mirror of
https://github.com/qmk/qmk_firmware
synced 2024-11-10 14:10:04 +00:00
e4c5b1bbbb
Co-authored-by: Drashna Jaelre <drashna@live.com>
189 lines
No EOL
13 KiB
Markdown
189 lines
No EOL
13 KiB
Markdown
# Haptic Feedback
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## Haptic feedback rules.mk options
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The following options are currently available for haptic feedback in `rules.mk`:
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`HAPTIC_ENABLE += DRV2605L`
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`HAPTIC_ENABLE += SOLENOID`
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## Known Supported Hardware
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| Name | Description |
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|--------------------|-------------------------------------------------|
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| [LV061228B-L65-A](https://www.digikey.com/product-detail/en/jinlong-machinery-electronics-inc/LV061228B-L65-A/1670-1050-ND/7732325) | z-axis 2v LRA |
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| [Mini Motor Disc](https://www.adafruit.com/product/1201) | small 2-5v ERM |
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## Haptic Keycodes
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Not all keycodes below will work depending on which haptic mechanism you have chosen.
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| Name | Description |
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|-----------|-------------------------------------------------------|
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|`HPT_ON` | Turn haptic feedback on |
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|`HPT_OFF` | Turn haptic feedback off |
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|`HPT_TOG` | Toggle haptic feedback on/off |
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|`HPT_RST` | Reset haptic feedback config to default |
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|`HPT_FBK` | Toggle feedback to occur on keypress, release or both |
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|`HPT_BUZ` | Toggle solenoid buzz on/off |
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|`HPT_MODI` | Go to next DRV2605L waveform |
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|`HPT_MODD` | Go to previous DRV2605L waveform |
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|`HPT_CONT` | Toggle continuous haptic mode on/off |
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|`HPT_CONI` | Increase DRV2605L continous haptic strength |
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|`HPT_COND` | Decrease DRV2605L continous haptic strength |
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|`HPT_DWLI` | Increase Solenoid dwell time |
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|`HPT_DWLD` | Decrease Solenoid dwell time |
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### Solenoids
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First you will need a build a circuit to drive the solenoid through a mosfet as most MCU will not be able to provide the current needed to drive the coil in the solenoid.
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[Wiring diagram provided by Adafruit](https://cdn-shop.adafruit.com/product-files/412/solenoid_driver.pdf)
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| Settings | Default | Description |
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|----------------------------|----------------------|-------------------------------------------------------|
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|`SOLENOID_PIN` | *Not defined* |Configures the pin that the Solenoid is connected to. |
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|`SOLENOID_DEFAULT_DWELL` | `12` ms |Configures the default dwell time for the solenoid. |
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|`SOLENOID_MIN_DWELL` | `4` ms |Sets the lower limit for the dwell. |
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|`SOLENOID_MAX_DWELL` | `100` ms |Sets the upper limit for the dwell. |
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|`SOLENOID_DWELL_STEP_SIZE` | `1` ms |The step size to use when `HPT_DWL*` keycodes are sent |
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|`SOLENOID_DEFAULT_BUZZ` | `0` (disabled) |On HPT_RST buzz is set "on" if this is "1" |
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|`SOLENOID_BUZZ_ACTUATED` | `SOLENOID_MIN_DWELL` |Actuated-time when the solenoid is in buzz mode |
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|`SOLENOID_BUZZ_NONACTUATED` | `SOLENOID_MIN_DWELL` |Non-Actuated-time when the solenoid is in buzz mode |
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* If solenoid buzz is off, then dwell time is how long the "plunger" stays activated. The dwell time changes how the solenoid sounds.
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* If solenoid buzz is on, then dwell time sets the length of the buzz, while `SOLENOID_BUZZ_ACTUATED` and `SOLENOID_BUZZ_NONACTUATED` set the (non-)actuation times withing the buzz period.
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* With the current implementation, for any of the above time settings, the precision of these settings may be affected by how fast the keyboard is able to scan the matrix.
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Therefore, if the keyboards scanning routine is slow, it may be preferable to set `SOLENOID_DWELL_STEP_SIZE` to a value slightly smaller than the time it takes to scan the keyboard.
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Beware that some pins may be powered during bootloader (ie. A13 on the STM32F303 chip) and will result in the solenoid kept in the on state through the whole flashing process. This may overheat and damage the solenoid. If you find that the pin the solenoid is connected to is triggering the solenoid during bootloader/DFU, select another pin.
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### DRV2605L
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DRV2605L is controlled over i2c protocol, and has to be connected to the SDA and SCL pins, these varies depending on the MCU in use.
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#### Feedback motor setup
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This driver supports 2 different feedback motors. Set the following in your `config.h` based on which motor you have selected.
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##### ERM
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Eccentric Rotating Mass vibration motors (ERM) is motor with a off-set weight attached so when drive signal is attached, the off-set weight spins and causes a sinusoidal wave that translate into vibrations.
