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#Lepton longwave infrared full#

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 3-5V 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, power supply’s, 25Mhz Crystal Oscillator, 100 mil header for use in a breadboard or wiring to any host system. Enhanced IR sensor: greater resolution and sensitivity than common thermopile arrays. 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. Lepton® 3 High Resolution LWIR Camera Module. 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. FLIR offers its Lepton® radiometric longwave infrared (LWIR) camera module which easily integrates into mobile phones and other devices The FLIR Lepton ® is a radiometric 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.

#Lepton longwave infrared full#

All you need to do to get this kit set up, simply attach the Lepton® imager module into the provided breakout, connect the headers, and you will be seeing in full darkness in no time! This kit includes a breakout as well as the Lepton® 2.5 longwave infrared (LWIR) imager.

Input Supply Voltage: 2.8 V, 1.2 V, 2.5 V to 3.Do you see what we see? With the FLIR Radiometric Lepton® Dev Kit you will be able to bring FLIR’s thermal imaging reliability and power to your Arduino, Raspberry Pi, or any ARM based development tool all in an easy to access breadboard friendly package.

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 ☌ 5 with radiometry is a complete long-wave infrared camera module that provides absolute temperature measurements for mobile devices and other consumer.

Mechanical Interface: 32–pin socket interface to standard Molex® socket.

With this kit you will be able to bring FLiRs thermal imaging.

Package Dimensions - Socket Version (w x l x h): 11.8 x 12.7 x 7.2 mm The FLiR Dev Kit includes a breakout as well as a Lepton longwave infrared (LWIR) imager.

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).At this time, we cannot guarantee orders for this module but we will do what we can to work with you in fulfilling your request. For bulk order for this module please visit our Volume Pricing Page for inquiries of stock. If you need to place a distributor order please contact your sales rep and they will assist you. For large quantities: We currently have a limit of one per customer order on the FLIR Lepton 2.5 module due to supply chain issues as a result of COVID-19.