nRF Desktop: Board configuration
The nRF Desktop application is modular. Depending on requested functions, it can provide mouse, keyboard, or dongle functionality. The selection of modules depends on the chosen role and also on the selected reference design. For more information about modules available for each configuration, see Application overview.
For a board to be supported by the application, you must provide a set of configuration files at applications/nrf_desktop/configuration/your_board_name
.
The application configuration files define both a set of options with which the nRF Desktop application will be created for your board and the selected nRF Desktop build types.
Include the following files in this directory:
- Mandatory configuration files
Application configuration file for the debug build type.
Configuration files for the selected modules.
- Optional configuration files
Application configuration files for other build types.
Configuration file for the bootloader.
Configuration file for the sysbuild.
Memory layout configuration.
DTS overlay file.
See Adding a new board for information about how to add these files.
nRF Desktop board configuration files
The nRF Desktop application comes with configuration files for the following reference designs:
- nRF52840 Gaming Mouse (
nrf52840gmouse
) The reference design is defined in
nrf/boards/nordic/nrf52840gmouse
for the project-specific hardware.To achieve gaming-grade performance:
The application is configured to act as a gaming mouse, with both Bluetooth LE and USB transports enabled.
Bluetooth is configured to use Nordic’s SoftDevice link layer.
The configuration with the B0 bootloader is set as default.
The board supports the
debug
(fast_pair
file suffix) andrelease
(release_fast_pair
file suffix) configurations for Fast Pair. Both configurations use the MCUboot bootloader built in the direct-xip mode (MCUBOOT+XIP
), and they support the firmware updates using the Device Firmware Upgrade module and the Device Firmware Upgrade MCUmgr module.
- nRF52832 Desktop Mouse (
nrf52dmouse
) and nRF52810 Desktop Mouse (nrf52810dmouse
) Both reference designs are meant for the project-specific hardware and are defined in
nrf/boards/nordic/nrf52dmouse
andnrf/boards/nordic/nrf52810dmouse
, respectively.The application is configured to act as a mouse.
Only the Bluetooth LE transport is enabled. Bluetooth uses either Zephyr’s software link layer (
nrf52810dmouse
) or Nordic’s SoftDevice link layer (nrf52dmouse
).The preconfigured build types for both
nrf52dmouse
andnrf52810dmouse
boards are without the bootloader due to memory size limits on thenrf52810dmouse
board.
- Sample mouse, keyboard or dongle (
nrf52840dk/nrf52840
) The configuration uses the nRF52840 Development Kit.
The build types allow to build the application as mouse, keyboard or dongle.
Inputs are simulated based on the hardware button presses.
The configuration with the B0 bootloader is set as default.
The board supports
debug
Fast Pair configuration that acts as a mouse (fast_pair
file suffix). The configuration uses the MCUboot bootloader built in the direct-xip mode (MCUBOOT+XIP
), and supports firmware updates using the Device Firmware Upgrade module and the Device Firmware Upgrade MCUmgr module.
- Sample dongle (
nrf52833dk/nrf52833
) The configuration uses the nRF52833 Development Kit.
The application is configured to act as a dongle that forwards data from both mouse and keyboard.
Bluetooth uses Nordic Semiconductor’s SoftDevice link layer and is configured to act as a central. Input data comes from Bluetooth and is retransmitted to USB.
The configuration with the MCUboot bootloader is set as default.
- Sample dongle (
nrf52833dk/nrf52820
) The configuration uses the nRF52820 emulation on the nRF52833 Development Kit.
The application is configured to act as a dongle that forwards data from both mouse and keyboard.
Bluetooth uses Zephyr’s software link layer and is configured to act as a central. Input data comes from Bluetooth and is retransmitted to USB.
The preconfigured build types configure the device without the bootloader in debug mode and with MCUboot bootloader in release mode due to memory size limits.
- nRF52832 Desktop Keyboard (
nrf52kbd
) The reference design used is defined in
nrf/boards/nordic/nrf52kbd
for the project-specific hardware.The application is configured to act as a keyboard, with the Bluetooth LE transport enabled.
Bluetooth is configured to use Nordic Semiconductor’s SoftDevice link layer.
