Raspberry Pi camera module goes on sale

News on the the Raspberry Pi camera module (5MP sensor at $25) has been around since earlier this year. Raspberry Pi camera module goes on sale article tells that THE CAMERA MODULE for the Raspberry Pi pocket computer is now available for order through RS Components and Premier Farnell/Element14. Documentation on how to set up the camera can be found on raspberrypi.org blog. This looks like an interesting addition to Raspberry Pi.

232 Comments

  1. Tomi Engdahl says:

    DIY Video Microscopy
    https://hackaday.com/2019/10/16/diy-video-microscopy/

    He settled on the Raspberry-Pi route. The Pi and a hard disk were attached directly to the frame of the microscope, and a VGA display connected via a converter. Finally, the Pi camera was jury-rigged to one of the eyepieces using some foam. It’s a quick and dirty hack, and not the best solution, but it works well for [voidnill] since he wanted to keep the original microscope intact.

    The standard Pi camera has a wide angle lens. It is designed to capture a large image and converge it on to the small sensor area. Converting it to macro mode is possible, but requires a hack. The lens is removed and ‘flipped over’, and fixed at a distance away from the sensor – usually with the help of an extension tube. This allows the lens to image a very small area and focus it on the (relatively) large sensor. This hack is used in the “OpenFlexure” microscope project

    EDUVAL 4 DDR Mikroskop mit Raspberry Pi Update
    https://www.youtube.com/watch?v=ehU6QjHHMfw

    Reply
  2. Tomi Engdahl says:

    Build an Ultra-Affordable Digital Microscope Using a Raspberry Pi Zero W
    Microscopes aren’t just for biologists, and makers can find many practical uses for them.
    https://www.hackster.io/news/build-an-ultra-affordable-digital-microscope-using-a-raspberry-pi-zero-w-f4a118ea0897

    Reply
  3. Tomi Engdahl says:

    IVPort V2 Raspberry Pi Camera Multiplexer
    https://www.tindie.com/products/ivmech/ivport-v2-raspberry-pi-camera-multiplexer/?utm_source=hackaday&utm_medium=link&utm_campaign=fromstore

    “IVport V2″ is compatible with Raspberry Pi Camera Module V2 (8MP version).

    IVPORT V2 is compatible with Raspberry Pi Camera Module V2 with 8MP SONY IMX219 Sensor

    IVPORT and IVPORT V2 which are the first Raspberry Pi (also Raspberry Pi A,A+,B+ and Raspberry Pi 2,3 fully compatible) Camera Module multiplexer is designed to make possible connecting more than one camera module to single CSI camera port on Raspberry Pi. Multiplexing can be controlled by 3 pins for 4 camera modules, 5 pins for 8 camera modules and 9 pins for maximum up to 16 camera modules with using GPIO.

    IVPort has already been preferred by NASA, Sony, Nikon, Amazon, ESA, MIT Lab, Spacetrex Lab, well known company research centers and numerous different universities.

    IVPort Almost Stereo Capture and Video Multiplexing
    https://www.youtube.com/watch?v=w4JZN7Y0d2o&feature=emb_logo

    Almost stereo capture with using capture sequence. Two camera modules are connected to IVPort and capture started with using Raspberry Pi 2 and Sandisk Ultra SD Card.

    IVPort which is the first Raspberry Pi (also Raspberry Pi A,A+,B+ and Raspberry Pi 2 fully compatible) Camera Module multiplexer is designed to make possible connecting more than one camera module to single CSI camera port on Raspberry Pi.

    Reply
  4. Tomi Engdahl says:

    Quick And Dirty Digital Conversion For Analog SLR
    https://hackaday.com/2019/11/14/quick-and-dirty-digital-conversion-for-analog-slr/

    The unarguable benefits of digital photography has rendered the analog SLR obsolete for most purposes. This means that a wide selection of cameras and lenses are available on the second hand market for pennies on the dollar, making them ripe targets for hacking. [drtonis] decided to experiment with a quick and easy digital conversion to an old Canon A-1, and it’s got us excited about the possibilities.

