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Raspberry Pi Pico Arduino core, for all RP2040 and RP2350 boards

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Arduino-Pico

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Raspberry Pi Pico Arduino core, for all RP2040 and RP2350 boards

This is a port of Arduino to the RP2040 (Raspberry Pi Pico processor) and RP2350 (Raspberry Pi Pico 2 processor). It uses the bare Raspberry Pi Pico SDK and a custom GCC 14.2/Newlib 4.3 toolchain and supports ARM and RISC-V cores.

Documentation

See https://arduino-pico.readthedocs.io/en/latest/ along with the examples for more detailed usage information.

Contributing

Read the Contributing Guide for more information on submitting pull requests and porting libraries or sketches to this core.

Supported Boards

  • Raspberry Pi Pico
  • Raspberry Pi Pico W
  • Raspberry Pi Pico 2
  • Raspberry Pi Pico 2W
  • 0xCB Helios
  • Adafruit Feather RP2040
  • Adafruit Feather RP2040 SCORPIO
  • Adafruit Floppsy RP2040
  • Adafruit ItsyBitsy RP2040
  • Adafruit KB2040
  • Adafruit Macropad RP2040
  • Adafruit Metro RP2040
  • Adafruit QTPy RP2040
  • Adafruit STEMMA Friend RP2040
  • Adafruit Trinkey RP2040 QT
  • Amken Bunny
  • Amken Revelop
  • Amken Revelop Plus
  • Amken Revelop eS
  • Architeuthis Flux Jumperless
  • Architeuthis Flux Jumperless V5
  • Arduino Nano RP2040 Connect
  • ArtronShop RP2 Nano
  • Breadstick Raspberry
  • BridgeTek IDM2040-7A
  • BridgeTek IDM2040-43A
  • Cytron IRIV IO Controller
  • Cytron Maker Pi RP2040
  • Cytron Maker Nano RP2040
  • Cytron Maker Uno RP2040
  • Cytron Motion 2350 Pro
  • Datanoise PicoADK v1
  • Datanoise PicoADK v2 (RP2350)
  • Degz Suibo RP2040
  • DeRuiLab FlyBoard2040 Core
  • DFRobot Beetle RP2040
  • ElectronicCats Hunter Cat NFC
  • EVN Alpha
  • ExtremeElectronics RC2040
  • GroundStudio Marble Pico
  • Invector Labs Challenger RP2040 WiFi
  • Invector Labs Challenger RP2040 WiFi/BLE
  • Invector Labs Challenger RP2040 WiFi6/BLE
  • Invector Labs Challenger NB RP2040 WiFi
  • Invector Labs Challenger RP2040 LTE
  • Invector Labs Challenger RP2040 LoRa
  • Invector Labs Challenger RP2040 SubGHz
  • Invector Labs Challenger RP2040 SD/RTC
  • Invector Labs Challenger RP2040 UWB
  • Invector Labs Challenger RP2350 BConnect
  • Invector Labs Challenger RP2350 WiFi/BLE
  • Invector Labs RPICO32
  • Melopero Cookie RP2040
  • Melopero Shake RP2040
  • METE HOCA Akana R1
  • Neko Systems BL2040 Mini
  • Olimex RP2040-Pico30
  • Newsan Archi
  • nullbits Bit-C PRO
  • Pimoroni PGA2040
  • Pimoroni Pico Plus 2
  • Pimoroni Pico Plus 2W
  • Pimoroni Plasma2040
  • Pimoroni Tiny2040
  • Pimoroni Tiny2350
  • Pintronix PinMax
  • RAKwireless RAK11300
  • Redscorp RP2040-Eins
  • Redscorp RP2040-ProMini
  • Sea-Picro
  • Seeed Indicator RP2040
  • Seeed XIAO RP2040
  • Seeed XIAO RP2350
  • Silicognition RP2040-Shim
  • Solder Party RP2040 Stamp
  • Solder Party RP2350 Stamp
  • Solder Party RP2350 Stamp XL
  • SparkFun MicroMod RP2040
  • SparkFun ProMicro RP2040
  • SparkFun ProMicro RP2350
  • SparkFun Thing Plus RP2040
  • SparkFun Thing Plus RP2350
  • uPesy RP2040 DevKit
  • VCC-GND YD-RP2040
  • Viyalab Mizu RP2040
  • Waveshare RP2040 Zero
  • Waveshare RP2040 One
  • Waveshare RP2040 Plus
  • Waveshare RP2040 LCD 0.96
  • Waveshare RP2040 LCD 1.28
  • Waveshare RP2040 Matrix
  • Waveshare RP2040 PiZero
  • WIZnet W5100S-EVB-Pico
  • WIZnet W5100S-EVB-Pico2
  • WIZnet W5500-EVB-Pico
  • WIZnet W5500-EVB-Pico2
  • WIZnet W55RP20-EVB-Pico
  • WIZnet WizFi360-EVB-Pico
  • Generic RP2040 (configurable flash, I/O pins)
  • Generic RP2350 (configurable flash, I/O pins)

