Arduino Nano33 IoT

The Arduino Nano33 IoT is a very small ARM development board based on the Atmel SAMD21 family of processors. It also has a NINA-W102 chip onboard which provides an wireless communication abilities based on the popular ESP32 family of wireless chips from Espressif.

Interfaces

InterfaceHardware SupportedTinyGo Support
GPIOYESYES
UARTYESYES
SPIYESYES
I2CYESYES
ADCYESYES
PWMYESYES

Machine Package Docs

Documentation for the machine package for the Arduino Nano33 IoT

Pin Mapping

Since the pin labels are located on the other side of the board, here is a picture showing the pin numbering from the front side perspective:

Arduino Nano33 IoT

Installing BOSSA

In order to flash your TinyGo programs onto the Arduino Nano33 IoT board, you will need to install the “bossac” command line utility which is part of the BOSSA command line utilities.

macOS

You can use Homebrew to install the BOSSA command line interface by using the following command:

  1. brew cask install bossa

Or if you prefer, you can also download the installer from https://github.com/shumatech/BOSSA/releases/download/1.9.1/bossa-1.9.1.dmg

Once you have downloaded it, double click on the .dmg file to perform the installation.

Linux

On Linux, install from source:

  1. git clone https://github.com/shumatech/BOSSA.git
  2. cd BOSSA
  3. make

Windows

You can download BOSSA from https://github.com/shumatech/BOSSA/releases/download/1.9.1/bossa-x64-1.9.1.msi

VERY IMPORTANT: During the installation, you much choose to install into c:\Program Files. The installer might have the wrong path, so edit it to match c:\Program Files.

After the installation, you must add BOSSA to your PATH:

  1. set PATH=%PATH%;"c:\Program Files\BOSSA";

Test that you have installed “BOSSA” correctly by running this command:

  1. bossac --help

Flashing

Once you have installed the needed BOSSA command line utility, as in the previous section, you are ready to build and flash code to your Arduino Nano33 IoT board.

CLI Flashing on Linux

  • Plug your Arduino Nano33 IoT board into your computer’s USB port.
  • Build and flash your TinyGo code using the tinygo flash command. This command flashes the Arduino Nano33 IoT with the blinky1 example:
  1. tinygo flash -target=arduino-nano33 examples/blinky1
  • The Arduino Nano33 IoT board should restart and then begin running your program.

CLI Flashing on macOS

  • Plug your Arduino Nano33 IoT board into your computer’s USB port.
  • Build and flash your TinyGo code using the tinygo flash command. This command flashes the Arduino Nano33 IoT with the blinky1 example:
  1. tinygo flash -target=arduino-nano33 examples/blinky1
  • The Arduino Nano33 IoT board should restart and then begin running your program.

CLI Flashing on Windows

  • Plug your Arduino Nano33 IoT board into your computer’s USB port.
  • Double tap the “RESET” button on the board.
  • Wait until the Arduino Nano33 IoT board appears as a serial drive.
  • Build and flash your TinyGo code using the tinygo flash command. This command flashes the Arduino Nano33 IoT with the blinky1 example:
  1. tinygo flash -target=arduino-nano33 examples/blinky1
  • The Arduino Nano33 IoT board should restart and then begin running your program.

Troubleshooting

If you have troubles getting your Arduino Nano33 IoTboard to receive code, try this:

  • Press the “RESET” button on the board two times to get the Arduino Nano33 IoT board ready to receive code.
  • Now try running the tinygo flash command as above:
  1. tinygo flash -target=arduino-nano33 [PATH TO YOUR PROGRAM]

Once you have updated your Arduino Nano33 IoT board the first time, after that you should be able to flash it entirely from the command line.

Notes

You can use the USB port to the Arduino Nano33 IoT as a serial port. UART0 refers to this connection.

For information on how to use the built-in NINA-W102 wireless chip, please see the “espat” driver in the TinyGo drivers repository located at https://github.com/tinygo-org/drivers/tree/master/espat.