qmk-keychron-q3-colemak-dh/keyboards/ploopyco/trackball_mini
2021-06-21 20:00:32 +00:00
..
keymaps ADNS-5050 / Ploopy Nano / Ploopy Mini Trackballs (#11994) 2021-03-25 23:10:55 +11:00
rev1_001 Fixes for Ploopy devices (#13144) 2021-06-21 20:59:56 +01:00
rev1_002 Fixes for Ploopy devices (#13144) 2021-06-21 20:59:56 +01:00
config.h 2021 May 29 Breaking Changes Update (#13034) 2021-05-29 14:38:50 -07:00
info.json ADNS-5050 / Ploopy Nano / Ploopy Mini Trackballs (#11994) 2021-03-25 23:10:55 +11:00
readme.md Fixes for Ploopy devices (#13144) 2021-06-21 20:59:56 +01:00
rules.mk Move optical sensor code to drivers folder (#13044) 2021-06-21 21:00:11 +01:00
trackball_mini.c Fixes for Ploopy devices (#13144) 2021-06-21 20:59:56 +01:00
trackball_mini.h Move optical sensor code to drivers folder (#13044) 2021-06-21 21:00:11 +01:00

Ploopy Trackball Mini

Ploopyco Trackball Mini

It's a DIY, QMK Powered Trackball...Mini!

Make example for this trackball (after setting up your build environment):

make ploopyco/trackball_mini/rev1_002:default:flash
make ploopyco/trackball_mini/rev1_002:via:flash

To jump to the bootloader, hold down "Button 4" (immediate right of the ball)

See the build environment setup and the make instructions for more information. Brand new to QMK? Start with our Complete Newbs Guide.

Hardware Reset Button

The Ploopy Mini has a handy bootloader reset mechanism: two via pins on the board, designated by the reference designator MCU.J.X BOOTLOADER. If you stick an uninsulated paperclip or a pair of metal tweezers into both holes and plug in the Mini, it will start in bootloader mode.

Revisions

Occasionally, new revisions of the PCB will be released. Every board comes with a designator that looks something like R1.001.

Match the firmware that you flash onto the board with the designator on the board.

Customzing your Ploopy Mini Trackball

While the defaults are designed so that it can be plugged in and used right away, there are a number of things that you may want to change, such as adding DPI control, or using the ball to scroll while holding a button. To allow for this sort of control, there is a callback for both the scroll wheel and the mouse sensor.

The default behavior for this is:

void process_wheel_user(report_mouse_t* mouse_report, int16_t h, int16_t v) {
    mouse_report->h = h;
    mouse_report->v = v;
}

void process_mouse_user(report_mouse_t* mouse_report, int16_t x, int16_t y) {
    mouse_report->x = x;
    mouse_report->y = y;
}

This should allow you to more heavily customize the behavior.

Alternatively, the process_wheel and process_mouse functions can both be replaced too, to allow for even more functionality.

Additionally, you can change the DPI/CPI or speed of the trackball by calling adns_set_cpi at any time. Additionally, there is a DPI_CONFIG macro that will cycle through an array of options for the DPI. This is set to 375, 750, and 1375, but can be changed. 1375 is the default.

To configure/set your own array, there are two defines to use, PLOOPY_DPI_OPTIONS to set the array, and PLOOPY_DPI_DEFAULT.

#define PLOOPY_DPI_OPTIONS { CPI375, CPI750, CPI1375}
#define PLOOPY_DPI_DEFAULT 2

The PLOOPY_DPI_OPTIONS array sets the values that you want to be able to cycle through, and the order they are in. The "default" define lets the firmware know which of these options is the default and should be loaded by default.

The DPI_CONFIG macro will cycle through the values in the array, each time you hit it. It stores this value in persistent memory, so it will load it the next time the device powers up.

Fuse settings

When flashing the bootloader, use the following fuse settings:

Fuse Setting
Low 0x5E
High 0x99
Extended 0xC3