Electrophysics offers a complete line of high-performance infrared cameras, thermal imaging and night vision cameras. Our products include: image intensifier, IR thermal imaging, low light products and more.
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     Features
  		• Unique 7.7 to 11.5µm LWIR spectral response
  		• Highly sensitive 320 x 256 MCT focal plane array
  		• High speed frame rate - up to 250Hz full field
  		• Plug & play interface with Gigabit Ethernet and Camera Link™
  		• Large selection of optics
     
    Overview
     
    Models Return to top of the page
     
    Titanium 590VLCamera with AC power supply, Altair™ software (CD), user manual (CD), carrying/storage case. 
     
    Specifications Return to top of the page
     
    Sensor TypeMCT 
    Spectral Response7.7 to 11.5µm 
    Array Resolution320 x 256 
    Detector Pitch30µm 
    Operability>99.5% 
    Dynamic Range14-bit 
    NETD<20mK at 30° 
    Cold Shieldf2.0 
    Frame Rate - Full Frame>250 fps full frame 
    Integration TimeVariable 1µs to 10ms (1ms increments) 
    Temperature Calibration Range41°F to 302°F (5°C to 150°C) 
    Measurement Accuracy+/-2% or =/-2° 
    Filter Wheel4-position, motorized and removeable; accepts four 25mm ODx1mm filters 
    External SynchronizationExternal TTL signal 
    Video OutputNTSC / S-Video 
    Digital OutputGigabit Ethernet / Camera Link™ 
    CoolingLinear Stirling Cooler 
    Size9.96" x 5.11" x 6.61" (253x130x168 mm) 
    Weight11 lbs. (4950 kg) 
    Operating Temperature-4°F to 131°F (-20°C to 55°C) 
    Shock2G, IEC 68-2-29 
     
    Application Return to top of the page
     
    IR Inspection in Design, Test and Manufacturing
    Thermal imaging has become an extremely valuable technology in many industries not only as an R&D instrument but also as a test and predictive maintenance tool. Infrared imaging plays a vital role in many manufacturing industries having a large number of electro-mechanical components.
     
    Laser Beam Diagnostics
    For many applications, it is extremely important to know the cross-sectional profile of a laser beam. In this way, the power, energy density, modal structure and divergence of the laser can be determined. These properties impact the propagation of the beam in a wide variety of applications and ultimately determine the usefulness of the laser in each application. Infrared imagers offer an ideal method for analyzing laser beam profiles from 800 nm to 20 microns.
     
    Range and Tracking
    Infrared cameras are widely used in weapons testing and range tracking. Benefits of thermal imaging are higher contrast for more reliable auto tracking, night time operation and the ability to visualize targets through obscurants.
     
    Research and Development
    Thermal imaging is used extensively in engineering and scientific research centers around the world. Key to the use of these imagers is often application-specific software that permits the detailed analysis of both two-dimensional images as well as arrays of image sequences. Thermal imaging provides insight into critical information about an object’s thermal and spectral characteristics. In certain circumstances, information can be obtained on high-speed events (available with high frame-rate cameras) as well as circumstances requiring large dynamic range (available with variable integration cameras).

     
     
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