![]() ![]() Output image independent of camera temperature. Uncooled VOx microbolometer Longwave infrared, × 60, progressive scan 8.6 Hz (commercial application exportable) (0.050° C) Automatic. Sensor technology Spectral range Array format Pixel size Effective frame rate Thermal sensitivity Temperature compensation Radiometric accuracy Non-uniformity corrections Image optimization FOV - horizontal FOV - diagonal Output format Solar protection 51° 63.5° Package as small 5.6 mm (non-radiometric)Export Compliant (<9Hz)SPI video interfacesUses standard cell phone-compatible power suppliesTwo-wire serial control interface 32-pin socket interface to connector Integrated digital thermal image processingMultiple lens options: / 25° FOVShutterless option availableFast time to image (<0.5 seconds) Temperature stabilized output for radiometric processingLow operating power 150 mW typical, 650 mW during shutter eventLow power standby mode Greater sensitivity than common thermopile arrays Non-radiometric versions are also available. The radiometric Lepton captures accurate, calibrated, non-contact temperature data in every pixel of each image for even greater utility in commercial applications. Using a focal plane array × 60 active pixels, Lepton easily integrates into native mobile-devices and other electronics an IR sensor or thermal imager. The FLIR Lepton is a radiometric-capable LWIR camera solution that is smaller than a dime, can fit inside a smartphone, and is ten times less expensive than a traditional IR camera. Radiometric Longwave Infrared (LWIR) Camera Module ![]()
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