    It’s a simple hack, but a fun one. The SLR is opened up, and the spring plate for holding the film is removed. A Raspberry Pi camera then has its original lens removed, and is placed inside the film compartment. It’s held in with electrical tape, upon a 3mm shim to space it correctly to work with the original optics.

    https://www.instructables.com/id/Convert-Analog-Camera-to-partially-Digital/

    Reply
  5. Tomi Engdahl says:

    Camrd Raspberry Pi-Powered Rugged Camera Offers Smart Object Recognition, Waste Tracking
    https://www.hackster.io/news/camrd-raspberry-pi-powered-rugged-camera-offers-smart-object-recognition-waste-tracking-5fee5ee494fc

    Designed to be fully rugged, the Camrd includes standalone base camera or object recognition capabilities.

    Environmentalist Paul Kinsella has launched a crowdfunding campaign for the Camrd Camera, a Raspberry Pi-powered outdoor camera with object recognition capabilities and up to a 220-degree field of vision.

    Inside the ruggedized and weatherproof housing of the Camrd is a Raspberry Pi 3 Model B+ board fitted with a 64GB microSD card for both the operating system and to store up to seven days of Full HD (1080p) video footage. The camera module, meanwhile, is placed behind a choice of 160 degree or 220 degree fish-eye lenses — themselves protected by a water-resistant glass dome.

    Control of the camera system comes through a web portal, capable of pulling recorded or live video and still images as well as installing software updates

    Reply
  6. Tomi Engdahl says:

    I built a DIY license plate reader with a Raspberry Pi and machine learning
    Machine learning is finally becoming accessible
    https://towardsdatascience.com/i-built-a-diy-license-plate-reader-with-a-raspberry-pi-and-machine-learning-7e428d3c7401

    Reply
  7. Tomi Engdahl says:

    A Raspberry Pi-Based Device to View and Convert Old Film Negatives
    https://www.hackster.io/news/a-raspberry-pi-based-device-to-view-and-convert-old-film-negatives-c6b2b3dc1844

    If you find yourself in possession of film negatives, you can build this Raspberry Pi device to view and convert them to digital formats.

    Reply
  8. Tomi Engdahl says:

    Pixello Uses Raspberry Pis for Advanced 3D Scanning
    https://www.hackster.io/news/pixello-uses-raspberry-pis-for-advanced-3d-scanning-1192ef879850

    This new 3D scanner design has speed, fidelity, and affordability, and you can back it through Kickstarter now.

    They’re able to achieve speed, fidelity, and a relatively low cost by building the Pixello 3D scanner with a bunch of Raspberry Pis. There are a total of 220 boards arranged around the perimeter of the Pixello machine, each with their own camera module. A custom set of Pi POE Switch HATs from Pi Supply are used to combine power and networking to minimize the cost and complexity. The Raspberry Pis can all snap their photos simultaneously, and then the custom Pixello software algorithms can generate a 3D model within just a few minutes.

    Reply
  9. Tomi Engdahl says:

    Insect Eyes Provide Inspiration for New Ultrathin Raspberry Pi-Compatible Array Camera System
    https://www.hackster.io/news/insect-eyes-provide-inspiration-for-new-ultrathin-raspberry-pi-compatible-array-camera-system-6ae53b55b5a9

    By taking multiple images from the array and merging them, the ultrathin camera system can trade blows with much larger equivalents.

    created a Raspberry Pi-compatible ultrathin camera using arrayed microlenses inspired by the eyes of the adult strepsiptera Xenos peckii.

    compound eyes have superior visual functions, such as large depth-of-field (DOF), wide field-of-view (FOV), high motion sensitivity, and low aberration.

    To prove the concept, the team created an ultrathin camera array based on multilayer aperture arrays (MAAs), inverted microlens arrays (iMLAs), and gap spacers, above a flat CMOS image sensor. While each lens in the array captures a relatively blurry image, the multiple images are combined into a finished shot that offers significantly improved clarity, contrast, and resolution than any single image.

    The camera system was attached to a Raspberry Pi 3 Model B+ single-board computer, with the software required to combine the images running directly on board.

    Reply
  10. Tomi Engdahl says:

    Create an Affordable 3D Laser Scanner with a Raspberry Pi
    This DIY device was designed with a Raspberry Pi, a Pi Camera Module, and a line laser that can scan objects with “decent precision.”
    https://www.hackster.io/news/create-an-affordable-3d-laser-scanner-with-a-raspberry-pi-070af6b01580

    Reply
  11. Tomi Engdahl says:

    GETTING 1000 FPS OUT OF THE RASPBERRY PI CAMERA
    https://hackaday.com/2020/03/11/getting-1000-fps-out-of-the-raspberry-pi-camera/

    The Raspberry Pi camera has become a de facto standard for many maker projects, making things like object recognition and remote streaming a breeze. However, the Sony IMX219 camera module used is capable of much more, and [Gaurav Singh] set out to unlock its capabilities.

