By using a jumper, the master clock, local power supplies, and power-up sequence components can be bypassed. This easy-to-interface evaluation board provides onboard power supplies, generated from 3V to 5.5V, and a master clock. The FLIR Lepton is a radiometric-capable LWIR OEM camera solution that is smaller than a dime, fits inside a smartphone, and is one tenth the cost of.
10.5mm x 12.7mm x 7.14mm package dimensionsįLIR Lepton Camera Breakout Board v2.0 quickly connects all versions of the FLIR Lepton camera module to common platforms like Raspberry Pi or custom hardware. Longwave infrared, 8µm to 14µm spectral range. They bring innovative sensing solutions into daily life through their thermal imaging systems, visible-light imaging systems, locator systems, measurement and diagnostic systems, and advanced threat. Uses standard cell phone-compatible power supplies FLIR Lepton designs, develops, manufactures, markets, and distributes technologies that enhance perception and awareness. Increased scene dynamic range of +400☌ (Lepton 3.5 module only). Integrated digital thermal image processing. FLIR Lepton 3.0 and 3.5 Micro Thermal Camera Modules feature low power consumption, unmatched image quality, and simple integration. While the 3.5 offers the same size, it also provides calibrated radiometric output across the entire 19,200 pixel array. 
Both modules feature a CCI (I 2C-like) control port and video over SPI video data interface. The 3.0 module is non-radiometric, while the 3.5 module has a radiometric thermal imaging system. FLIR Lepton 3.0 and 3.5 Micro Thermal Camera Modules offer 160 x 120 active pixels and <50mK thermal sensitivity in a small 11.8mm x 12.7mm x 7.2mm package.
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