Lepton flir sparkfun

LEPTON FLIR SPARKFUN FULL

LEPTON FLIR SPARKFUN SOFTWARE

LEPTON FLIR SPARKFUN CODE

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. 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.

LEPTON FLIR SPARKFUN 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. Spend some time just playing with the camera to see where you might find uses for it.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. As it happens, the FLIR Lepton is an excellent little module for the price and Pure Engineering has done a bang up job spinning the breakout board and. Thermography has hundreds of applications.

LEPTON FLIR SPARKFUN CODE

The example in this tutorial uses the code from this repository.

Lepton Module GitHub Repo - Library, Example Code, & Design Files.

Mike's Electric Stuff: Reverse-Engineering the FLiR Lepton(R).

Now that you're successfully retrieving LWIR images from the Lepton module, you can dig into the example code and apply it to your own project!įor more information, check out the resources below: In fact, what are we waiting for? Let me give you the tour. Imagine using something like OpenCV to track, not just color centroids, but heat centroids! That’s right, you could be building heat-seeking robots right in your own home! Replace FLIRI2C.c and FLIRI2C.h with ARI2C.c and ARI2C.h which use the Arduino Libraries ( Wire.h and SPI.h) instead of the. Strip out the files that are specific for the Aardvark and the FT2232. With this kit you will be able to bring FLiRs thermal imaging. This is a list of things that I changed to get the SDK to compile and work with an Arduino Board (specifically the SparkFun RedBoard Artemis ATP).

LEPTON FLIR SPARKFUN SOFTWARE

When it comes to robotics, thermal cameras are especially useful heat detectors because the image that they produce (by virtue of being, well, an image) can be processed using the same techniques and software as visible light images. The FLiR Dev Kit includes a breakout as well as a Lepton longwave infrared (LWIR) imager. Also, because of its ability to produce an image without visible light, thermal imaging is ideal for night vision cameras. Thermal imaging of this type is often used in building inspection (to detect insulation leaks), automotive inspection (to monitor cooling performance), and medical diagnosis. By measuring this resistance, you can determine the temperature of the object that emitted the radiation and create a false-color image that encodes that data. Microbolometers are made up of materials which change resistance as they’re heated up by infrared radiation. The sensor inside the FLiR Lepton is a microbolometer array. Electromagnetic spectrum with visible light highlighted.

Dua versi baru papan SparkFun populer

Posting Produk Malam Thanksgiving Dua versi baru papan SparkFun populer sekarang tersedia, bersama dengan sensor PureThermal pengganti!

Halo semuanya dan selamat datang di Posting Produk Rabu yang sangat istimewa. kami memiliki beberapa produk baru untuk ditunjukkan hari ini dan semuanya dimulai dengan versi baru NEO-M9N GPS Breakout dan ESP32 WROOM Thing Plus. 

Papan baru ini sangat mirip dengan rilis sebelumnya, tetapi sekarang menyertakan koneksi baru yang mendukung umpan balik Anda. NEO-M9N GPS Breakout hadir dengan konektor SMA, sedangkan ESP32 WROOM Thing Plus hadir dengan U.FL! Setelah itu, kami memiliki PureThermal Mini Pro baru (dengan FLIR Lepton 3.5!) Dan Kabel JST-ZHR pengganti.

Kami juga mendekati puncak bulan penjualan kami, dengan penawaran harian unik setiap hari dari 2-26 November. Besok adalah hari terakhir sebelum kita terjun ke ekstravaganza penjualan Black Friday dan Cyber ​​Monday. 

pastikan untuk melihat posting blog ini untuk detailnya dan untuk mengetahui lebih lanjut! Jika Anda penasaran kapan Anda perlu meminta pesanan Anda sebelum liburan, konfirmasi untuk melihat halaman Pengiriman Liburan 2020 kami. Periksa kembali Jumat ini untuk lebih banyak penawaran dari SparkFun!

