This SDK contain several simple examples for SX126x and LR11XX chip families used in Transceiver mode.
For a detailed description of the available examples and their configuration, refer to the corresponding README file depending on chip family:
- SX126X: SX126X readme
- LR11XX: LR11XX readme
The readme files also provide the compatible products, along with hardware and software requirements.
Before starting to build an example, check the parameters in both the common and the example-specific configuration files.
The common parameters can be found in <chip family>/common/apps_configuration.h while the example specific configuration file is located in the example folder. For example, the per example finds its configuration in <chip_family>/apps/per/main_per.h
In this section:
<chip_family>is:sx126xfor SX126X exampleslr11xxfor LR11XX examples
<example>: is the name of the selected example. Refer to corresponding README file of the chip family for possible values
Each example is delivered with a Keil project file - see <chip_family>/apps/<example>/MDK-ARM/<chip_family>-sdk_<example>.uvprojx.
To build a project:
- Launch Keil IDE
- Open the project file
- Select the target
- Compile
Each project has different targets (Keil manual), each one allowing to choose the shield the example is compiled for.
The name of the targets is taken from the column shield of the supported shields table available in the chip family READMEs:
Examples are built from their respective subfolder in the apps directory. For instance, the makefile for the per example for LR11XX is available in lr11xx/apps/per/makefile/Makefile.
Build settings, compile time and configuration options are specified in the project's Makefile.
The output files of the build process are stored in the build folder with firmware binary file having the same name as the project with a .bin extension.
Here are the parameters available at compile time:
| Parameter | Description | Default value |
|---|---|---|
| RADIO_SHIELD | Shield for which the example is compiled | lr11xx: LR1120MB1DIS, sx126x: SX1262MB1CAS |
For instance, to build the project per with LR1110MB1GJS shield simply run make as follows
$ cd $SDK_FOLDER/lr11xx/apps/per/makefile
$ make RADIO_SHIELD=LR1110MB1GJSAdditional configuration flags can be passed from command line to compiler with EXTRAFLAGS argument.
This is dedicated to define macros that can be defined like the following:
$ make EXTRAFLAGS='-D<MACRO>=<VALUE>'Where <MACRO> is the macro name to set and <VALUE> is the value to set for this macro.
Not all macro can be redefined through this way. Refer to the README of examples for the list of macro that can be redefined.
Note that when using the configuration on command line, make cannot detect a change in configuration on next build.
Therefore make clean must be invoked before calling a new make with a different configuration
After a project is built, it can be loaded onto a device.
There are multiple ways to do it, among which:
- Drag and drop the binary file to the USB drive listed by our OS - usually shows up as
NODE_L476RG. - Load it through the Keil IDE
On the NUCLEO-L476RG development board, the firmware prints debug information to the UART that is connected via the ST-LINK to the host computer. The configuration is 921600/8-N-1:
- On Linux, this device usually shows up as
/dev/ttyACM0 - On Windows, the port can be obtained from the device manager
For instance, using stty on Linux with a device available in /dev/ttyACM0:
$ stty -echo raw speed 921600 < /dev/ttyACM0 && cat /dev/ttyACM0Additional requirements specific to chip family are provided in the corresponding README file.
Each example can be compiled with the following toolchains:
- Keil MDK ARM - Keil project file available in
<chip_family>/apps/<example>/MDK-ARM/ - GNU Arm Embedded toolchain - makefile available in
<chip_family>/apps/<example>/makefile/
The Channel Activity Detection (CAD) may expose false negative or false positive detection. The parameters for CAD configuration needs adaptation relative to context usage. Refer to the application notes available on Semtech website relative to CAD performances.