    After investigating the IMX219 datasheet, it became clear that it could work at higher bandwidths when configured to use all four of its MIPI CSI lanes. In the Raspberry Pi module, only two MIPI lanes are used, limiting the camera’s framerate.

    Reply
  12. Tomi Engdahl says:

    Getting 1000 FPS Out Of The Raspberry Pi Camera
    https://hackaday.com/2020/03/11/getting-1000-fps-out-of-the-raspberry-pi-camera/

    The Raspberry Pi camera has become a de facto standard for many maker projects, making things like object recognition and remote streaming a breeze. However, the Sony IMX219 camera module used is capable of much more, and [Gaurav Singh] set out to unlock its capabilities.

    After investigating the IMX219 datasheet, it became clear that it could work at higher bandwidths when configured to use all four of its MIPI CSI lanes. In the Raspberry Pi module, only two MIPI lanes are used, limiting the camera’s framerate. Instead, [Gaurav] developed a custom IMX219 breakout module allowing the camera to be connected to an FPGA using all four lanes for greater throughput.

    With this in place, it became possible to use the camera at framerates up to 1,000 fps. This was achieved by wiring the IMX219 direct to an FPGA and then to a USB 3.0 interface to a host computer, rather than using the original Raspberry Pi interface. While 1,000 fps is only available at a low resolution of 640 x 80, it’s also possible to shoot at 60 fps at 1080p, and even 15 fps at 3280 x 2464.

    https://www.circuitvalley.com/2020/02/imx219-camera-mipi-csi-receiver-fpga-lattice-raspberry-pi-camera.html

    Reply
  13. Tomi Engdahl says:

    Built around a 12.3-megapixel BSI Sony sensor, the new High Quality Camera is compatible with all Raspberry Pi models — and C- and CS-mount lenses.

    Raspberry Pi High Quality Camera Module Brings a Better Sensor, Interchangeable Lens Support
    https://www.hackster.io/news/raspberry-pi-high-quality-camera-module-brings-a-better-sensor-interchangeable-lens-support-8654ba575b84

    Built around a 12.3-megapixel BSI Sony sensor, the new HQ Camera is compatible with all Raspberry Pi models — and C- and CS-mount lenses.

    Reply
  14. Tomi Engdahl says:

    New Part Day: Raspberry Pi Camera Gets Serious With 12 Megapixels & Proper Lenses
    https://hackaday.com/2020/05/01/new-part-day-raspberry-pi-camera-gets-serious-with-12-megapixels-proper-lenses/

    The Raspberry Pi Foundation have slipped out a new product, a $50 camera module with a larger sensor that increases the resolution from the 8 megapixels of its predecessor to a Sony IMX477R stacked, back-illuminated 12.3 megapixel sensor, and most interestingly adds a mounting ring for a C mount lens (the kind used with CCTV equipment) in place of the tiny fixed focus lenses of past Pi cameras. In addition there is a standard threaded tripod mount on the module, and an adapter ring for CS mount lens types. The camera cannot be used without a lens, but there are a few options available when ordering, like 16mm telephoto or 6mm wide angle lenses, if you do not already have a suitable lens on hand.

    New product: Raspberry Pi High Quality Camera on sale now at $50
    https://www.raspberrypi.org/blog/new-product-raspberry-pi-high-quality-camera-on-sale-now-at-50/

    12.3 megapixel Sony IMX477 sensor, 7.9mm diagonal image size, and back-illuminated sensor architecture, with adjustable back focus and support for C- and CS-…

    Reply
  15. Tomi Engdahl says:

    https://etn.fi/index.php/13-news/10761-raspberry-pi-taipuu-nyt-konenakosovelluksiin

    Farnell on tuonut tarjolle 12 megapikselin kameran, oka voidaan liittää Raspberry Pi -kortteihin. Tarkkuus yhdistettynä vaihdettaviin linsseihin tekee kamersta ihanteellisen ratkaisun esimerkiksi konenäkösovelluksiin.