The preconfigured build types configure the device without the bootloader in debug mode and with B0 bootloader in release mode due to memory size limits.
The board supports
release
Fast Pair configuration (release_fast_pair
file suffix). The configuration uses the MCUboot bootloader built in the direct-xip mode (MCUBOOT+XIP
), and supports firmware updates using the Device Firmware Upgrade module and the Device Firmware Upgrade MCUmgr module.
- nRF52840 USB Dongle (
nrf52840dongle/nrf52840
) and nRF52833 USB Dongle (nrf52833dongle
) Since the nRF52840 Dongle is generic and defined in Zephyr, project-specific changes are applied in the DTS overlay file.
The application is configured to act as a dongle that forwards data from both mouse and keyboard.
Bluetooth uses Nordic Semiconductor’s SoftDevice link layer and is configured to act as a central. Input data comes from Bluetooth and is retransmitted to USB.
The configuration with the B0 bootloader is set as default for the
nrf52840dongle/nrf52840
board and with the MCUboot bootloader is set as default for thenrf52833dongle
board.
- nRF52820 USB Dongle (
nrf52820dongle
) The application is configured to act as a dongle that forwards data from both mouse and keyboard.
Bluetooth uses Zephyr’s software link layer and is configured to act as a central. Input data comes from Bluetooth and is retransmitted to USB.
The preconfigured build types configure the device without the bootloader in debug mode and with MCUboot bootloader in release mode due to memory size limits.
- Sample dongle (
nrf5340dk/nrf5340
) The application is configured to act as a dongle that forwards data from both mouse and keyboard.
Bluetooth uses Nordic Semiconductor’s SoftDevice link layer without LLPM and is configured to act as a central. Input data comes from Bluetooth and is retransmitted to USB.
The configuration with the B0 bootloader is set as default.
- Sample mouse or keyboard (
nrf54l15dk/nrf54l15/cpuapp
) The configuration uses the nRF54L15 Development Kit (DK).
The build types allow to build the application as a mouse or a keyboard.
Inputs are simulated based on the hardware button presses.
On the nRF54L15 SoC, you can only use the GPIO1 port for PWM hardware peripheral output. Because of that, on the DK PCA10156 revision v0.8.1, LED 0 and LED 2 cannot be used for PWM output. You can still use these LEDs with the PWM LED driver, but you must set the LED color to
LED_COLOR(255, 255, 255)
orLED_COLOR(0, 0, 0)
. This ensures the PWM peripheral is not used for the mentioned LEDs.Only Bluetooth LE transport is enabled. Bluetooth LE is configured to use Nordic Semiconductor’s SoftDevice Link Layer and Low Latency Packet Mode (LLPM).
In debug configurations, logs are provided through the UART. For detailed information on working with the nRF54L15 DK, see the Developing with nRF54L Series documentation.
The configurations use the MCUboot bootloader built in the direct-xip mode (
MCUBOOT+XIP
) and support firmware updates using the Device Firmware Upgrade module.The board supports the
debug
Fast Pair configuration that acts as a mouse (fast_pair
file suffix). The configuration uses the MCUboot bootloader built in the direct-xip mode (MCUBOOT+XIP
), and supports firmware updates using the Device Firmware Upgrade module and Device Firmware Upgrade MCUmgr module.
- Sample mouse (
nrf54h20dk/nrf54h20/cpuapp
) The configuration uses the nRF54H20 DK.
The build types allow to build the application as a mouse.
Inputs are simulated based on the hardware button presses.
Bluetooth LE and USB High-Speed transports are enabled. Bluetooth LE is configured to use Nordic Semiconductor’s SoftDevice Link Layer and Low Latency Packet Mode (LLPM). USB High-Speed is configured to use the USB next stack (
CONFIG_USB_DEVICE_STACK_NEXT
).In debug configurations, logs are provided through the UART. For detailed information on working with the nRF54H20 DK, see the Getting started with the nRF54H20 DK documentation.
The configurations use the Software Updates for Internet of Things (SUIT) and supports firmware updates using the Device Firmware Upgrade module and Simple Management Protocol module.