qmk_firmware/keyboards/infinity60/keymaps/jpetermans
2017-05-08 15:13:02 -07:00
..
config.h Added personal configs and keymap to infinity60/keymaps 2017-04-06 13:43:22 -07:00
keymap.c updated keymap for new led functions 2017-05-08 15:13:02 -07:00
Makefile updated keymap for new led functions 2017-05-08 15:13:02 -07:00
readme.md updated keymap for new led functions 2017-05-08 15:13:02 -07:00

Backlight for Infinity60

Led Controller Specs

The Infinity60 pcb uses the IS31FL3731C matrix LED driver from ISSI datasheet. The IS31 has the ability to control two led matrices (A & B), each matrix controlling 9 pins, each pin controlling 8 leds. The Infinity only utilizes matrix A.

Infinity60 LED MAP: digits mean "row" and "col", i.e. 45 means C4-5 in the IS31 datasheet, matrix A

  11 12 13 14 15 16 17 18 21 22 23 24 25  26 27*
   28 31 32 33 34 35 36 37 38 41 42 43 44 45
   46 47 48 51 52 53 54 55 56 57 58 61    62
   63 64 65 66 67 68 71 72 73 74 75      76 77*
   78  81  82       83         84  85  86  87

*Unused in Alphabet Layout

The IS31 includes 8 pages (or frames) 0-7 and each page consists of 0xB4 (144) bytes

  • 0 - 17 LED control (on/off). 18 pins which alternate between A and B matrices (CA1, CB1, CA2, CB2, ..). Each byte controls the 8 leds on that pin with bits (8 to 1).
  • 18 - 35 Blink control. Same as LED control above, but sets blink on/off.
  • 36 - 143 PWM control. One byte per LED, sets PWM from 0 to 255. Same as above, the register alternates bytes between the A & B matrices.

Led Controller Code

led_controller.c sets up ability to write led layers at startup or control leds on demand as part of fn_actions. By default led_controller.c assumes page 0 will be used for full on/off and page 7 for controlling individual leds. The remaining 6 pages (1-6) are free to preset led maps at init or on demand. Communication with the IS31 is primarily done through the led_mailbox using chMBPost described further below under "Sending messages in Keymap.c"

One function is available to directly control leds:

write_led_page(page#, array of leds by address, # of leds in array)

This function saves a full page using a supplied array of led locations such as:

uint8_t led_numpad[16] =  {
  18,21,22,23,
  37,38,41,42,
  55,56,57,58,
  72,73,74,75
}
write_led_page(5, led_numpad, 16);

Remaining led control is done through the led mailbox using these message types.

  • SET_FULL_ROW - 3 bytes: row#, message type, 8-bit mask. Sets all leds on one pin per the bit mask.
  • OFF_LED - 2 bytes: message type, led address. Turn off specific led.
  • ON_LED - 2 bytes: message type, led address. Turn on specific led.
  • TOGGLE_LED - 2 bytes: message type, led address. Toggle specific led on/off.
  • BLINK_OFF_LED - 2 bytes: message type, led address. Set blink off for specific led.
  • BLINK_ON_LED - 2 bytes: message type, led address. Set blink on for specific led.
  • BLINK_TOGGLE_LED - 2 bytes: message type, led address. Toggle blink for specific led.
  • TOGGLE_ALL - 2 bytes: message type, not used. Turn on/off full backlight.
  • TOGGLE_BACKLIGHT - 2 bytes: message type, on/off. Sets backlight completely off, no leds will display.
  • DISPLAY_PAGE - 2 bytes: message type, page to display. Switch to specific pre-set page.
  • RESET_PAGE - 2 bytes: message type, page to reset. Reset/erase specific page.
  • TOGGLE_NUM_LOCK - 2 bytes: message type, on/off (NUM_LOCK_LED_ADDRESS). Toggle numlock on/off. Usually run with the set_leds function to check state of numlock or capslock. If all leds are on (e.i. TOGGLE_ALL) then this sets numlock to blink instead (this is still a little buggy if toggling on/off quickly).
  • TOGGLE_CAPS_LOCK - 2 bytes: message type, on/off (CAPS_LOCK_LED_ADDRESS). Same as numlock.
  • STEP_BRIGHTNESS - 2 bytes: message type, and step up (1) or step down (0). Increase or decrease led brightness.

Sending messages in Keymap.c

Sending an action to the led mailbox is done using chMBPost with the following form.

chMBPost(&led_mailbox, message, timeout);
  • &led_mailbox - pointer to led mailbox
  • message - up to 4 bytes but most messages use only 2. First byte (LSB) is the message to process, the second byte is type. The third is only used to pass row information in SET_FULL_ROW. The fourth byte is currently unused. -timeout is usually TIME_IMMEDIATE

An example:

  1. set the message to be sent. First byte (LSB) is the led address, and second is the message type msg=(ON_LED << 8) | 42;
  2. send msg to the led mailbox chMBPost(&led_mailbox, msg, TIME_IMMEDIATE);

Another: msg=(BLINK_TOGGLE_LED << 8) | 46; chMBPost(&led_mailbox, msg, TIME_IMMEDIATE);

Finally, SET_FULL_ROW requires an extra byte with row information in the message so sending this message looks like: msg=(row<<16) | (SET_FULL_ROW << 8) | (led_pin_byte); chMBPost(&led_mailbox, msg, TIME_IMMEDIATE);