    Ammattipuolella kamera avaa Raspberry Pi -korteille käyttöä esimerkiksi konenäössä, robotiikassa ja monissa teollisuuden sovelluksissa. Se sopii hyvin myös kodin ja ammattikäyttöön tarkoitettuihin turvajärjestelmiin, joiden pitää toimia huonoissa valaistusoloissa. Kamera voidaan ohjelmoida keräämään tietoja kasvojen ja rekisterikilven tunnistamisen ja pysäköintitilan valvonnan tukemiseksi.

    Reply
  16. Tomi Engdahl says:

    A More Open Raspberry Pi Camera Stack With Libcamera
    https://hackaday.com/2020/05/11/a-more-open-raspberry-pi-camera-stack-with-libcamera/

    As open as the Raspberry Pi Foundation has been about their beloved products, they would be the first to admit there’s always more work to be done: Getting a Pi up and running still requires many closed proprietary components. But the foundation works to chip away at it bit by bit, and one of the latest steps is the release of a camera stack built on libcamera.

    Most Linux applications interact with the camera via V4L2 or a similar API. These established interfaces were designed back when camera control was limited and consisted of a few simple hardware settings. Today we have far more sophisticated computational techniques for digital photography and video. Algorithms have outgrown dedicated hardware, transforming into software modules that take advantage of CPU and/or GPU processing. In practice, this trend meant bigger and bigger opaque monolithic pieces of proprietary code. Every one a mix of “secret sauce” algorithms commingling with common overhead code wastefully duplicated for each new blob.

    An open source camera stack for Raspberry Pi using libcamera
    https://www.raspberrypi.org/blog/an-open-source-camera-stack-for-raspberry-pi-using-libcamera/

    Reply
  17. Tomi Engdahl says:

    New product: Raspberry Pi High Quality Camera on sale now at $50
    https://www.raspberrypi.org/blog/new-product-raspberry-pi-high-quality-camera-on-sale-now-at-50/

    We’re pleased to announce a new member of the Raspberry Pi camera family: the 12.3-megapixel High Quality Camera, available today for just $50, alongside a range of interchangeable lenses starting at $25.

    https://www.raspberrypi.org/products/raspberry-pi-high-quality-camera/

    Reply
  18. Tomi Engdahl says:

    Use Almost Any MIPI Camera Module on Raspberry Pi (up to 18MP)
    https://www.arducam.com/use-almost-any-mipi-camera-module-on-raspberry-pi/

    The Arducam team has worked hard in the past few years to solve the technical issues, and now we just released a low cost, high-performance camera board for the Raspberry Pi platform, enabling users to connect most MIPI camera modules directly to Raspberry Pi’s native CSI camera port.

    this offering from Arducam enables industrial quality cameras to be paired with low cost processors, and will bring many new machine vision applications to life.

    Technically, there are at least three methods to use a camera on a RasPi, and they are SPI Cameras, USB cameras, and MIPI cameras.

    MIPI stands for Mobile Industry Processor Interface, and MIPI CSI-2 is one of the most popular camera interfaces to support high-performance camera applications.

    These Arducam MIPI Camera Modules adopts the Raspberry Pi Zero like 22-pin CSI connector, and you can easily use them on Raspberry Pi 4, Pi 3/3B+, Pi Zero, and Raspberry Pi Compute Module with Arducam SDK and examples. You can now use a better camera module for applications like wildlife camera, surveillance camera, Raspberry Pi video streaming, AR/VR, QR code scanning, and so on.

    Reply
  19. Tomi Engdahl says:

    Raspberry Pi Foundation Announces Libcamera-Based Open Source Camera Stack
    https://www.hackster.io/news/raspberry-pi-foundation-announces-libcamera-based-open-source-camera-stack-eb41f911c9f7

    “The new Raspberry Pi Open Source Camera System is providing something distinctly novel,” says engineer David Plowman.

    Reply
  20. Tomi Engdahl says:

    Raspberry Pi Foundation Announces Libcamera-Based Open Source Camera Stack
    “The new Raspberry Pi Open Source Camera System is providing something distinctly novel,” says engineer David Plowman.
    https://www.hackster.io/news/raspberry-pi-foundation-announces-libcamera-based-open-source-camera-stack-eb41f911c9f7

    Reply
  21. Tomi Engdahl says:

    Raspberry Pi High Quality Camera opens new doors for DIY projects
    You can make your own home security camera or peep on backyard birds.
    https://www.cnet.com/news/raspberry-pi-high-quality-camera-opens-new-doors-for-diy-projects/

    Reply
  22. Tomi Engdahl says:

    Set up and use your new Raspberry Pi High Quality Camera in a headless setup.

