Has a hole to allow jumper wires through) – Plastic Case for the Pi (This isn’t necessary, but will keep the Raspberry Pi safe. – Raspberry Pi (Updated this link to the B+ model since it is the most readily-available revision) This project can be accomplished with no soldering or breadboards required. Or it’s just really cool.Īlong with the post I linked above, most tutorials I came across involved making circuits with breadboards or something similar for the magnetic switch sensor portion, but I didn’t have anything like that laying around and to be honest, it seems to over-complicate things. This project could prove useful for things like letting in a repairman or family member to your home when you’re not there, or if you simply lose your dedicated garage door remote or its batteries have died. I had never used, or really thought of using a Raspberry Pi for anything at all, or anything related to home automation, but this really piqued my interest. Recently, I read a blog post ( ) about configuring a Raspberry Pi to become an internet-connected garage door opener – meaning you can control your garage door from any device with an internet connection. The guide has also been updated to reflect this. Another note is that the B+ revision now uses Micro SD cards rather than the full-size SD card. Please note that if you’re going to use this version, you don’t necessarily need the USB wireless adapter listed below since the B+ revision of the Raspberry Pi includes a wired LAN port. The link below for the B+ model is still valid, and this model will still work for this project. I’ve updated the Amazon links to point to the new Raspberry Pi B+ revision. If you are following this tutorial, you must be using the first-generation Pi. It has become apparent that WebIOPi is not yet compatible with the Raspberry Pi v2.
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January 2023
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