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Silicon Labs Arduino Core

This project enables Silicon Labs hardware to be used with the Arduino ecosystem.

Currently supported hardware:

SparkFun ThingPlus Matter MGM240P xG27 Dev Kit xG24 Explorer Kit BGM220 Explorer Kit

Installation

  • Download and install the latest Arduino IDE
  • Go to the Settings menu
  • Enter https://siliconlabs.github.io/arduino/package_arduinosilabs_index.json in the 'Additional Boards Manager URLs' field (add a comma in between if you have multiple URLs)
  • Open the 'Boards Manager' from the side menu and search for 'Silicon Labs'
  • Install the 'Silicon Labs' platform

Getting started

If you're using your board for the first time with Arduino IDE you need to burn the bootloader first.

  • Select the board you have from the 'Tools > Board' menu
  • Go to the 'Tools > Programmer' menu and select 'Simplicity Commander'
  • After that select the 'Tools > Burn bootloader' option
  • If you have trouble with flashing you may need to install the J-Link USB drivers - it's part of the J-Link Software and Documentation pack
  • Verify that everything works by creating a Blink example (File > Examples > 01.Basics > Blink) and flashing it to your board
  • If you see the built-in led blinking, you're ready to go! Happy coding!

Variants

Each supported board has a number of different variants depending on the protocol stack used and whether the included SDK is precompiled or not. For example the xG24 Explorer Kit has the following four variants:

  • xG24 Explorer Kit (BLE) - Bluetooth Low Energy variant
  • xG24 Explorer Kit (BLE) (precomp) - Bluetooth Low Energy variant with a precompiled SDK
  • xG24 Explorer Kit (Matter) - Matter variant
  • xG24 Explorer Kit (Matter) (precomp) - Matter variant with a precompiled SDK

This naming scheme applies to all other boards as well. When developing applications for a certain protocol make sure the correct variant is selected.

The precomp and regular variants produce the same binary at the end - however the precompiled SDK variants offer a much faster compilation speed, but debugging on them is limited on the SDK part.

Matter library

Matter

The core comes bundled with the Matter library. The library's goal is to make using Matter, creating and managing devices easy and user-friendly.

The library sits on top of Silicon Labs' Matter SDK which is included in the (Matter) variants of the boards that support the protocol. Make sure to select the (Matter) variant of the board you're using Matter with to have the SDK required by the library included.

See the docs for the Matter library here.

ezBLE

ezBLE is an Arduino library which makes sending and receiving data over BLE super simple. It provides the same API as Serial and handles connections, discovery, data transfer, and all BLE tasks in the background. It's compatible with all Silicon Labs BLE hardware.

You can use it the same way as Serial to transfer data over BLE. You'll need at least two devices, one acting as a server and one as a client. Once the connection is established the communication is bidirectional, each device can send and receive data from each other over BLE.

Initialize it as client or server:

ezBLE.beginClient()

or

ezBLE.beginServer()

You can optionally name your ezBLE nodes to separate them from others. The client and the server will both look for the configured name and connect to each other:

ezBLE.beginClient("myCustomEzBleName")
ezBLE.beginServer("myCustomEzBleName")

Wait for the connection to establish:

while(!ezBLE.connected());

Send data:

ezBLE.println("Hello, BLE!")

Receive data:

while(ezBLE.available()) {
  Serial.print((char)ezBLE.read());
}

The ezBLE library is shipped with the core, no need to download it separately. See the included examples for full code.

