Qml-module-qtquick-controls2 qml-module-qtmultimedia \ Step 11: $ sudo apt-get install qt5-default qtmultimedia5-dev qtdeclarative5-dev \ Select "GL (Full KMS) OpenGL desktop driver with full KMS" Step 5: alter /etc/apt/sources.list to stretch instead of jessie 3.3V TTL UART to USB Serial Cable – Attach to end of JTAG adapter above and enable debug UART switch in the firmware to utilizeįor installation on Raspberry Pi, NanoPi, Beaglebone, Thinker Board, Snapdragon Board, Lemon Pi, LattePanda, Banana Pi, Orange Pi.FLIR Lepton IO Module v1.2 / FLIR Lepton Module v1.3 Pro.Microcontroller –Arduino DUE, ESP32, LinkItOn e (Note: Some Arduino hardware does not have enough memory to buffer the thermal image at 80602/9600 bytes).( please refer to each SBC’s respective pin-outs) Raspberry Pi, NanoPi, Beaglebone, Thinker Board, Snapdragon Board, Lemon Pi, LattePanda, Banana Pi, Orange Pi.For more technical details please refer to the datasheet. There are two model which you can start on this module one is the FLIR Lepton IO Module Version 1.2 without micro USB and the FLIR Lepton IO v1.3 has on-board micro USB that runs automatically on PC even without a central controller/microcontroller but requires TTL UART USB. The FLIR lepton is most compact long-wave infrared (LWIR) sensor, packs with excellent pixel resolution with a breakthrough lens fabricated in wafer form, together with a micro bolometer focal plane array (FPA) and thermal imaging processing. This device can be used in thermal imaging, motion detection, night vision, heat mapping, and gesture recognitions. Input Supply Voltage: 2.8 V, 1.2 V, 2.5 V to 3.This the FLIR Thermal camera breakout module can easily integrate to your SBC Single Board computer kit / BSP boards or Microcontroller evaluation boards that driven by ARM, STM, TI, NXP, ATMEL, etc.Sensor Technology: Uncooled VOx microbolometer.Non-Uniformity Correction (NUC): Automatic with shutter.Image Optimization: Factory configured and fully automated.Array format: 80 × 60, progressive scan.Optimum Temperature Range: -10☌ to 80☌.Non-Operating Temperature Range: -40 ☌ to 80 ☌.Mechanical Interface: 32–pin socket interface to standard Molex® socket.Package Dimensions - Socket Version (w x l x h): 11.8 x 12.7 x 7.2 mm.Control Port: CCI (I2C-like), CMOS IO Voltage Levels.Output image independent of camera temperature. Spectral Range: Longwave infrared, 8 µm to 14 µm.Scene Dynamic Range: -10-140 ☌ (high gain) up to 450☌ (low gain) typical.Radiometric Accuracy: High gain: Greater of /- 5☌ or 5% (typical) Low gain: Greater of /- 10☌ or 10% (typical).Output Format: User-selectable 14-bit, 8-bit (AGC applied), or 24-bit RGB (AGC and colorization applied).Input Clock: 25-MHz nominal, CMOS IO Voltage Levels.Effective Frame Rate: 8.6 Hz (commercial application exportable).The radiometric Lepton captures accurate, calibrated, and non-contact temperature data in every pixel. With a focal plane array of 80圆0 active pixels, this Lepton easily integrates into native mobile-devices and other electronics as an IR sensor or thermal image sensor. The FLIR Lepton® 2.5 - Thermal Imaging Module is a radiometric-capable long wave infrared (LWIR) camera solution that is smaller than a dime, fits inside a smartphone, and is less expensive than traditional IR cameras.
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