Manuel d'utilisation du kit de carte de développement microcontrôleur Waveshare RP2350-Tiny

1. Introduction

This manual provides detailed instructions for the Waveshare RP2350-Tiny Microcontroller Development Board Kit. It covers the board's features, specifications, setup procedures, operation guidelines, and troubleshooting tips to help users effectively utilize the development board.

The RP2350-Tiny is a compact development board based on the Raspberry Pi RP2350A microcontroller. It features a unique dual-core and dual-architecture design, integrating an Arm Cortex-M33 processor and a Hazard 3 RISC-V processor, capable of flexible clock speeds up to 150 MHz. This kit is designed for various embedded applications and supports C/C++ and MicroPython programming.

2. Contenu du colis

Vérifiez que tous les éléments énumérés ci-dessous sont inclus dans votre colis :

• RP2350-Tiny Development Board x1
• USB Port Adapter x1
• FPC Cable (~15cm) x1

Image: The RP2350-Tiny development board connected via an FPC cable to the USB port adapter, illustrating the main components of the kit.

3. Principales caractéristiques

The Waveshare RP2350-Tiny Development Board offers the following key features:

• microcontrôleurs: Raspberry Pi RP2350A chip with dual-core Arm Cortex-M33 and dual-core Hazard 3 RISC-V processors.
• Vitesse d'horloge : Flexible clock running up to 150 MHz.
• Mémoire: 520KB Static Random-Access Memory (SRAM) and 4MB on-board Flash memory.
• Connectivité : Onboard FPC 8-PIN connector, adaptable to USB Type-C via adapter board.
• Facteur de forme : Conception modulaire à structure alvéolaire pour soudure directe sur cartes porteuses.
• USB: USB 1.1 with device and host support.
• Modes d'alimentation : Low-power sleep and dormant modes.
• Programmation: Drag-and-drop programming via mass storage over USB.
• GPIO : 28 multi-function GPIO pins (20 via edge pinout, others via solder points).
• Périphériques : 2 SPI, 2 I2C, 2 UART, 4 12-bit ADC, 16 controllable PWM channels.
• PIO: 12 machines d'état d'E/S programmables (PIO) pour la prise en charge de périphériques personnalisés.
• Supplémentaire: Accurate clock and timer, on-chip temperature sensor, accelerated floating-point libraries.

Image : Un surview of the RP2350-Tiny Development Board highlighting its key features such as tiny size, dual-core architecture, high operating performance, and multi-function GPIO pins.

4. Spécifications techniques

Image: Detailed outline dimensions for both the RP2350-Tiny development board and the USB Port Adapter, shown in millimeters.

5. Disposition du circuit imprimé et composants

Understanding the layout of the RP2350-Tiny board is crucial for proper usage. The following diagram identifies key components:

Image : Vue de dessus view of the RP2350-Tiny board with numbered callouts identifying major components such as the FPC connector, voltage regulator, Flash memory, RP2350A chip, and RGB LED indicator.

1. FPC connector: 0.5mm pitch 8PIN connector for external connections, typically to the USB adapter.
2. ME6217C33M5G : Low dropout regulator, providing up to 800mA output (Max.).
3. P25Q32SH-UXH-IR : 4MB NOR-Flash memory for program storage.
4. RP2350A : The main dual-core, dual-architecture microcontroller chip.
5. WS2812: RGB LED indicator for visual feedback.

GPIO Pinout

The RP2350-Tiny features 28 multi-function GPIO pins. The pinout diagram below illustrates the available pins and their primary functions.

Image: A detailed diagram showing the GPIO pinout of the RP2350-Tiny board, including power, ground, UART, SPI, I2C, ADC, and PWM functions, along with user mode selection pads.

6. Instructions de configuration

6.1 Connecting the USB Port Adapter

The RP2350-Tiny development board connects to a host computer via the provided USB Port Adapter and FPC cable.