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```
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#define FB_ERM_LRA 0
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#define FB_BRAKEFACTOR 3 /* For 1x:0, 2x:1, 3x:2, 4x:3, 6x:4, 8x:5, 16x:6, Disable Braking:7 */
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#define FB_LOOPGAIN 1 /* For Low:0, Medium:1, High:2, Very High:3 */
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/* Please refer to your datasheet for the optimal setting for your specific motor. */
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#define RATED_VOLTAGE 3
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#define V_PEAK 5
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```
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##### LRA
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Linear resonant actuators (LRA, also know as a linear vibrator) works different from a ERM. A LRA has a weight and magnet suspended by springs and a voice coil. When the drive signal is applied, the weight would be vibrate on a single axis (side to side or up and down). Since the weight is attached to a spring, there is a resonance effect at a specific frequency. This frequency is where the LRA will operate the most efficiently. Refer to the motor's datasheet for the recommanded range for this frequency.
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```
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#define FB_ERM_LRA 1
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#define FB_BRAKEFACTOR 3 /* For 1x:0, 2x:1, 3x:2, 4x:3, 6x:4, 8x:5, 16x:6, Disable Braking:7 */
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#define FB_LOOPGAIN 1 /* For Low:0, Medium:1, High:2, Very High:3 */
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/* Please refer to your datasheet for the optimal setting for your specific motor. */
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#define RATED_VOLTAGE 2
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#define V_PEAK 2.8
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#define V_RMS 2.0
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#define V_PEAK 2.1
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#define F_LRA 205 /* resonance freq */
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```
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#### DRV2605L waveform library
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DRV2605L comes with preloaded library of various waveform sequences that can be called and played. If writing a macro, these waveforms can be played using `DRV_pulse(*sequence name or number*)`
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List of waveform sequences from the datasheet:
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|seq# | Sequence name |seq# | Sequence name |seq# |Sequence name |
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|-----|---------------------|-----|-----------------------------------|-----|--------------------------------------|
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| 1 | strong_click | 43 | lg_dblclick_med_60 | 85 | transition_rampup_med_smooth2 |
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| 2 | strong_click_60 | 44 | lg_dblsharp_tick | 86 | transition_rampup_short_smooth1 |
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| 3 | strong_click_30 | 45 | lg_dblsharp_tick_80 | 87 | transition_rampup_short_smooth2 |
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| 4 | sharp_click | 46 | lg_dblsharp_tick_60 | 88 | transition_rampup_long_sharp1 |
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| 5 | sharp_click_60 | 47 | buzz | 89 | transition_rampup_long_sharp2 |
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| 6 | sharp_click_30 | 48 | buzz_80 | 90 | transition_rampup_med_sharp1 |
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| 7 | soft_bump | 49 | buzz_60 | 91 | transition_rampup_med_sharp2 |
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| 8 | soft_bump_60 | 50 | buzz_40 | 92 | transition_rampup_short_sharp1 |
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| 9 | soft_bump_30 | 51 | buzz_20 | 93 | transition_rampup_short_sharp2 |
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| 10 | dbl_click | 52 | pulsing_strong | 94 | transition_rampdown_long_smooth1_50 |
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| 11 | dbl_click_60 | 53 | pulsing_strong_80 | 95 | transition_rampdown_long_smooth2_50 |
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| 12 | trp_click | 54 | pulsing_medium | 96 | transition_rampdown_med_smooth1_50 |
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| 13 | soft_fuzz | 55 | pulsing_medium_80 | 97 | transition_rampdown_med_smooth2_50 |
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| 14 | strong_buzz | 56 | pulsing_sharp | 98 | transition_rampdown_short_smooth1_50 |
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| 15 | alert_750ms | 57 | pulsing_sharp_80 | 99 | transition_rampdown_short_smooth2_50 |
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| 16 | alert_1000ms | 58 | transition_click | 100 | transition_rampdown_long_sharp1_50 |
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| 17 | strong_click1 | 59 | transition_click_80 | 101 | transition_rampdown_long_sharp2_50 |
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| 18 | strong_click2_80 | 60 | transition_click_60 | 102 | transition_rampdown_med_sharp1_50 |
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| 19 | strong_click3_60 | 61 | transition_click_40 | 103 | transition_rampdown_med_sharp2_50 |
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| 20 | strong_click4_30 | 62 | transition_click_20 | 104 | transition_rampdown_short_sharp1_50 |
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| 21 | medium_click1 | 63 | transition_click_10 | 105 | transition_rampdown_short_sharp2_50 |
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| 22 | medium_click2_80 | 64 | transition_hum | 106 | transition_rampup_long_smooth1_50 |
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| 23 | medium_click3_60 | 65 | transition_hum_80 | 107 | transition_rampup_long_smooth2_50 |