Additional APIs

There are some additional functions besides the standard Arduino API you can call on Silicon Labs boards:

  • getCpuTemp() - returns the die temperature in Celsius
  • systemReset() - issues a system reset and restarts the MCU
  • getMcuUniqueId() - returns the unique ID of the microcontroller
  • getMcuUniqueIdStr() - returns the unique ID of the microcontroller in hexadecimal as a string
  • getCoreVersion() - returns the current core version as a string
  • setCPUClock() - sets the CPU clock speed - it can be one of CPU_40MHZ, CPU_76MHZ, CPU_80MHZ
  • getCPUClock() - returns the current CPU speed in hertz
  • analogReferenceDAC() - selects the voltage reference for the DAC hardware

Debugging

All Silicon Labs boards come equipped with an onboard SEGGER J-Link debugger which can be used from the Arduino IDE. In order to utilize this feature you'll need the following:

Debugger configuration file

Go to the folder where your sketch is located and create a file named debug_custom.json - and add the following content to it:

{
    "servertype": "jlink",
    "device": "EFR32MG24B210F1536IM48",
    "interface": "SWD",
    "serverpath": "JLinkGDBServer"
}

This is a sample debugging configuration for the xG24 Explorer Kit. You most likely need to change some values to make it work on your system and board.

Change the device property according to the MCU on your board. Here's a table for help:

Board MCU
SparkFun ThingPlus Matter MGM240P MGM240PB32VNA
xG27 Dev Kit EFR32BG27C140F768IM40
xG24 Explorer Kit EFR32MG24B210F1536IM48
BGM220 Explorer Kit BGM220PC22HNA

Change the serverpath property to the location of JLinkGDBServer on your system. JLinkGDBServer is installed with the J-Link Software and Documentation pack.

  • On Windows it's usually at C:/Program Files/SEGGER/JLink/JLinkGDBServerCL
  • On Linux and macOS you can just use JLinkGDBServer without the full path if it's on your PATH

You can begin a debug session by pressing the Start debugging button in the top left corner next to the Verify and Upload buttons in the Arduino IDE.

There are two examples provided with a debugger configuration for the SparkFun ThingPlus Matter MGM240P board - one for Unix-based systems (Linux and macOS) and one for Windows. You can find them under File > Examples > SiliconLabs > thingplusmatter_debug_unix/win. These examples can be easily modified to work with the other boards just by changing the device property in debug_custom.json.

Here's the official Arduino guide on using SEGGER J-Link debuggers.

Limitiations

The project is under constant development and there are a few things which come with some limitations.

Bluetooth LE API

Bluetooth LE is available on all supported devices, however the Arduino BLE API is not supported yet. You can use BLE with Silicon Labs' own BLE API. There are a handful of examples included to demonstrate how you can create BLE devices with the Silicon Labs API. Support for the Arduino BLE API is under development and will be available in a future release.

USB-UART baud rate

The UART baud rate of Serial can be changed freely - however if you're using it through the USB-UART bridge then it only works with 115200 bps by default. This is because the Silicon Labs boards use an EFM32 microcontroller as a board controller/debugger/flasher/USB-UART converter and this controller has a separate configuration. If you wish to change the baud rate used through the USB-UART bridge, then you can configure the board controller to use a different speed from it's admin console. The admin console can be reached from Simplicity Studio. Use this guide to change the baud rate in the board controller. The baud rate in your sketch must match the baud rate configured in the board controller - otherwise communication won't work.

Uploading firmware to multiple devices

As of now the included programmer utility cannot distinguish between multiple devices based on their serial ports. This means that you can only have one board connected at a time in order for programming to be successful.

Questions and help

Have a question or stuck somewhere? Made something cool? 🕹️ Hit us up on Reddit at r/silabs!

If you encounter an issue you can also submit it to the project issues.

Resources for the supported boards

SparkFun ThingPlus Matter MGM240P

Product page | Overview & guide

Pinout diagram

xG27 Dev Kit

Product page | User guide

Pinout diagram

xG24 Explorer Kit

Product page | User guide

Pinout diagram

BGM220 Explorer Kit

Product page | User guide

Core development

We use uncrustify to ensure consistent code formatting.

Use the config under package/uncrustify.cfg to automatically adhere to formatting rules.

Silabs <3 Arduino

Made with ❤️ at Silicon Labs

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