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125 lines
8.0 KiB
125 lines
8.0 KiB
# Backlighting
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Many keyboards support backlit keys by way of individual LEDs placed through or underneath the keyswitches. QMK is able to control the brightness of these LEDs by switching them on and off rapidly in a certain ratio, a technique known as *Pulse Width Modulation*, or PWM. By altering the duty cycle of the PWM signal, it creates the illusion of dimming.
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The MCU can only supply so much current to its GPIO pins. Instead of powering the backlight directly from the MCU, the backlight pin is connected to a transistor or MOSFET that switches the power to the LEDs.
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## Usage
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Most keyboards have backlighting enabled by default if they support it, but if it is not working for you, check that your `rules.mk` includes the following:
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```make
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BACKLIGHT_ENABLE = yes
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```
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You should then be able to use the keycodes below to change the backlight level.
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## Keycodes
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|Key |Description |
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|---------|------------------------------------------|
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|`BL_TOGG`|Turn the backlight on or off |
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|`BL_STEP`|Cycle through backlight levels |
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|`BL_ON` |Set the backlight to max brightness |
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|`BL_OFF` |Turn the backlight off |
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|`BL_INC` |Increase the backlight level |
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|`BL_DEC` |Decrease the backlight level |
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|`BL_BRTG`|Toggle backlight breathing |
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## Caveats
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This feature is distinct from both the [RGB underglow](feature_rgblight.md) and [RGB matrix](feature_rgb_matrix.md) features as it usually allows for only a single colour per switch, though you can obviously use multiple different coloured LEDs on a keyboard.
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Hardware PWM is only supported on certain pins of the MCU, so if the backlighting is not connected to one of them, a software PWM implementation triggered by hardware timer interrupts will be used.
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Hardware PWM is supported according to the following table:
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| Backlight Pin | Hardware timer |
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|---------------|----------------|
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|`B5` | Timer 1 |
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|`B6` | Timer 1 |
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|`B7` | Timer 1 |
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|`C6` | Timer 3 |
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| other | Software PWM |
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The [audio feature](feature_audio.md) also uses hardware timers. Please refer to the following table to know what hardware timer the software PWM will use depending on the audio configuration:
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| Audio Pin(s) | Audio Timer | Software PWM Timer |
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|--------------|-------------|--------------------|
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| `C4` | Timer 3 | Timer 1 |
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| `C5` | Timer 3 | Timer 1 |
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| `C6` | Timer 3 | Timer 1 |
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| `B5` | Timer 1 | Timer 3 |
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| `B6` | Timer 1 | Timer 3 |
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| `B7` | Timer 1 | Timer 3 |
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| `Bx` & `Cx` | Timer 1 & 3 | None |
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When all timers are in use for [audio](feature_audio.md), the backlight software PWM will not use a hardware timer, but instead will be triggered during the matrix scan. In this case the backlight doesn't support breathing and might show lighting artifacts (for instance flickering), because the PWM computation might not be called with enough timing precision.
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## Configuration
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To change the behaviour of the backlighting, `#define` these in your `config.h`:
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|Define |Default |Description |
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|---------------------|-------------|-------------------------------------------------------------------------------------------------------------|
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|`BACKLIGHT_PIN` |`B7` |The pin that controls the LEDs. Unless you are designing your own keyboard, you shouldn't need to change this|
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|`BACKLIGHT_PINS` |*Not defined*|experimental: see below for more information|
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|`BACKLIGHT_LEVELS` |`3` |The number of brightness levels (maximum 15 excluding off) |
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|`BACKLIGHT_CAPS_LOCK`|*Not defined*|Enable Caps Lock indicator using backlight (for keyboards without dedicated LED) |
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|`BACKLIGHT_BREATHING`|*Not defined*|Enable backlight breathing, if supported |
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|`BREATHING_PERIOD` |`6` |The length of one backlight "breath" in seconds |
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## Multiple backlight pins
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Most keyboards have only one backlight pin which control all backlight LEDs (especially if the backlight is connected to an hardware PWM pin).
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In software PWM, it is possible to define multiple backlight pins. All those pins will be turned on and off at the same time during the PWM duty cycle.
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This feature allows to set for instance the Caps Lock LED (or any other controllable LED) brightness at the same level as the other LEDs of the backlight. This is useful if you have mapped LCTRL in place of Caps Lock and you need the Caps Lock LED to be part of the backlight instead of being activated when Caps Lock is on.
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To activate multiple backlight pins, you need to add something like this to your user `config.h`:
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~~~c
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#define BACKLIGHT_LED_COUNT 2
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#undef BACKLIGHT_PIN
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#define BACKLIGHT_PINS { F5, B2 }
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~~~
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## Hardware PWM Implementation
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When using the supported pins for backlighting, QMK will use a hardware timer configured to output a PWM signal. This timer will count up to `ICRx` (by default `0xFFFF`) before resetting to 0.
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The desired brightness is calculated and stored in the `OCRxx` register. When the counter reaches this value, the backlight pin will go low, and is pulled high again when the counter resets.
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In this way `OCRxx` essentially controls the duty cycle of the LEDs, and thus the brightness, where `0x0000` is completely off and `0xFFFF` is completely on.
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The breathing effect is achieved by registering an interrupt handler for `TIMER1_OVF_vect` that is called whenever the counter resets, roughly 244 times per second.
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In this handler, the value of an incrementing counter is mapped onto a precomputed brightness curve. To turn off breathing, the interrupt handler is simply disabled, and the brightness reset to the level stored in EEPROM.
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## Software PWM Implementation
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When `BACKLIGHT_PIN` is not set to a hardware backlight pin, QMK will use a hardware timer configured to trigger software interrupts. This time will count up to `ICRx` (by default `0xFFFF`) before resetting to 0.
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When resetting to 0, the CPU will fire an OVF (overflow) interrupt that will turn the LEDs on, starting the duty cycle.
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The desired brightness is calculated and stored in the `OCRxx` register. When the counter reaches this value, the CPU will fire a Compare Output match interrupt, which will turn the LEDs off.
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In this way `OCRxx` essentially controls the duty cycle of the LEDs, and thus the brightness, where `0x0000` is completely off and `0xFFFF` is completely on.
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The breathing effect is the same as in the hardware PWM implementation.
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## Backlight Functions
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|Function |Description |
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|----------|-----------------------------------------------------------|
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|`backlight_toggle()` |Turn the backlight on or off |
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|`backlight_enable()` |Turn the backlight on |
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|`backlight_disable()` |Turn the backlight off |
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|`backlight_step()` |Cycle through backlight levels |
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|`backlight_increase()` |Increase the backlight level |
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|`backlight_decrease()` |Decrease the backlight level |
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|`backlight_level(x)` |Sets the backlight level to specified level |
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|`get_backlight_level()` |Return the current backlight level |
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|`is_backlight_enabled()`|Return whether the backlight is currently on |
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### Backlight Breathing Functions
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|Function |Description |
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|----------|----------------------------------------------------------|
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|`breathing_toggle()` |Turn the backlight breathing on or off |
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|`breathing_enable()` |Turns on backlight breathing |
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|`breathing_disable()` |Turns off backlight breathing |
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