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| 24 | sharp_tick1 | 66 | transition_hum_60 | 108 | transition_rampup_med_smooth1_50 |
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| 25 | sharp_tick2_80 | 67 | transition_hum_40 | 109 | transition_rampup_med_smooth2_50 |
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| 26 | sharp_tick3_60 | 68 | transition_hum_20 | 110 | transition_rampup_short_smooth1_50 |
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| 27 | sh_dblclick_str | 69 | transition_hum_10 | 111 | transition_rampup_short_smooth2_50 |
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| 28 | sh_dblclick_str_80 | 70 | transition_rampdown_long_smooth1 | 112 | transition_rampup_long_sharp1_50 |
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| 29 | sh_dblclick_str_60 | 71 | transition_rampdown_long_smooth2 | 113 | transition_rampup_long_sharp2_50 |
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| 30 | sh_dblclick_str_30 | 72 | transition_rampdown_med_smooth1 | 114 | transition_rampup_med_sharp1_50 |
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| 31 | sh_dblclick_med | 73 | transition_rampdown_med_smooth2 | 115 | transition_rampup_med_sharp2_50 |
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| 32 | sh_dblclick_med_80 | 74 | transition_rampdown_short_smooth1 | 116 | transition_rampup_short_sharp1_50 |
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| 33 | sh_dblclick_med_60 | 75 | transition_rampdown_short_smooth2 | 117 | transition_rampup_short_sharp2_50 |
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| 34 | sh_dblsharp_tick | 76 | transition_rampdown_long_sharp1 | 118 | long_buzz_for_programmatic_stopping |
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| 35 | sh_dblsharp_tick_80 | 77 | transition_rampdown_long_sharp2 | 119 | smooth_hum1_50 |
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| 36 | sh_dblsharp_tick_60 | 78 | transition_rampdown_med_sharp1 | 120 | smooth_hum2_40 |
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| 37 | lg_dblclick_str | 79 | transition_rampdown_med_sharp2 | 121 | smooth_hum3_30 |
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| 38 | lg_dblclick_str_80 | 80 | transition_rampdown_short_sharp1 | 122 | smooth_hum4_20 |
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| 39 | lg_dblclick_str_60 | 81 | transition_rampdown_short_sharp2 | 123 | smooth_hum5_10 |
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| 40 | lg_dblclick_str_30 | 82 | transition_rampup_long_smooth1 | | |
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| 41 | lg_dblclick_med | 83 | transition_rampup_long_smooth2 | | |
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| 42 | lg_dblclick_med_80 | 84 | transition_rampup_med_smooth1 | | |
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### Optional DRV2605L defines
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```
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#define DRV_GREETING *sequence name or number*
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```
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If haptic feedback is enabled, the keyboard will vibrate to a specific sqeuence during startup. That can be selected using the following define:
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```
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#define DRV_MODE_DEFAULT *sequence name or number*
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```
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This will set what sequence HPT_RST will set as the active mode. If not defined, mode will be set to 1 when HPT_RST is pressed.
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### DRV2605L Continuous Haptic Mode
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This mode sets continuous haptic feedback with the option to increase or decrease strength.
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## Haptic Key Exclusion
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The Haptic Exclusion is implemented as `__attribute__((weak)) bool get_haptic_enabled_key(uint16_t keycode, keyrecord_t *record)` in haptic.c. This allows a re-definition at the required level with the specific requirement / exclusion.
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### NO_HAPTIC_MOD
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With the entry of `#define NO_HAPTIC_MOD` in config.h, modifiers from Left Control to Right GUI will not trigger a feedback. This also includes modifiers in a Mod Tap configuration.
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### NO_HAPTIC_FN
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With the entry of `#define NO_HAPTIC_FN` in config.h, layer keys will not rigger a feedback.
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### NO_HAPTIC_ALPHA
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With the entry of `#define NO_HAPTIC_ALPHA` in config.h, none of the alpha keys (A ... Z) will trigger a feedback.
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### NO_HAPTIC_PUNCTUATION
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With the entry of `#define NO_HAPTIC_PUNCTUATION` in config.h, none of the following keys will trigger a feedback: Enter, ESC, Backspace, Space, Minus, Equal, Left Bracket, Right Bracket, Backslash, Non-US Hash, Semicolon, Quote, Grave, Comma, Slash, Dot, Non-US Backslash.
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### NO_HAPTIC_LOCKKEYS
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With the entry of `#define NO_HAPTIC_LOCKKEYS` in config.h, none of the following keys will trigger a feedback: Caps Lock, Scroll Lock, Num Lock.
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### NO_HAPTIC_NAV
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With the entry of `#define NO_HAPTIC_NAV` in config.h, none of the following keys will trigger a feedback: Print Screen, Pause, Insert, Delete, Page Down, Page Up, Left Arrow, Up Arrow, Right Arrow, Down Arrow, End, Home.
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### NO_HAPTIC_NUMERIC
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With the entry of `#define NO_HAPTIC_NUMERIC` in config.h, none of the following keys between 0 and 9 (KC_1 ... KC_0) will trigger a feedback. |