Photographers and Raspberry Pi enthusiasts interested in building their very own using the mini PC and the official Raspberry Pi High-Quality camera. The project has been created and designed by ...

The Raspberry Pi Zero Pro Plate for HQ Camera is now available from Adafruit priced at $6.95. This affordable accessory is a must-have for enthusiasts looking to enhance their Raspberry Pi camera ...

The Raspberry Pi HQ camera module is an exciting product that for the first time puts something close to a decent quality interchangeable lens camera into the hands of hardware hackers.

Protect your household with a straightforward monitoring system This project combines a Raspberry Pi and a compatible camera module to create a simple yet effective surveillance tool.

Raspberry Pis can do a lot more than play retro video games, and if you have a camera handy, then there are a lot of fun DIY projects you can try.

DIY Projects Raspberry Pi’s $50 camera opens the door for awesome DIY photography projects It even accepts interchangeable lenses.

Although camera modules are a fantastic addition to any Raspberry Pi setup, you're likely to run into issues if you attempt to plug the typical ribbon connectors into the new MIPI ports on the ...

The new Raspberry Pi Global Shutter Camera, at just $50, is a very inexpensive solution for camera enthusiasts and hobbyists looking for a camera with a global shutter.

Tiny, supercheap Raspberry Pi computers have always been great for do-it-yourself projects, but with the addition of a new high-quality camera this week, they're becoming a better foundation for ...

The Raspberry Pi Foundation has launched the Raspberry Pi High Quality Camera with interchangeable telephoto and wide-angle lenses. The RPi HQ Camera is available today for $50 from Raspberry Pi ...

Raspberry Pis will soon have many more camera-based projects available to them, as the newest Camera Module from the single-board computer maker allows for autofocus, high dynamic range, lower ...

Utilizing the Raspberry Pi HQ camera, a 3D printed framework, and some precisely placed mirrors, [Andrew] says his optical sensor is able to determine the blade’s position to within 10 microns.