for high-resolution
radiation imaging. End users can choose between four
different sensor modules, each of which contains a twodimensional CMOS photodiode array featuring up to 1200
by 1600 pixels with pixel spacing ranging from 22.5µm
to 96µm. A Gd2O2S scintillator screen, placed in direct
contact with the photodiode array, converts incident
x-ray photons to light, which in turn is detected by the
photodiodes. An EV option is available for operation in
high-dose environments or with x-ray energies up to
160kVp, and models featuring a Beryllium entrance
window can be used in low-energy applications down
to 5keV.