Features

  • Adafruit TinyUSB Arduino (USB mouse, keyboard, flash drive, generic HID, CDC Serial, MIDI, WebUSB, others)
  • Bluetooth on the PicoW (Classic and BLE) with Keyboard, Mouse, Joystick, and Virtual Serial
  • Bluetooth Classic and BLE HID master mode (connect to BT keyboard, mouse, or joystick)
  • Generic Arduino USB Serial, Keyboard, Joystick, and Mouse emulation
  • WiFi (Pico W, ESP32-based ESPHost, Atmel WINC1500)
  • Ethernet (Wired WizNet W6100, WizNet W5500, WizNet W5100, ENC28J60)
  • HTTP client and server (WebServer)
  • SSL/TLS/HTTPS
  • Over-the-Air (OTA) upgrades
  • Filesystems (LittleFS and SD/SDFS)
  • Multicore support (setup1() and loop1())
  • FreeRTOS SMP support
  • Overclocking and underclocking from the menus
  • digitalWrite/Read, shiftIn/Out, tone, analogWrite(PWM)/Read, temperature
  • Analog stereo audio in using DMA and the built-in ADC
  • Analog stereo audio out using PWM hardware
  • Bluetooth A2DP audio source (output) and sink (input) on the PicoW
  • USB drive mode for data loggers (SingleFileDrive, FatFSUSB)
  • Peripherals: SPI master/slave, Wire(I2C) master/slave, dual UART, emulated EEPROM, I2S audio input/output, Servo
  • printf (i.e. debug) output over USB serial
  • Transparent use of PSRAM globals and heap (RP2350 only)
  • ARM or RISC-V (Hazard3) support for the RP2350

The RP2040 PIO state machines (SMs) are used to generate jitter-free:

  • Servos
  • Tones
  • I2S Input
  • I2S Output
  • Software UARTs (Serial ports)

Installing via Arduino Boards Manager

Windows-specific Notes

Please do not use the Windows Store version of the actual Arduino application because it has issues detecting attached Pico boards. Use the "Windows ZIP" or plain "Windows" executable (EXE) download direct from https://arduino.cc. and allow it to install any device drivers it suggests. Otherwise the Pico board may not be detected. Also, if trying out the 2.0 beta Arduino please install the release 1.8 version beforehand to ensure needed device drivers are present. (See #20 for more details.)

Linux-specific Notes

Installing Arduino using flatpak (often used by "App Stores" in various Linux distributions) will mean it has restricted access to the host. This might cause uploads to fail with error messages such as the following:

Scanning for RP2040 devices
...
No drive to deploy.

If you encounter this, you will need to either install Arduino in a different manner, or override the flatpak sandboxing feature using the following command, then restarting Arduino.

flatpak override --user --filesystem=host:ro cc.arduino.IDE2

Installation

Open up the Arduino IDE and go to File->Preferences.

In the dialog that pops up, enter the following URL in the "Additional Boards Manager URLs" field:

https://github.com/earlephilhower/arduino-pico/releases/download/global/package_rp2040_index.json

image

Hit OK to close the dialog.