    Raspberry Pi High Quality Camera Headless Setup Tips
    https://www.hackster.io/sridhar-rajagopal/raspberry-pi-high-quality-camera-headless-setup-tips-37903c

    Learn how to setup and use the new Raspberry Pi High Quality Camera in a headless setup.

    Reply
  23. Tomi Engdahl says:

    Hubble Pi Is a Raspberry Pi-Based Astrophotography Camera
    https://www.hackster.io/news/hubble-pi-is-a-raspberry-pi-based-astrophotography-camera-63f7c3b03a17

    If you already have a telescope, you can use a Raspberry Pi to outfit it for astrophotography.

    https://github.com/RemovedMoney326/Hubble-Pi

    Reply
  24. Tomi Engdahl says:

    This reddit user got their hands on one of our new Raspberry Pi High Quality Cameras and decided to upgrade their homemade microscope with it. And the results are pretty impressive.

    https://www.raspberrypi.org/blog/raspberry-pi-high-quality-camera-powers-up-homemade-microscope/

    Reply
  25. Tomi Engdahl says:

    Raspberry Pi-Powered Computer Vision System Calculates Uncertainty to Make Robotic Prosthetics Safer
    https://www.hackster.io/news/raspberry-pi-powered-computer-vision-system-calculates-uncertainty-to-make-robotic-prosthetics-safer-5e3dbc2a1391

    With a camera in a pair of glasses, or on the limb itself, a computer vision system improves locomotion for lower-limb prosthetics.

    Reply
  26. Tomi Engdahl says:

    One of our fave makers, Wayne from Devscover, got a bit sick of losing at Scrabble (and his girlfriend was likely raging at being stuck in lockdown with a lesser opponent). So he came up with a Raspberry Pi–powered solution!

    Using a Raspberry Pi High Quality Camera and a bit of Python, you can quickly figure out the highest-scoring word your available Scrabble tiles allow you to play.

    Be a better Scrabble player with a Raspberry Pi High Quality Camera
    https://www.raspberrypi.org/blog/be-a-better-scrabble-player-with-a-raspberry-pi-high-quality-camera/

    Using a Raspberry Pi High Quality Camera and a bit of Python, you can quickly figure out the highest-scoring word your available Scrabble tiles allow you to play.

    Software
    Firstly, the build takes a photo of your Scrabble tiles using raspistill.

    Next, a Python script processes the image of your tiles and then relays the highest-scoring word you can play to your touchscreen.

    The key bit of code here is twl, a Python script that contains every possible word you can play in Scrabble.

    Reply
  27. Tomi Engdahl says:

    HQ Camera Module – Unboxing & Full Setup Tutorial – Raspberry Pi
    https://m.youtube.com/watch?v=KaLmiwuc1So

    Wayne from Devscover shows you how to first set up your HQ Raspberry Pi Camera module for the first time. This includes the putting together of the components, the setting up of Raspbian and the use of raspistill.

    Reply
  28. Tomi Engdahl says:

    I built my own camera with a Raspberry Pi 4
    https://www.theverge.com/21306907/diy-camera-raspberry-pi-high-quality-how-to-build-video-c-cs-mount-lenses

    It’s always been a dream of mine to put my vintage camera lenses to work again, so when the Raspberry Pi Foundation put out a camera system that supported C- and CS-mount lenses, I knew I had to get one and turn it into a custom digital camera.

    My plan was to put the new Raspberry Pi High Quality Camera inside the body of a toy 35mm camera I had, giving me a way to use my vintage lenses without having to pay for processing film.

    For my build, I used the $50 HQ Camera Mod, a Raspberry Pi 4 computer, a USB-C portable 10,000mAh charger, a 3.5-inch touchscreen, jumper wires, a mini push button switch, the body of a Ninoka NK-700 35mm camera, and two vintage C-mount lenses.

    The plan was simple: plug in the HQ camera board to the Raspberry Pi, program the system to take photos using a button, and then place all of the components into the gutted body of a toy, 35mm camera I found in my basement. Carrying out the plan was, well, not as straightforward.

    The official Raspberry Pi Camera guide is free online and filled with code for programing different functions like stop-motion photography or setting up a security camera.

    https://magpi.raspberrypi.org/books/camera-guide

    Reply
  29. Tomi Engdahl says:

    Photographers on a budget can build their own 3D camera using a pair of Raspberry Pis and Raspberry Pi HQ Cameras.