SparkFun NEO-M9N GPS Breakout mungkin papan GPS berkualitas tinggi dengan opsi konfigurasi yang sama mengesankannya termasuk SMA. Modul NEO-M9N dapat berupa penerima GNSS engine 92-channel u-blox M9, yang berarti dapat menerima sinyal dari konstelasi GPS, GLONASS, Galileo, dan BeiDou dengan akurasi ~ 1,5 meter. 

Pelarian ini mendukung penerimaan 4 GNSS secara bersamaan, memaksimalkan akurasi posisi dalam kondisi yang menantang (meningkatkan presisi), dan mengurangi waktu penguncian. karena baterai isi ulang onboard, Anda akan memiliki daya cadangan, memungkinkan GPS untuk meminta kunci panas dalam hitungan detik! Selain itu, 

penerima u-blox ini mendukung I2C (u-blox memanggil Saluran Data Tampilan), yang membuatnya sempurna untuk kompatibilitas Qwiic sehingga kami tidak perlu menghabiskan port UART kami yang berharga.

SparkFun ESP32 Thing Plus dengan U.FL adalah langkah selanjutnya untuk memulai dengan ide-ide Espressif IoT sambil tetap menikmati semua fasilitas dari ESP32 Thing pertama. ESP32 WROOM dari Espressif mungkin adalah modul MCU WiFi dan Bluetooth yang kuat yang menargetkan jenis aplikasi yang bagus. 

Inti dari modul ini adalah chip ESP32-D0WDQ6, yang dimaksudkan untuk dapat diskalakan dan adaptif. untuk membuat Thing Plus lebih mudah digunakan, kami telah memindahkan beberapa pin untuk membentuk papan yang kompatibel dengan Feather, dan ini menggunakan Sistem Qwiic Connect kami yang praktis.

PureThermal Mini Pro JST-SR baru dengan Thermal by FLIR mungkin merupakan kamera termal yang dapat diretas untuk inti kamera pencitraan termal FLIR Lepton. 

sedikit seperti pendahulunya PureThermal 2, ia mengirimkan pra-konfigurasi untuk bekerja sebagai webcam termal USB UVC 1.0 plug-and-play yang akan bekerja dengan webcam standar dan aplikasi video pada semua platform utama yang menggunakan JST-SR ke Kabel USB (atau kabel khusus Anda sendiri). Untuk pengembang,

 firmware referensi dan perangkat lunak penampilnya adalah sumber terbuka.

Ini adalah kabel JST-ZHR 5-pin yang diakhiri dengan konektor Dupont yang kompatibel dengan papan tempat memotong roti. ini adalah kabel yang sama yang disertakan dengan Sensor partikulat SPS30 kami.

Lepton camera module

#LEPTON CAMERA MODULE HOW TO#

#LEPTON CAMERA MODULE DRIVERS#

#LEPTON CAMERA MODULE PORTABLE#

#LEPTON CAMERA MODULE SOFTWARE#

#LEPTON CAMERA MODULE PROFESSIONAL#

There’s also a 1/4-20 threaded insert on the bottom of ’s version, making it far more useful in any experimental setup. These thermal images were combined with a VGA resolution camera to produce the very cool enhanced imagery the commercial unit will get you. This thermal camera is built around the FLIR Lepton sensor, providing thermal images with a resolution of 60 by 80 pixels. We first saw it about a year ago, and the results were impressive. has been working on his DIY thermal imager for a while now. That doesn’t mean we’re stuck with crippled thermal imaging cameras, though: we can build our own, with better specs than what the big boys are selling.

#LEPTON CAMERA MODULE HOW TO#

Once FLIR figured out the people who would be most likely to own a thermal imaging camera can figure out how to upload firmware, the party was over. In a manufacturing triumph, the cheapest of these thermal imaging cameras contained the same circuitry as the one that cost six times as much. Who doesn’t like a challenge? Posted in contests, hardware Tagged contest, flir, Flir lepton, thermal imaging cameraĪ few years ago, FLIR unleashed a new line of handheld thermal imagers upon the world. And the challenge of solving a tricky problem and making designs easier for others is a powerful motivator. Peter has a $125 Sparkfun gift card on offer for each of the two winners.

