The state feedback is provided through LED effects:
widget | effect | description |
---|---|---|
LED2 | short flash on (50ms on/950ms off) | The device is in an unprovisioned (unpaired) state and is waiting for a commissioner to connect. |
LED2 | rapid even flashing (100ms period) | The device is in an unprovisioned state and a commissioner is connected via BLE. |
LED2 | short flash off (950ms on/50ms off) | The device is fully provisioned, but does not yet have full network (Thread) or service connectivity. |
LED2 | solid on | The device is fully provisioned and has full network and service connectivity. |
RGB LED | on | The OnOff attribute of the On/Off cluster is true (simulating device turned on). |
RGB LED | off | The OnOff attribute of the On/Off cluster is false (simulating device turned off). |
NOTE: LED2
will be disabled when OTA is used. On FRDM-MCXW71
board, PTB0
is wired to both LED2
and CS (Chip Select) of the External Flash Memory. Since the OTA image is stored in external memory, LED2
operations will affect OTA operation by corrupting packages and OTA will not work.
The user actions are summarized below:
button | action | output |
---|---|---|
SW2 | short press | Enable BLE advertising |
SW2 | long press | Initiate a factory reset (can be cancelled by pressing the button again within the factory reset timeout limit - 6 seconds by default) |
SW3 | short press | Toggle attribute OnOff value |
SW3 | long press | Clean soft reset of the device (takes into account proper Matter shutdown procedure) |
The example application provides a simple UI that depicts the state of the device and offers basic user control. This UI is implemented via the general-purpose LEDs and buttons built in the MCXW71
board.
Manually building requires running the following commands:
user@ubuntu:~/Desktop/git/connectedhomeip$ cd examples/lighting-app/nxp/mcxw71 user@ubuntu:~/Desktop/git/connectedhomeip/examples/lighting-app/nxp/mcxw71$ gn gen out/debug user@ubuntu:~/Desktop/git/connectedhomeip/examples/lighting-app/nxp/mcxw71$ ninja -C out/debug
Please note that running gn gen out/debug
without --args
option will use the default gn args values found in args.gni
.
After a successful build, the elf
and srec
files are found in out/debug/
. See the files prefixed with chip-mcxw71-light-example
.
SMU2
MemoryAdditional memory is provided to the application by moving some Matter instances and global variables in the shared memory area from NBU
domain.
Note: These instances and global variables are placed in SMU2
memory through name matching in the application linker script. They should not be changed or, if changed, the names must be updated in app.ld
. See app.ld for names and SMU2
memory range size.
When compiling the application as an OT Full Thread Device (chip_openthread_ftd=true
), using nxp_use_smu2_static=true
gn arg will cause the following symbols to be moved to SMU2
area:
symbol name | file |
---|---|
gImageProcessor | OTAImageProcessorImpl.cpp |
gApplicationProcessor | OTAHooks.cpp |
Server::sServer | Server.cpp |
ThreadStackManagerImpl::sInstance | ThreadStackManagerImpl.cpp |
Additionally, using nxp_use_smu2_dynamic=true
will cause the OpenThread buffers to be dynamically allocated from a 13KB SMU2
range after a successful commissioning process.
nxp_use_smu2_static
and nxp_use_smu2_dynamic
are set to true
in the default example.
In the default configuration, the onboard RGB LED pins are configured as GPIO pins. In order to enable the dimming feature, the pins need to be configured in PWM mode and synced with channels of the TPM
(Timer PWM Module). To enable this feature, compile the application with: nxp_config_dimmable_led=true
If the feature is enabled, the LED brightness can be controlled using LevelControl
cluster commands.
Two images must be written to the board: one for the host (CM33) and one for the NBU
(CM3).
The image needed on the host side is the one generated in out/debug/
while the one needed on the NBU
side can be found in the downloaded NXP-SDK package at path - middleware\wireless\ieee-802.15.4\bin\k32w1\k32w1_nbu_ble_15_4_dyn_matter.sb3
.
NBU
imageNBU
image should be written only when a new NXP SDK is released.
Install Secure Provisioning SDK tool using Python:
pip install spsdk
Note: There might be some dependencies that cause conflicts with already installed Python modules. However, blhost
tool is still installed and can be used.
Updating NBU
for Wireless examples
It is necessary to work with the matching NBU
image for the SDK version of the application you are working with. This means that when you download your SDK, prior to loading any wireless SDK example, update your NBU
image with the SDK provided binaries. For FRDM
users, please write the following binary:
middleware\wireless\ieee-802.15.4\bin\mcxw71\mcxw71_nbu_ble_15_4_dyn_matter_<nbu_version>.sb3
Please note that <nbu_version>
may vary depending on the SDK version.
Place your device in ISP
mode.
JP25
SW4
, press and release Reset, then release SW4
Once the device is connected, you may find the assigned port by running:
nxpdevscan
Run the blhost
command to write the sb3
file:
blhost -p <assigned_port> receive-sb-file <path_to_SDK>\middleware\wireless\ieee-802.15.4\bin\mcxw71\mcxw71_nbu_ble_15_4_dyn_matter_<nbu_version>.sb3
Host image is the one found under out/debug/
. It should be written after each build process.
If debugging is needed then jump directly to the Debugging section. Otherwise, if only flashing is needed then JLink can be used:
Plug MCXW71
to the USB port (no need to keep the SW4
button pressed while doing this, e.g. ISP mode is not needed for host flashing)
Connect JLink to the device:
JLinkExe -device MCXW71 -if SWD -speed 4000 -autoconnect 1
Run the following commands:
reset halt loadfile chip-mcxw71-light-example.srec reset go quit
One option for debugging would be to use MCUXpresso IDE.
Import SDK example(s).. -> choose a demo app (demo_apps -> hello_world) -> Finish
Right click on the application (from Project Explorer) -> Debug as -> JLink/CMSIS-DAP
After this step, a debug configuration specific for the MCXW71
board was created. This debug configuration will be used later on for debugging the application resulted after ot-nxp compilation.
File -> Import -> C/C++ -> Existing Code as Makefile Project
MCXW71
application:Run -> Debug Configurations... -> C/C++ Application
To build example with RPC enabled, use the following gn command: gn gen out/debug --args='import("//with_pw_rpc.gni") treat_warnings_as_errors=false'
The application runs an RPC server and processes events coming from an RPC client. An example of an RPC client is the chip-console
, which can be accessed by running: chip-console --device /dev/tty.<SERIALDEVICE> -b 115200 -o pw_log.out
The console should have already been installed in the virtual environment. From the chip-console
, a user can send specific commands to the device.
For button commands, please run rpcs.chip.rpc.Button.Event(index)
based on the table below:
index | action |
---|---|
0 | Start/stop BLE advertising |
1 | Factory reset the device |
2 | Application specific action (e.g. toggle LED) |
3 | Soft reset the device |
To reboot the device, please run rpcs.chip.rpc.Device.Reboot()
.
Please see mcxw71 OTA guide.