qmk_firmware/keyboards/vitamins_included
fauxpark f2c179de58 Remove superfluous JTAG disable code (#6445)
* Remove superfluous JTAG disable code

* 32A has differently named register

* Accidentally some operators

* 32A also has different JTAG pins

* Wrap disable_jtag() in an ifndef

* Document this new define

* Rename the define, it conflicts with a LUFA thing

Also, move the ifndef wrapping to the call in keyboard_setup()
2019-08-20 22:18:52 -07:00
..
keymaps
rev1
config.h
i2c.c
i2c.h
matrix.c
readme.md
rules.mk
serial.c
serial.h
split_util.c
split_util.h
vitamins_included.c
vitamins_included.h

Let's Split Vitamins Included

Let's Split Vitamins included, assmebled in 3D printed case

This readme and most of the code are from https://github.com/ahtn/tmk_keyboard/

Hardware files for the Let's Split vitamins included are stored here

First Time Setup

Clone the qmk_firmware repo and navigate to its top level directory. Once your build environment is setup, you'll be able to generate the default .hex using the build/compile instructions in the docs

If everything worked correctly you will see a file:

lets_split_vitamins_rev1_YOUR_KEYMAP_NAME.hex

If you want, you can flash the hex file to the keyboard right after compilation, by adding :avrdude to the end of the make command like so:

make lets_split_vitamins/rev1:default:avrdude

This will both compile the hex, and flash the connected half.

For more information on customizing keymaps, take a look at the primary documentation for Customizing Your Keymap in the main readme.md.

Features

For the full Quantum Mechanical Keyboard feature list, see the parent readme.md.

Some features supported by the firmware:

  • Either half can connect to the computer via USB, or both halves can be used independently.
  • You only need 3 wires to connect the two halves. One for VCC, one for GND and one for serial communication.
  • Optional support for I2C connection between the two halves if for some reason you require a faster connection between the two halves. Note this requires an extra wire between halves and pull-up resistors on the data lines. This is supported on the vitamins included.
    The extra data line can also be used for ws2812 type LEDs.
    If neither I2C nor RGB underglow is used, a TRS cable can be used instead of the 4wire TRRS cables.

Required Hardware

Amount Description
1 PCB kit from novelkeys
48 MX compatible switches
48 1U keycaps
2 Half cases. A 3D model for the left half is available here. Mirror that to get a right-half case. Plate cases will be designed in the future.
1 USB-mini-B cable of your choice
1 TRS / TRRS cable

Optional Hardware

A speaker can be hooked-up to the footprint on the PCBs. It is already enabled in the default firmware from github.

A strip of WS2812 LEDs can be hooked up too, a guide will be written on how to do that once I get mine in the mail.
The PCB and connectors can safely handle 1A of current, but the USB standard is only rated at 500mA. Keep that in mind when picking the amount of LEDs.

Using I2C

On the left half PCB, there's two pads labled I2C Pullup if you want to use I2C, you need to bridge those two solder jumpers with a soldering iron.

You can change your configuration between serial and i2c by modifying your config.h file.

Notes on Software Configuration

Configuring the firmware is similar to any other QMK project. One thing to note is that MATRIX_ROWS in config.h is the total number of rows between the two halves, so because the let's split vitamins included has 4 rows in each half, it's MATRIX_ROWS=8.

Also, the current implementation assumes a maximum of 8 columns, but it would not be very difficult to adapt it to support more if required.

Entering bootloader

If the keyboard isn't new, and has been flashed before, you need to enter bootloader. To enter bootloader, either use the assigned keys on the keymap, or if none have been put in the keymap, quickly short the reset to gnd twice. (Bottom pins of programming header, see image) Reset pins

If using the default keymap, there's a reset key-combination on each half:
Lower (SW23) and left-shift (SW13) on the left half, or
Raise(SW44) and Enter(SW42) on the right half
It is recommended to add such reset keys to any custom keymaps. It shouldn't be necesarry to have one on each half, but the default layout has that.

The board exits bootloader mode after 8 seconds, if you haven't started flashing.

EEPROM

If this is the first time you're flashing the boards, you have to flash EEPROM

  1. If your keyboard is plugged in, unplug it
  2. Open a terminal, and navigate to the qmk_firmware folder
  3. Run ls /dev | grep tty Note down which ports you see
  4. Plug the keyboard in, if it's new, it should enter bootloader, if it's not new, see Entering bootloader on how to enter bootloader mode
  5. Right after entering bootloader, run ls /dev | grep tty again. There should be a new tty, this is the bootloader TTY, note it down. If nothing shows see Entering bootloader on how to enter bootloader mode
  6. For the left hand side, run avrdude -c avr109 -p m32u4 -P /dev/ttyS1 -U eeprom:w:"./quantum/split_common/eeprom-lefthand.eep":a Replace /dev/ttyS1 with the port you noted down earlier. If you're on windows using msys2, replace /dev/ttyS1 with COM2, note that the number is one higher than the tty number.
    Do the same For the right hand, but change the file to eeprom-righthand.eep

Your EEPROM should be flashed :)

In the future, you shouldn't need to flash EEPROM (it will in fact wear the eeprom memory, so don't)

Flashing

If you haven't flashed EEPROM before, do that first.

To flash keymaps onto the keyboard, use:

make lets_split_vitamins/rev1:[KEYMAP]:avrdude

from the qmk_firmware folder. Default being the default keymap.

You can plug either half into USB and it will work. you can also remove the TRS/TRRS cable, and plug both halves in. (which is why the default layout has reset on both halves)

Enjoy your keyboard! :D