#LEPTON CAMERA MODULE DRIVERS#

The goal here is to create useful Open Source drivers for some very interesting hardware, and there’s some prizes to sweeten the pot. This really is a great example of what the Hackaday.io community is capable of. You can understand how he became interested in portable, and we’re sure whatever project he has in mind for this battery-powered Flir will be awesome. Peter Jansen is the creator of the Open Source Science Tricorder (yes, it’s a tricorder) which took Fourth Prize in the 2014 Hackaday Prize. The Lepton gives any project thermal imaging, and the PureThermal board turns the Lepton into a USB device. For a pair of Benjamins, the specs are very impressive: the Lepton has a resolution of 60×80 pixels and everything is can be read over an SPI port. The Flir Lepton is a tiny little thermal camera that’s been available to the Maker community for some time now, first through GroupGets and now through Sparkfun. There are two challenges here, one for the Raspi and one for the ESP32 and winner will be named for each.

#LEPTON CAMERA MODULE SOFTWARE#

Any software in this challenge must spit out absolute temperature values in a text format, and there must be a demonstration of putting the Flir Lepton into low-power mode. The rules for this challenge are to use the Flir Lepton 2.5 in radiometric mode using either the Raspberry Pi Zero W or ESP32. Yes, this is a documented feature in the Flir Lepton module, but so far very few people are using it, and no one has done it with a small, battery-powered device. There’s a catch, though: this is a project to use the Lepton in radiometric mode, where the camera spits out an actual temperature value for each pixel. Use a Flir Lepton thermal imaging camera module in a battery-powered configuration. Peter Jansen has opened up the Hot Camera Contest on Hackaday.io to use a thermal imaging camera in a battery-powered project. Here’s a challenge for all you hardware hackers out there. Posted in hardware Tagged diy flir camera, Flir lepton, tcam-mini Along with tweaking the ESP32 firmware, there is still a lot that can be done with the TCam-Mini, but it sure looks like a fun project to tinker with if one is into Leptons. For this he repurposed an old in-ear thermometer calibration device. Recently has also begun to further characterize these Lepton sensors, in order to see whether their accuracy can be improved from the rated +/- 5-10 ☌.

#LEPTON CAMERA MODULE PROFESSIONAL#

Being able to load the radiometric data directly into a desktop application for processing makes it a closer match to the professional thermal cameras which states that he’d like to get as close to in terms of features as possible.

#LEPTON CAMERA MODULE PORTABLE#

Compared to the aforementioned FLIR One Pro, there’s a definite benefit in having a more portable unit that is not reliant on a smartphone and accompanying FLIR app. Not cheap, but quite a steal relative to e.g. The project is available on GitHub, as well as as a GroupGets crowd-funding campaign, where $50 gets one a TCam-Mini board, minus the $199 Lepton 3.5 sensor. Using the 160×120 pixel FLIR Lepton 3.5 thermal sensor, and combining it with a custom PCB and ESP32 module for wireless, he created a wireless thermal camera called the TCam-Mini along with accompanying software that can display the radiometric data. While the ultimate goal is to create a stand-alone solution, with its own screen, storage and processing, the TCam-Mini is an interesting platform. With how expensive thermal cameras are, why not build your own? This is the goal with which set out a while ago, covering the project in great detail.

From the Field: GroupGets Labs (aka GetLab)

Over the next few weeks, we’ll be letting some of our customers take over the blog to talk about how they use their favorite SparkFun tools and products in their projects, businesses and everyday lives. The best part? All the SparkFun items on their wishlist will be on sale today only!

