Dual Low Noise LDO for 2.Power Efficient 1.2V core voltage (can be by-passed).25-MHz reference clock (can be by-passed).It provides on-board power supplies, generated from 3 5.5V, and a master clock. Low operating power, nominally 150 mW (Output Format: User-selectable 14-bit, 8-bit (AGC applied), or 24-bit RGB (AGC and colorization applied).Radiometric accuracy (35☌ Blackbody) Greater of:.When inserting it into the breakout board be sure to use proper personal grounding, such as a grounding wrist strap, to prevent damage the module. The Radiometric Lepton module is extremely sensitive to electrostatic discharge (ESD). Note: This kit comes in two separate parts and will need to be assembled once received. A few things to consider about this kit: the breakout board will accept a 3-5.5V input and regulate it to what the Lepton® wants, to read an image from the lepton module all you need is an SPI port, and to configure the camera settings you also need an I 2C port, although this is not required. Meanwhile, each breakout board in these kits provides the socket for the Lepton, on-board power supplies, 25Mhz reference clock (can be by-passed), power efficient 1.2v core voltage (can be by-passed), dual low noise LDO for 2.8V voltage (can be by-passed), 100 mil header for use in a breadboard or wiring to any host system. The Lepton 2.5 can output a factory-calibrated temperature value for all 4800 pixels in a frame irrespective of the camera temperature with an accuracy of +/-5˚C. On this package need to consider some of the matters: breakout board will receive 3-5V input and adjusted to LeptonThe desired content from the lepton module. Some code is posted on github for capturing an image using a raspberry pi. view Lepton data on x86 Linux and macOS platforms or even on a Raspberry Pi. The FLIR Lepton is the most compact longwave infrared (LWIR) sensor available. The Radiometric Lepton® LWIR module included in each Dev Kit acts as a sort of camera and packs a resolution of 80 × 60 active pixels into a camera body that is smaller than a dime and captures infrared radiation input in its nominal response wavelength band (from 8 to 14 microns) and outputs a uniform thermal image. USB webcam breakout for the FLIR Lepton thermal imaging camera core.
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