keyboard-labs
cantor
keyboard-labs | cantor | |
---|---|---|
12 | 34 | |
106 | 561 | |
- | - | |
9.6 | 4.8 | |
3 months ago | 6 months ago | |
OpenSCAD | ||
- | GNU General Public License v3.0 only |
Stars - the number of stars that a project has on GitHub. Growth - month over month growth in stars.
Activity is a relative number indicating how actively a project is being developed. Recent commits have higher weight than older ones.
For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.
keyboard-labs
-
Budget Split Keyboard
- Here's a build guide https://github.com/rgoulter/keyboard-labs/blob/master/docs/buildguide_rev2021.4_budget.md / video log https://www.youtube.com/watch?v=zhKnluxdRtA
- CH552-48: 4x12 Ortho using Low-cost CH552 MCU
- What are the best designs to cheap out? E.g. Reviung34 only needs 1 controller.
-
Gaming with Trackball vs Mouse Comparison
Ah, it's a custom PCB design https://github.com/rgoulter/keyboard-labs/ and the design takes a clear inspiration from the Lumberjack PCB https://github.com/peej/lumberjack-keyboard
-
If you can't be good, be colorful
Keyboard. Keycaps are MDA profile from Melgeek. Keyboard PCB is custom PCB. https://github.com/rgoulter/keyboard-labs Devboard is a WeAct Studio MiniF4 "Blackpill", which runs Arm (so allows e.g. firmware with Rust, or KMK, or more bells/whistles from QMK).
-
Finding SN74LVC1T45DBV replacement for 3.3 to 5V logic
Hi, I'm planning on building a mechanical keyboard and found this SN74LVC1T45DBV in the schematic which is used to convert a 3.3v signal to 5v so that the RGB LEDs receive data reliably, as per component shortage those are hard to find and quite expensive since I just need two and it doesn't seem that critical to me (low current and common voltage from 3.3 to 5) but I don't know how to look for an alternative do you have any suggestion on how to look for one other than footprint (sot-23-6in this case) as I don't really understand enough on this datasheet to find one myself and this is the last part to find before ordering the electronics. If that matters I'm buying most of the electronics from china (to avoid 20€ shipping from mouser and similar for just basic components) and mechanics from another site. I think it's on-topic but if it's not feel free to remove the post
-
Lumberjack-inspired ARM-powered Ortho 5x12 in GH-60 Case
Gerbers and lasercutting assets can be found at: https://github.com/rgoulter/keyboard-labs/releases/tag/x2-rev2021.1 (with sources to generate these made available in the main repo).
-
bgkeeb - cheap (or free!) split pcb with a lot of features! see post comment for details
Ah, I hope it's not too rude of me to say I'd had a go at designing a keyboard to a similar spec. https://github.com/rgoulter/keyboard-labs/releases/
-
Questions about hand wired board
I recently made a low-budget build, + wrote a build guide here: https://github.com/rgoulter/keyboard-labs/blob/master/docs/buildguide_rev2021.4_budget.md There are a number of sub-100x100mm PCBs which would be similarly cheap. Not quite as cheap as hand-wired, but much less effort required.
-
cost of building
https://github.com/rgoulter/keyboard-labs/ I have a design which is also smaller than 100x100, but use a more powerful dev board than the pro micro.
cantor
-
Corne, but with a wider thumb cluster and stronger column stagger?
There are a few things that are close: * The Cantor/Piantor: more aggressive stagger and slightly changed thumb cluster. * The Swept Corne: essentially a big sweep. * The Hillside 46/48: This comes in many forms which are very similar to what you are looking for. Essentially an extra aggressive stagger (and perhaps splayed) Corne with a bigger thumb cluster.
- With enough GPIO pins, can I skip diodes?
-
Cheapest way to try Miryoku style layout
Depending on how comfortable you are ordering PCBs yourself, the Cantor (https://github.com/diepala/cantor ) or the Cheapino (https://github.com/tompi/cheapino ) might be a good starting point for getting into split keyboards, both are diodeless, so you only need to solder the switches and use relatively cheap microcontrollers
-
My corne swept with handmade oak case
The Corne caught my eye first, but I ended up starting with a Cantor, which has more stagger, like OP's keyboard. It didn't work for me. The Corne works better for me.
- MRIYA
-
Optimising Colemak DH for Programming
cantor
-
What are the best designs to cheap out? E.g. Reviung34 only needs 1 controller.
Cantor by DiePala, Choc, diodeless, cheap “Black pill” mcu, requires two. Caseless/plateless. Pcb is reversible, but you’ll need trrs cable and Jack.
-
Adding millmax to non-swappable PCB
I have 2 hand-wired keyboards with cherry style switches, and I decided to build a Cantor (diodeless, Corne-like with more pinky stagger) to try a PCB build and the Kailh choc v1 switches for a first time.
-
Does the Lily58 have the same floating PCB problem of the Sofle?
several of the low-profile / Choc boards (ex. Cantor) go the plateless and caseless route with nothing more than rubber bumpers on the bottom of the PCB
-
How do I get started with KiCad for customizing an existing, open source layout?
Cantor – low profile
What are some alternatives?
Sweep - Sweep - a small promicro based keyboard inspired by the Ferris.
torn - Torn keyboard
Contra - Contra - Lowest cost ortholinear keyboard kit possible
piantor - The Piantor Keyboard is a beginner-friendly, easy-to-solder, 42-key or 36-key, diodeless, low profile aggressive column staggered, hotswappable and non-hotswappable, programmable ergonomic mechanical split keyboard powered by Raspberry Pi Pico or other compatible RP2040 boards. It is based on the Cantor Keyboard.
bgkeeb
zmk - ZMK Firmware Repository
36keys - Keyboard pcbs with 36key or less?
keygen - An(other) algorithm for generating optimal keyboard layouts.
crkbd - Corne keyboard, a split keyboard with 3x6 column staggered keys and 3 thumb keys.
dracuLad - QMK-powered 34-36 key split keyboard
eternal-keypad - A 36 key gaming keypad, for both right and left handed mouse users.