Go to Tools->Boards->Board Manager in the IDE

Type "pico" in the search box and select "Add":

image

Installing via GIT

Windows Users: Before installing via git on Windows, please read and follow the directions in this link. If Win32 long paths are not enabled, and git not configured to use them then there may be errors when attempting to clone the submodules.

To install via GIT (for latest and greatest versions):

mkdir -p ~/Arduino/hardware/pico
git clone https://github.com/earlephilhower/arduino-pico.git ~/Arduino/hardware/pico/rp2040
cd ~/Arduino/hardware/pico/rp2040
git submodule update --init
cd pico-sdk
git submodule update --init
cd ../tools
python3 ./get.py

Uploading Sketches

To upload your first sketch, you will need to hold the BOOTSEL button down while plugging in the Pico to your computer. Then hit the upload button and the sketch should be transferred and start to run.

After the first upload, this should not be necessary as the arduino-pico core has auto-reset support. Select the appropriate serial port shown in the Arduino Tools->Port->Serial Port menu once (this setting will stick and does not need to be touched for multiple uploads). This selection allows the auto-reset tool to identify the proper device to reset. Them hit the upload button and your sketch should upload and run.

In some cases the Pico will encounter a hard hang and its USB port will not respond to the auto-reset request. Should this happen, just follow the initial procedure of holding the BOOTSEL button down while plugging in the Pico to enter the ROM bootloader.

Uploading Filesystem Images

The onboard flash filesystem for the Pico, LittleFS, lets you upload a filesystem image from the sketch directory for your sketch to use. Download the needed plugin from

To install, follow the directions in

For detailed usage information, please check the ESP8266 repo documentation (ignore SPIFFS related notes) available at

Uploading Sketches with Picoprobe/Debugprobe

If you have built a Raspberry Pi Picoprobe, you can use OpenOCD to handle your sketch uploads and for debugging with GDB.

Under Windows a local admin user should be able to access the Picoprobe port automatically, but under Linux udev must be told about the device and to allow normal users access.

To set up user-level access to Picoprobes on Ubuntu (and other OSes which use udev):

echo 'SUBSYSTEM=="usb", ATTRS{idVendor}=="2e8a", ATTRS{idProduct}=="0004", MODE="660", GROUP-"plugdev"' | sudo tee -a /etc/udev/rules.d/98-PicoProbe.rules
echo 'SUBSYSTEM=="usb", ATTRS{idVendor}=="2e8a", ATTRS{idProduct}=="000a", MODE="660", GROUP="plugdev"' | sudo tee -a /etc/udev/rules.d/98-PicoProbe.rules
echo 'SUBSYSTEM=="usb", ATTRS{idVendor}=="2e8a", ATTRS{idProduct}=="000f", MODE="660", GROUP="plugdev"' | sudo tee -a /etc/udev/rules.d/98-PicoProbe.rules
sudo udevadm control --reload
sudo udevadm trigger -w -s usb

The first line creates a device file in /dev matching the USB vendor and product ID of the Picoprobe, and it enables global read+write permissions. The second line causes udev to load this new rule. The third line requests the kernel generate "device change" events that will cause our new udev rule to run.

If for some reason the device file does not appear, manually unplug and re-plug the USB connection and check again. The output from dmesg can reveal useful diagnostics if the device file remains absent.

Once Picoprobe permissions are set up properly, then select the board "Raspberry Pi Pico (Picoprobe)" in the Tools menu and upload as normal.

Debugging with Picoprobe, OpenOCD, and GDB

The installed tools include a version of OpenOCD (in the pqt-openocd directory) and GDB (in the pqt-gcc directory). These may be used to run GDB in an interactive window as documented in the Pico Getting Started manuals from the Raspberry Pi Foundation. Use the command line ./system/openocd/bin/openocd -f ./lib/rp2040/picoprobe_cmsis_dap.tcl or ./system/openocd/bin/openocd -f ./lib/rp2350/picoprobe_cmsis_dap.tcl from the git installation directory.

Licensing and Credits

-Earle F. Philhower, III
[email protected]

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