Ron Justin, cofounder and CEO of GroupGets

Over the years, SparkFun has become our “Staples” for electronic gear at GroupGets. It’s where we find ourselves grabbing the basics, like antennas, ESPxx Thing Wi-Fi boards, FTDI breakouts and rechargeable batteries with JST connectors. These items are not the new hotness in electronics, but they certainly help enable it. Below is a go at narrowing down our three favorite go-to’s, in no particular order.

Ron’s wishlist (on sale today only!):

Number one is the Sparkfun Third Hand Kit. On top of being well… handy, it was also designed by a friend and former colleague of mine, so that’s an added bonus. “Helping hands” rigs are ubiquitous to hold your boards for soldering, but the Third Hand Kit has more flexibility and a wider range of motion than the standard options, and doesn’t have that funky magnifier to get in the way. Crafty veterans prefer to wear a magnifying visor instead anyway. High-five to Ryan Straughn for creating this super useful and clever system, just one of many in his bag of tricks.

Next on the list is the SparkFun ESP8266 Thing Dev Board. It’s dirt simple to connect up a sensor to it and stream its data to the web. What we really appreciate about it are SparkFun’s quick and easy tutorials to get up and running quickly with it, like this one. This also makes us comfortable giving them out to students and budding engineers when we moderate hack-a-thons, to make their first edge-to-cloud experience as painless as possible. There are multiple versions of the Thing for your ESP of choice, but we love how single-purpose they all are. Many hardware developers get intimidated by cloud apps but the Thing greatly reduces the angst when wanting to get your data online for a demo or proof-of-concept.

Last but not least, with just a dash of an obligatory shameless plug warning, we obviously use the GroupGets PureThermal 2 FLIR Lepton Smart I/O Board (aka “PT2”) on the daily, since we designed and produce it. The goal of PT2 was to make application development with the FLIR Lepton LWIR core simple by putting an STM32 on board to output thermal video as a USB video class (UVC) stream. With PT2, you don’t need any other board to see its video output; just plug it into a USB port on any macOS, Linux or Windows computer. You can view its video with most open source video viewers like VLC or our own open viewer, GetThermal. Whether we are putting PT2 in some strange test scenario for a customer, adding new features to its firmware or making 3D-printed cases for it, you will often see its thermal video output on some screens at our HQ.

SparkFun was our first ever distributor years ago for what we called the “classic” FLIR Lepton breakout board, which we also designed and later licensed to FLIR. It’s the same board used in the FLIR Radiometric Lepton Dev Kit, and requires an external development board like a Raspberry Pi to operate. Both boards have their unique place in the evaluation and app development process with Lepton, and many professional developers use both.

So there you have it – a brief glimpse into what’s inside those red boxes on the shelf at GroupGets.

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Friday Product Post: It's Clear with FLIR!

Hello and welcome back to another Friday Product Post! Today we have two brand new FLIR products, thanks to our friends at GroupGets; two products to get your LED strips hooked up in a snap; two new ways to get your next big LED project reliably powered; and a USB 3.0 cable.

Just as a reminder: today (Friday, June 29) is the last day of our Summer Solstice Sale, as well as the last Flash Sale product with the SparkFun ESP8266 Thing. Make sure to get these deals now, because after today they will be over!

Alright, let’s take a closer look at all of our sweet new products!

Don’t fear the FLIR!

added to your cart!

FLIR Radiometric Lepton Dev Kit

In stock KIT-14654

With the FLIR Radiometric Lepton Dev Kit you will be able to bring FLiR's thermal imaging reliability and power to your desir…

$239.95

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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 other ARM-based development tool, all in an easy-to-access, breadboard-friendly package. This kit includes a breakout and the Lepton® 2.5 longwave infrared (LWIR) imager. All you need to get this kit set up is simply attach the Lepton® imager module to the provided breakout and connect the headers, and you will be seeing in full darkness in no time!

added to your cart!

