Skip to content

Porcupine is an autogenerated, ergonomic, split, 36-42 key, wired/wireless, columnar-staggered keyboard

License

Notifications You must be signed in to change notification settings

anarion80/porcupine

Repository files navigation

Porcupine Logo

Last commit Releases License: SHL-2.1 License: GPL

Porcupine is an autogenerated, ergonomic, split, 36-42 key, wired/wireless, columnar-staggered keyboard. It is designed to fit my needs and my hand, but it can be easily updated thanks to declarative design. It uses a ProMicro-compatible MCU board and supports both QMK and ZMK firmwares.

It is inspired by:

It is fully Open-Source: the KiCad files are released under the solderpad license, version 2.1. The software (scripts/config files) in this repository is released under the GPL.

✨ Features

  • Autogenerated - PCB layout is declared using YAML config files and generated into PCB files using Ergogen tool (migrated to V4). Use my fork of it for added footprints.
  • 3 variants:
    • regular 5x3 column-staggered ortholiner layout with 3 thumb keys (36 keys total)
    • regular 5x3 column-staggered ortholiner layout with 4 thumb keys (38 keys total)
    • regular 6x3 column-staggered ortholiner layout with 4 thumb keys (42 keys total)
  • Wired or wireless
  • Low-profile (using Kailh Choc switches)
  • Reversible PCB (save cost in production)
  • Pro-micro/Elite C/Proton C/nice!nano support
  • Hot-Swap support
  • SplitKB Tenting puck support.
  • uses KiKit to render PCB previews (see below)
  • uses KiBot to run DRC, create Gerber and Drill files for production (and Interactive BOM and 3d renders just for fun)
Front/Left Back/Right
Porcupine
Porcupine Front Porcupine Back
Porcupine 4 thumb keys
Porcupine Front Porcupine Back
Porcupine 3x6
Porcupine Front Porcupine Back
Prototype boards (generated using Ergogen v3 still):
Porcupine Front Porcupine Back
Porcupine working final prototype
Porcupine working final prototype

🧾 Components list

To build and use a Porcupine you will need:

  • 1x PCB Kit
  • 2x promicro compatible boards or 2 nice!nanos.
  • 34-42 Choc V1 Low profile switches
  • 34-42 Kailh Choc hot-swap sockets
  • 34-42 diodes (SMD or THT)
  • 34-42 keycaps
  • 2x reset switches (optional; B3U-1000P(M))
  • 4x 12x low profile female headers (optional; only if you want the microcontroller socketed)
  • 48x Mill Max low profile socket pins (optional; socketed microcontroller; if you are using tht diodes you can use the legs of those diodes)
  • Some little rubber feet/bumpers
  • 2x power (On/Off) switches (optional; MSK 12C02)
  • JST PH battery connector (wireless build; S2B-PH-K)
  • Li-Po 110mAh battery (wireless build; 301230)
  • 1x TRRS (not TRS!) cable (wired build only)
  • 2x TRRS Jack [PJ-320A] (wired build only)
  • 1 USB Cable (wired build; depends on your micro-controller choice)

👷 Build Guide

Manually-routed PCBs for each variant are included in the output folder, so if they are fine for you, you can just take them directly, have them produced and then build.

For step-by-step instructions on assembling the keyboard, see the Porcupine build guide.

⌨️ Firmware/keymaps

QMK firmware and keymaps - confirmed working with the prototype boards! 🎉

ZMK firmware and keymaps - confirmed working now as well! 🎉

✏️ How to use/update/modify

If you would like to modify this:

  • fork it
  • (optionally, to see the 3d view of generated PCB in KiCad)
    • copy 3d models from 3dmodels/ergogen folder into your KiCad's installation ${KICAD6_3RD_PARTY}/3dmodels/ergogen/ folder1.
  • change input/porcupine*.yaml to your liking
  • commit to Github

The associated Github Workflow action will then generate the PCB, 2D Images of the board and a whole KiBot package with Gerber/Drill files, Interactive Bom, images and renders. The files will be available as Workflow Action artifacts.

⚠️ The boards will come out unrouted! But if you add a manually routed board to output/[board_name]/pcbs/ folder, the Workflow will pick it up and generate everything for it as well.

If you would rather do all that locally, then:

  • install Ergogen: npm install
  • install Docker
  • generate PCBs: npm run gen_pcb
  • generate images: npm run gen_images
  • generate Kibot package: npm run gen_kibot

Further:

  • route the board manually in KiCad
  • produce (for eample in JLCPCB or PCBWay)
  • build
  • load firmware
  • use it!

⚠️ Important Notes

  • Kicad files are 6.0, so unfortunately not backwards compatible.
  • If you're going for wired version or just want to skip out on the power switch, you need to solder the Jumper.
  • Manually-routed boards are included, but there is no autorouting for generated boards.
  • You need to have Docker installed to use npm run gen_images or npm run gen_kibot to generate pcb images and Kibot bundle.

🔨 TODO

  • a variant with MX switches
  • automation of DRC/BOM/Gerber creation/validation with Github workflow
  • proper 3d-printable cases
  • LED support

📄 Disclaimer

The author(s) waive(s) responsibility for any damage or regulatory violations caused by using this hardware and software (see license). Please consult your local regulations around radio frequencies and what's allowed for DIY projects in your country.

Porcupine logo by @migorzka

Footnotes

  1. The models are bundled here in the repository, but they are taken from KiCad directly, from keyswitch-kicad-library or are created by me.

About

Porcupine is an autogenerated, ergonomic, split, 36-42 key, wired/wireless, columnar-staggered keyboard

Topics

Resources

License

Stars

Watchers

Forks

Packages

No packages published