![]() ![]() Important information for customers in Russia.Once you place your order we will email you with the document within one business day. All international customers that are ordering any Thermal Imaging Camera will be required to fill out an End Use Statement document before shipment.PureThermal 1/2/Mini/Pro with Radiometric FLIR Lepton 3.5 requires specialized software to show radiometry such as GetThermal. ![]() Depends on the enclosure and spacing, do not exceed 1Kg of force.The foam must be cut out so that it does not interfere with the mechanical shutter pins.Thermal sensitivity: Lepton > Foam > Window > Enclosure.Lepton 3.5 Uncooled VOx Microbolometer Specifications See our extensive catalog of in-house developed hardware and software resources below to help you create your own prime-time product with Lepton 3.5. Lepton 3.5 is fit for prime-time products as demonstrated by the success of the FLIR One Pro and the new Cat S62 Rugged Smartphone. This significant technology upgrade over its predecessors maintains the same form-factor as the 1.x to 3.0 cores so existing Lepton-based hardware can be easily updated utilizing the same socket. Leverage 19,200 (160x120) pixels worth of calibrated radiometric output from this tiny yet mighty microelectronic masterpiece. 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 3.5 is the latest addition to FLIR’s micro thermal camera family and brings with it some unexpected surprises such as an increased operating temperature range to +80˚C and a massively extended scene dynamic range from -10˚ to +400˚C in low gain mode. 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. 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. 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. Do you see what we see? With the FLIR Radiometric Lepton® Dev Kit v2 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. ![]()
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