PureThermal 2 - FLIR Lepton Smart I/O Board

In stock DEV-14670

The PureThermal 2 Smart I/O Board is a hackable thermal USB webcam breakout for the FLIR Lepton® thermal imaging camera core…

$99.99

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The PureThermal 2 Smart I/O Board is a hackable, thermal USB webcam breakout for the FLIR Lepton® thermal imaging camera core. Each PureThermal 2 ships pre-configured to operate as a plug-and-play UVC 1.0 USB thermal webcam that will work with a standard webcam and video apps on all major platforms. For developers, its reference firmware, viewer software and hardware schematic are all open source!

It’s Mi-Light, not Your-Light!

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Mi-Light RGBW LED Controller Box

In stock COM-14710

The Mi-Light LED Controller Box is a 2.4GHz RF LED accessory that enables your non-addressable LED strips to change color, di…

$14.95

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The Mi-Light RGBW LED Controller Box is a 2.4GHz, RF-controllable LED accessory that enables your non-addressable LED strips to change color, dim and use pre-loaded modes via the Mi-Light Remote Control (sold separately). Essentially, this little plastic box enables any non-WS2812 or APA102 (“NeoPixel” or “DotStar”) LED strip to act as if it was, without any other external boards. Set up is simple thanks to an array of screw terminals on either side of the controller box. By just screwing an LED strip’s control wires into the right side of this box and then plugging in power via a barrel jack (or another set of screw terminals) on the left side of the box, you’ll be up and running in no time!

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Mi-Light 4-Zone LED Remote Controller

In stock COM-14711

The Mi-Light Remote Control is a 2.4GHz RF LED accessory that can change the color and dim non-addressable LED strips attache…

$14.95

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The Mi-Light 4-Zone LED Remote Controller is a 2.4GHz RF LED accessory that allows you to change the color and dim non-addressable LED strips attached to the RGBW LED Controller Box without the need of a smartphone app. Equipped with touch sensing buttons to change or dim the colors, control the power to the whole system, and even select a pre-set mode or speed, the Mi-Light Remote makes controlling customized lighting installations quick and easy!

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Mean Well LED Switching Power Supply - 5VDC, 5A

In stock TOL-14601

This is a 40W single output switching power supply from Mean Well that has been specifically designed to be with LED applicat…

$14.95

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Mean Well LED Switching Power Supply - 5VDC, 8A

In stock TOL-14602

This is a 40W single output switching power supply from Mean Well that has been specifically designed to be with LED applicat…

$19.95

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These 25W and 40W single output switching power supplies from Mean Well have been specifically designed to work with LED applications. These power supplies are extremely reliable and are able to output 5VDC at up to 5A or 8A, respectively. We’ve been testing these supplies for quite some time, and can definitely attest to the durability of their fully isolated plastic casings, as well as their short circuit, overload and over-voltage protections.

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iPixel Wall Adapter Cable - Two Terminal (NA)

In stock CAB-14603

These Wall Adapter Cables from iPixel are terminated with a standard NA plug at one end and two insulated spade terminal conn…

$3.95

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Of course, you’ll need some way to get power to your new LED Power Supplies. These Wall Adapter Cables from iPixel are terminated with a standard North American (NEMA 5–15P) plug at one end, and two insulated spade terminal connectors at the other. Each cable is one meter long, and provides a safe and appropriate way to hook up our Mean Well LED Power Supplies!

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USB 3.0 Micro-B Cable - 1m

In stock CAB-14724

This is a USB 3.0 type A to Micro-B 9-pin cable.

$2.95

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Last up this week is this USB 3.0 type A to Micro-B cable. If you’re unfamiliar, this isn’t your typical micro USB cable – it boasts a data transfer rate of up to 5GB/s, making it a “SuperSpeed” USB option. This connector type is less common than its other micro USB siblings, but can still be found in some phones and electronics, so we wanted to make it available for those of you in need!

Alright folks, that’s it for this week! There is a lot to choose from for your next project. As always, we can’t wait to see what you make! Shoot us a tweet @sparkfun, or let us know on Instagram or Facebook. We’d love to see what projects you’ve made!

We’ll be back next week with even more fantastic new products!

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