The case is 297 mm wide, so you either need a big printer, or you’ll have to split it into pieces to print. (I’ll hopefully get to that eventually.) Case STLs At this point, I haven’t had time to clean up the CAD files to make it more clear what you need to do to make these changes. If you want to change the tolerances, you’ll also need to make a copy of the CAD document and modify it. If changes have been made to the source CAD since then, you can also export yourself. These are the STLs as exported from the above source on (v1.0). Then flash according to the QMK instructions. To build the firmware (once you have your system set up), run: This keyboard uses QMK, so it’s very flexible to modify the layout.įirmware source files. Interested in making all or part of this? Here’s what you’ll need. (Gotta put a nice picture first for the social media previews.) Links & Files You can download the latest version of the firmware from the GitHub repository. (Sorry, QWERTY plebians.) Don’t worry – it’s on the TODO list. It’s built! And it looks like the original render! And it works! Unicode now works, too (look, emoji: □□□□ – see this update) but the caveat is that for the moment, the keyboard only works with a Colemak layout, but none of the unicode/emoji keys line up with where you’d want them to be relative to the letters. This is a build log of our ortholinear 87-key (~75%) keyboard as a class project for Physics 223. Creating a Keyboard Posted: 2019 December 17
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