Thermal imaging has become an extremely valuable technology in many industries as a tool to inspect and test different designs and processes. The thermal signatures can be a result of electrical, electro-mechanical, chemical or other causes. Thermal images reveal heat dissipation, thermal conductance, non-uniformities as well as other important diagnostic factors.
Incorporating an uncooled 640x480 microbolometer detector array, the PV640LW Uncooled Infrared Camera delivers high resolution infrared images in the long-wave (8-14µm) spectral range. The camera is available with a variety of different infrared objective lenses and with either Gigabit Ethernet or Camera Link digital video output. Because of the PV640's short thermal time constant, the camera produces superior thermal images even while imaging fast moving objects.
Uncooled Infrared Camera System - ATOM™ 1024
The ATOM 1024 is the first commercially available high definition uncooled infrared camera, incorporating a 1024x768 pixel microbolometer array. The camera delivers extremely high resolution in an XGA format yet maintains a small compact size and low power consumption. The ATOM 1024's short thermal time constant produces superior thermal image quality even while imaging fast moving objects.
Cooled IR Cameras - IRE-320M and IRE-640M/BB
These high performance cooled infrared cameras have extraordinary sensitivity due to the use of cooled MCT infrared detectors. The cameras are available in several spectral response ranges, including the mid-wave (3-5µm), broadband (1.5-5µm), long-wave (8-10µm) and very long-wave (8-12µm) wavelength ranges. The cameras accommodate short integration times and high frame rates as well as a wide range of optics including wide angle, telephoto and microscope lenses.
Cooled IR Cameras - IRE-320L, IRE-320VL,
the full performance of Sofradir Mars and
Scorpio Mercury Cadmium Telluride
(MCT) focal plane arrays while offering
unique flexibility to meet the needs of
any application or OEM requirement. The
long and very long-format (320x256) Mars-based
broad spectral response capabilities of
7.7-9.5µm and 7.7-11.5µm. The Scorpio-based
camera has a broad spectral response capability
of 7.7-9.5µm. Optics options allow
the cameras to be customized to meet any