We finally had some nice, warm weather a couple of weeks ago. Which was nice for being outside, but not so nice for my poor little Raspberry Pi, which couldn’t keep cool. So, I’ve upgraded it with this cooling fan and case from The Pi Hut.
Until now, I’ve been using the standard, official Raspberry Pi case. Which does the job of keeping dust out off the main board and protecting it, but not much else. As it’s plastic, it doesn’t do a good job of heat dissipation.
This was a problem last week, as my Raspberry Pi was getting so hot that it was shutting itself down to prevent damage. The impact of this was that my phone couldn’t access the internet, as I use AdGuard Home as the DNS server.
Cooling options
When it comes to cooling down a computer, there are three ways of doing it. Most use all three:
- Ventilation – letting air flow through the computer
- Active cooling – using a fan (or water cooling system) to move hot air away
- Heat dissipation – using heat sinks to help get heat away from components like the processor
The Raspberry Pi has an ARM processor which is a RISC (Reduced Instruction Set Computer) type, and these tend to run cooler than CISC (Complete Instruction Set Computer) processors like those from AMD and Intel. This is why just about every smartphone uses ARM processors, as otherwise they would probably need fans too. Let’s just say Intel’s attempts at putting x86 processors into smartphones didn’t go well.
If you’re not doing anything too taxing with your Raspberry Pi, then the lack of cooling in the official case probably isn’t going to cause you issues. Indeed, I’d only had occasional issues until the recent warm weather. In addition to Home Assistant and AdGuard, my Raspberry Pi also runs Plex, MariaDB, Nextcloud, Calibre-Web, a Matter server and Nginx Proxy Manager, and it manages all these okay normally.
Cooling case
I ordered the new case from The Pi Hut on a Friday, and it arrived through my letterbox within 24 hours. It’s only £10 and includes a fan, which plugs into your Raspberry Pi’s GPIO (General Purpose Input and Output) ports for power. It comes in a tiny package, because there’s some assembly involved; essentially, you get four acrylic plates, the fan, and lots of screws. Each acrylic plate has been laser cut, and peeling off the protective film and popping out the tabs is quite satisfying.
You’ll need a screwdriver; I have one from the iFixit Essential Electronics Toolkit which seems to be the same one used in the assembly guide. Preparing the plates actually takes longer than the assembly – there’s not many screws and it all slots together.
Up and running with the cooling fan
Once assembled, I re-connected all the cables and booted my Raspberry Pi up. And then had to unscrew the top and re-connect the cooling fan wires as I’d put them in backwards. But after that, the fan whirred into action and I could feel a slight breeze coming out.
The fan is whisper quiet; whilst my hearing isn’t the best, I couldn’t hear it at all. It’s also worth noting that I run my Raspberry Pi on Debian, and not the official Raspberry Pi OS, and yet the fan still works. In other words, there’s no special drivers or scripts to install to get it to work.
If heat is still a problem, then there’s still plenty of space inside the case to add heat sinks, and again, The Pi Hut has you covered. In the meantime, I’ll see how I get on with this new case.
Water cooling?
I mentioned liquid cooling, which is more effective than a cooling fan, and sometimes used for high performance gaming computers. Of course, someone has done this for their Raspberry Pi, and the video is embedded above. The cooling system is huge compared to the Raspberry Pi board, which suggests that just because you can, doesn’t mean you should.
