![]() Package dimensions without socket (w x l x h).(nominal) 2.8 V, 1.2 V, 2.5 V to 3.1 V IO Power dissipation (Typical, room temp) Nominally 150 mW (operating), 650 mW (during shutter event), 5 mW (standby).User-selectable 14-bit, 8-bit (AGC applied), or 24-bit RGB (AGC and colorization applied).Low Gain Mode: -10 to 350 degrees C typical.High Gain Mode: -10 to 140 degrees C typical.Teledyne FLIR and GroupGets will not support questions pertaining to calibrating Lepton FS units. While some of the Lepton FS units may output radiometric values per pixel, the Lepton FS units are not guaranteed against any radiometric accuracy and users whom wish to use Lepton FS products for radiometric applications do so at their own risk.Output image independent of camera temperature. Thermal sensitivity 97% Adjacent clusters, rows, columns may contain defective pixels that are not factory corrected and unable to be corrected.Low operating power – 140 mW typical and 650 mW during shutter eventĪCCEPTABLE PERFORMANCE AT DISCOUNTED PRICEĪffordable, non-radiometric thermal imagery and data.Standard Lepton mechanical interface, electrical interface, and US-based Technical Services team. ![]() To celebrate, all accessory boards below are 10% off excluding the new tCam-mini Wi-Fi board.ġ60 x 120 RESOLUTION NON-RADIOMETRIC MICRO THERMAL CAMERAĬOMMON INTERFACES AND FACTORY SUPPORT TO SHORTEN TIME TO MARKET Just as we were the first place to get FLIR Lepton seven years ago, we are bringing this new Lepton to you first at a highly compelling price to make your thermal imaging application more economically viable. With the lowest cost per pixel in the Lepton family, low power consumption, and simple integration, Lepton FS provides integrators an appropriate thermal capability for innovative thermal monitoring products in smart building automation, security, occupancy sensing, and more. These units balance performance and price, enabling monitoring applications where radiometry is not required and pixel-level image information is less important than broad thermal data. It users the linux remoteproc facility and requires only a few percent of main CPU time to keep a full 9 fps display running.Lepton FS is a non-radiometric 160 x 120 resolution micro thermal camera module with reduced thermal sensitivity, reduced scene dynamic range, and up to 3% inoperable pixels but the lowest price ever for a factory Lepton. The video pipeline running on the PRUs is the most interesting contribution. My code and designs can be found on github. I documented my experience on hackaday.io. I was successful and built my own camera that remains a work in progress. That interested me in using the PRUs inside a Beaglebone Black and later a Pocketbeagle to create a video pipeline to offload the real-time chore from the main CPU. I played with the Raspberry Pi and found it difficult for a user-space process to reliably keep synced to the camera. I started with a Teensy 3.2 based camera and was able to get an about 4 frames per second using a single SPI bus for both the camera and display. Over the course of a couple of years I made several different cameras as I learned how to reliability get data from the module. After borrowing a friend's unit repeatedly, I decided to design my own, aided by the availability of the FLiR Lepton 3.5 from. I occasionally have use for one to monitor heat generation in something I've designed, and they are useful for myriad of other applications as well. Like a lot of people I always wanted a thermal imaging camera.
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