geteilt von: https://feddit.de/post/3049646
geteilt von: https://feddit.de/post/3048730
Github link: https://github.com/Dakkaron/Fairberry
Here’s a video of it in action: https://www.youtube.com/watch?v=iDb8_ld9gOQ
I’ve been using it for almost two years now, and I’m not going back.
It’s based on a spare Blackberry Q10 keyboard and a custom Arduino-compatible board that reads the keyboard matrix and outputs it as USB HID to the phone. From the viewpoint of the phone, it’s just a regular USB keyboard, so no special software is needed.
But I do use a custom virtual keyboard to have just two rows of symbols that are not natively on the keyboard, as I didn’t want to add another layer of rarely used symbols that I’d have to memorize.
(On the image you can see Ubuntu with XFCE4 running on it. I chose Ubuntu because it’s what was easiest to get running in a chroot jail on the phone. I’m using VNC to display the GUI. I even managed to get FEX (x86/x64 emulator) and Wine running, so it runs x86/x64 Linux and Windows apps.)
Btw: Is there maybe someone who wants to make a little side money? There are tons of people who say they’d buy this, but I don’t want to make them.
The designs are all online and I’m happy to help. So if someone wants to make and sell them, that would be really cool! (I don’t want or need any financial compensation. I’d just be happy if people have access to this.)
Technically speaking shouldn’t this be FOSH?
I know the term has taken hold and is more googlable. Just pedantically speaking.
deleted by creator
a lil of both but yeah the main focus is the hardware
Yeah, you are right. On the other hand, all the software on there is also FOSS and if you are very liberal with the term “software”, design files could maybe also be construed as software.
Tbh, though, I’ve never seen anyone use the term FOSH.
That’s why I put the extra bit at the end. I think FOSS is or is becoming synonymous with open source.
FOSF isn’t terribly pronounceable, but would technically be a thing too.
F for firmware?
FOSD could be used for design files.
That’d be it, yeah
Yes… you did
Is it possible to do something like this that can be left on 100% of the time, with some sort of USB pass-through for further connectivity and charging? Or is that too asking too much of the board?
Pass-through charging would be possible, but I determined that if I put everything in that I want, the project would never be finished^^
I also considered adding a headphone jack, but that was also cut.
Passing through more than charging gets complicated fast. That would require a fitting hub. USB2 would be possible, USB3 would be difficult, stuff like display port would be really hard.
Also, afaik, a single USB port cannot be in host and device mode at the same time, so I believe it would be impossible to have the keyboard attached and connect the phone to a PC at the same time.
In the end I settled for a quickly detachable design to avoid all that added complexity.
Another option would be to use a phone with wireless charging and wireless connectivity.
Hey again :D glad to see you getting more traction! Awesome project. I had a couple of questions. Would any Blackberry keyboard work or just Q10? I’m personally eyeing the one from Key2 as it fits the modern phone aesthetics better. If I stick to Q10, where can I get the correct measurements of my phone for the 3D model generator?
Thanks for putting in so much effort into this project, it’s truly amazing
Hi there!
It’s currently just the Q10. The other keyboards have different connectors and different keyboard matrix configurations. It wouldn’t be too hard to adapt it to another keyboard, except that you’d need to know what the target keyboard connector is called. I tried to figure that out for the Key2 and at least when I was at the research phase (~2 years ago) I couldn’t find any info online about that.
After the connector is known, the rest isn’t too hard. The next step would be to make a breakout port, so you can figure out the keyboard matrix layout. Here you connect each pin from the matrix to an Arduino and just trace which two pins get shorted when you press which button.
Then you just feed that info into the Arduino sketch that is running on the final device, adjust the KiCAD designs for the new connector and that’s basically it.
Except if you want to support higher-level features like capacitative touch on the keyboard. That would be a bit more difficult.
I don’t I have the time to do all that work, but if you want to, feel free to do so!
Regarding the correct measurements: The easiest thing would be if you find an STL or something of your phone. There are lots of these for many phones available. You can then just dump that into the script (there is an option of using an STL shape as a “negative mold”. You then go to GSMarena or something like that and fetch your phone’s dimensions from there.
Be aware that any modifications to your phone (e.g. screen protectors) must be accounted for. To do so, get some cheap digital calipers (I got mine from Aliexpress for €4 including shipping, but Amazon also has them for ~€10). They allow you to perfectly measure the dimensions.
The most difficult part is the corner radius, which you have to pretty much guess.
If you have a 3D printer, you can just try out a few different settings and figure out what fits best. It should be a tight fit without wiggle room, but it should also slide on and off with little resistance.
Thanks for the comprehensive answer, honestly the more I learn about this project the more discouraged I become. As I feel like I don’t have the necessary skills or knowledge to pull it off. Regardless thanks for all the effort!
I would make them for you but have zero to invest right now. :(
Minimum order quantity for most of the device is 2, and it costs ~€40-50 per piece if you make 2 of them. If you make 10, this drops to ~€20-30 per piece. If you want to, I can link you up with some people that might be willing to pre-pay, so that you can get the funding to make an initial batch.
From what people told me, they’d be happy to pay €50-150 per piece, with most people being at €70-100.
Required skills would be soldering (same pitch as TQFN44) and 3D printing (PETG) for making them, and Blender or OpenSCAD for adapting the design files to other devices than the FP4.