Wheel module
The wheel module is responsible for generating events related to the rotation of the mouse wheel.
Module events
Source Module |
Input Event |
This Module |
Output Event |
Sink Module |
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Note
See the Application overview for more information about the event-based communication in the nRF Desktop application and about how to read this table.
Configuration
Enable the module with the CONFIG_DESKTOP_WHEEL_ENABLE Kconfig option.
For detecting rotation, the wheel module uses Zephyr’s QDEC driver.
You can enable the module only when QDEC is configured in DTS and the Zephyr’s QDEC driver is enabled with the CONFIG_QDEC_NRFX
Kconfig option.
If your board supports multiple QDEC instances (for example nrf54l15pdk/nrf54l15/cpuapp
), you also need to specify the used QDEC instance with the nrfdesktop-wheel-qdec
DT alias.
If your board supports only one QDEC instance, the module relies on the qdec
DT label and you need not define the DT alias.
The QDEC DTS configuration specifies how many steps are done during one full angle.
The sensor reports the rotation data in angle degrees.
Then, CONFIG_DESKTOP_WHEEL_SENSOR_VALUE_DIVIDER (a wheel configuration option) converts the angle value into a value that is passed with a wheel_event
to the destination module.
For example, configuring QDEC with 24 steps means that for each step the sensor will report a rotation of 15 degrees. For HID to see this rotation as increment of one, CONFIG_DESKTOP_WHEEL_SENSOR_VALUE_DIVIDER should be set to 15.
Implementation details
The wheel module can be in the following states:
STATE_DISABLED
STATE_ACTIVE_IDLE
STATE_ACTIVE
STATE_SUSPENDED
When in STATE_ACTIVE
, the module enables the QDEC driver and waits for callback that indicates rotation.
The QDEC driver may consume power during its operation.
If no rotation is detected after the time specified in CONFIG_DESKTOP_WHEEL_SENSOR_IDLE_TIMEOUT, the wheel module switches to STATE_ACTIVE_IDLE
, in which QDEC is disabled.
In this state, the rotation is detected using GPIO interrupts.
When the rotation is detected, the module switches back to STATE_ACTIVE
.
When the system enters the low power state, the wheel module goes to STATE_SUSPENDED
.
In this state, the rotation is detected using the GPIO interrupts.
The module issues a system wake-up event on wheel movement.