    DIY 3D Camera with Raspberry Pi
    https://www.hackster.io/news/diy-3d-camera-with-raspberry-pi-ef403d059fd9

    Photographers on a budget can build their own 3D camera using a pair of Raspberry Pis and Raspberry Pi High Quality Cameras.

    The most practical way to capture 3D photos and videos is to use two cameras that are spaced apart at a distance roughly equal to that between your own eyes. But that is easier said than done; two cameras are obviously more expensive than one, and those cameras need to be small enough that they can be positioned close together (or have complicated lenses to achieve the same effect). Fortunately for 3D enthusiasts on a budget, Raspberry Pi computers provide a fantastic solution, and you can build your own 3D camera using a pair of Raspberry Pi High Quality Camera modules.

    The Raspberry Pi High Quality Camera module was released earlier this year, and is a huge step up from the normal camera module. The Camera Module V2 has an 8-megapixel Sony IMX219 sensor, while the High Quality Camera has a much better 12.3-megapixel Sony IMX477 sensor. Aside from the higher resolution, the High Quality Camera also has great features like C and CS-mount lenses that make it better suited for professional applications. To create your 3D camera, you’ll need two HQ Cameras, two lenses, and two Raspberry Pi Zero Ws.

    For software, just install and update Raspbian Lite on both of those Raspberry Pis (make sure to give them unique hostnames). You’ll then setup each Raspberry Pi and camera as a webcam, which will allow you to see the video streams on your local network via webservers. A Python script called 3dcamera.py will let you meld those two feeds into one that you can view through a website, which will also let you snap 3D pictures. You can view your new 3D images however you like, but the Google Cardboard VR headset kit is an affordable way to look at them.

    https://magpi.raspberrypi.org/articles/make-a-3d-camera

    To create 3D photographs, we need to be able to take two photos simultaneously, about 5 cm apart. These images can then be processed into a variety of different formats such as parallel view, cross-view, or anaglyph (when you wear red/green glasses). As this is a 3D project, it’s not surprising to learn that we’ll need two of everything.

    As we have two Raspberry Pi Zero boards, we need two power supplies, right? Well, we can pull a little trick so that only one is required. With some wire, solder a 5 V line and a ground (GND) line from one GPIO to the equivalent on the other

    Reply
  30. Tomi Engdahl says:

    This cloud-connected hat uses a Raspberry Pi and Pi Camera to automatically sync videos as they’re recorded.

    HatCam – a Cloud Synced Hat Camera
    https://www.hackster.io/jim-bennett/hatcam-a-cloud-synced-hat-camera-34f513

    A wearable, cloud connected camera using a Raspberry Pi, a camera and a hat that auto-syncs videos as they are recorded.

    Reply
  31. Tomi Engdahl says:

    This 3D-printed enclosure turns your new Raspberry Pi HQ Camera into a battery-powered DSLM.

    PiDSLM – Raspberry Pi DSLM
    A small, battery-powered, modular grip Raspberry Pi DSLM.
    https://www.hackster.io/nick-engmann/pidslm-raspberry-pi-dslm-2a86c3

    Reply
  32. Tomi Engdahl says:

    This Raspberry Pi iSight Camera Is Perfect for Zoom Meetings
    https://www.tomshardware.com/news/this-raspberry-pi-isight-camera-is-perfect-for-zoom-meetings

    Are you looking for hardware to pull off your virtual meetings in style? Maker Max Braun feels your pain, that’s why he decided to retrofit a Raspberry Pi Zero inside of an old Apple iSight camera.

    The iSight originally ran from 2003 – 2006, so the quality of the camera (and compatibility) is far from modern standards. By gutting the inside, he was able to fit a Pi Zero inside along with a Camera Module V2.

    The camera upgrade provides a significant improvement in image quality. The new setup captures 1080p video with a frame rate of 30 per second. The outer shell was kept intact to maintain the look and feel of the original iSight.

    Reply
  33. Tomi Engdahl says:

    A DIY digital Polaroid camera with the same snappy responsiveness as the original.

    Retrofit a Polaroid Camera With a Raspberry Pi and a Thermal Printer
    https://spectrum.ieee.org/geek-life/hands-on/retrofit-a-polaroid-camera-with-a-raspberry-pi-and-a-thermal-printer

    Reply

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