The all new A6700sc redefines affordable high performance in mid-wave science-grade thermal imaging. Featuring a highly sensitive 640x512 pixel resolution detector, the A6700sc produces beautiful temperature-calibrated IR imagery that’s perfect for demanding research and science applications.
FLIR A6700sc Infrared Camera
Designed for electronics inspections, medical thermography, manufacturing monitoring, and non-destructive testing, the camera is ideal for high-speed thermal events and fast-moving targets. Short exposure times allow users to freeze motion and achieve accurate temperature measurements. In fact, the camera’s image output can be windowed to increase frame rates to 480 frames per second to accurately characterize even higher speed thermal events, helping ensure critical data doesn’t get missed during testing.
A6700sc cameras stream temperature-calibrated data over Gigabit Ethernet to a PC for live image viewing and recording. Using FLIR’s ResearchIR software, researchers and scientists can easily monitor, acquire, analyze, and share data. In addition, extender rings for zoomed-in fields of view make the camera perfect for imaging small thermal targets, and close-up lenses can detect spot sizes down to 15um per pixel – well beyond the capabilities that lower performance IR cameras are able to achieve.
FLIR A6700sc Infrared Camera Features
Sensitivity – Detect subtle temperature changes with a sensitivity (Noise Equivalent Temperature difference) of 0.02C
Spatial Resolution – Ability to measure the temperature of tiny features; 15um per pixel spot size is possible with the 1X close up lens
Extender Rings – Offers multiple zoomed in fields of view down to 25um per pixel spot size
Speed – Stop Motion on fast mechanical moving parts and accurately characterize fast heating parts as well
Synchronization – Synchronize the camera with other instruments or trigger each frame of capture
Spectral Filtering – Make the invisible visible with spectral filtering. Perfect for imaging through glass, measuring temperature of thin film plastics, or optical gas imaging
Compact Size – Easy mounting in tight locations or applications that require lite payloads
Interface Flexibility – Simultaneous analog and digital outputs including composite (BNC) NTSC and PAL, and industry-standard digital Gigabit Ethernet
Optimized Imaging – Four active preset operating modes provide adjustable integration times, embedded non-uniformity correction, and bad pixel replacement