1. Carefully connect one end of the FPC cable to the 8-PIN FPC connector on the RP2350-Tiny board. Ensure the cable is inserted correctly with the contacts facing the appropriate direction.
2. Connect the other end of the FPC cable to the corresponding 8-PIN FPC connector on the USB Port Adapter.
3. Plug the USB Type-C end of the USB Port Adapter into your computer.

Upon successful connection, the board should be recognized by your computer, typically as a mass storage device for drag-and-drop programming.

6.2 Configuration de l'environnement logiciel

To develop applications for the RP2350-Tiny, you will need to set up a development environment. The board supports C/C++ and MicroPython.

• For C/C++ Development: Utilize the Pico C/C++ SDK. This SDK can be used from the command line or integrated with popular development environments like Visual Studio Code and Eclipse. Refer to the official Raspberry Pi Pico documentation for detailed setup instructions.
• For MicroPython Development: MicroPython is a full implementation of the Python 3 programming language optimized for embedded hardware. You can flash a MicroPython firmware to the board and then use a serial terminal or an IDE like Thonny for programming.

Image: An illustration showing the support for C/C++ SDK and MicroPython development environments for the RP2350-Tiny board.

7. Operating the RP2350-Tiny

7.1 Programming via USB (Drag-and-Drop)

The RP2350-Tiny supports drag-and-drop programming, which is a convenient way to upload firmware or MicroPython scripts.

1. With the board connected to your computer via the USB Port Adapter, press and hold the BOOTSEL button on the USB Port Adapter while plugging it into your computer (or press BOOTSEL and then RESET if already connected).
2. The board will appear as a mass storage device (e.g., "RPI-RP2").
3. Drag and drop your compiled firmware (.uf2 file for C/C++ or .py file for MicroPython) onto this drive.
4. The board will automatically reboot and run the new program.

7.2 Utilisation des GPIO

The 28 multi-function GPIO pins can be configured for various purposes, including digital input/output, analog input (ADC), serial communication (SPI, I2C, UART), and Pulse Width Modulation (PWM).

• Refer to the GPIO pinout diagram in Section 5 for pin assignments.
• When programming, ensure that the correct pin numbers and functions are specified in your code.
• Be mindful of voltage levels; the RP2350-Tiny operates at 3.3V logic.

7.3 Gestion de l'alimentation

The RP2350-Tiny supports low-power sleep and dormant modes to conserve energy in battery-powered applications. Consult the RP2350A datasheet and SDK documentation for details on implementing these power-saving features in your code.

8. Maintenance et entretien

• Manutention: Always handle the development board by its edges to avoid touching components, especially the pins, which can be sensitive to electrostatic discharge (ESD).
• Stockage: Store the board in an anti-static bag when not in use, in a cool, dry environment.
• Nettoyage: Si nécessaire, nettoyez délicatement la planche avec une brosse douce et sèche ou de l'air comprimé. Évitez d'utiliser des liquides ou des produits abrasifs.
• Alimentation: Ensure a stable 5V power supply when connecting via USB. Over-voltage peut endommager la carte.

9. Dépannage

• Carte non reconnue par l'ordinateur :
  • Ensure the FPC cable is securely connected to both the RP2350-Tiny and the USB Port Adapter.
  • Essayez un autre câble USB ou un autre port USB sur votre ordinateur.
  • Verify that you are holding the BOOTSEL button while connecting the USB adapter to enter mass storage mode.
• Program not running after upload:
  • Confirm that the correct .uf2 or .py file was dragged to the "RPI-RP2" drive.
  • Check your code for errors.
  • Ensure the board automatically rebooted after the file transfer. If not, manually reset the board.
• Peripherals (e.g., I2C, SPI) not working:
  • Double-check your wiring against the GPIO pinout diagram.
  • Verify that the correct GPIO pins are initialized and configured in your software.
  • Ensure external components are properly powered and connected.
• Board gets hot:
  • Coupez immédiatement l'alimentation.
  • Check for short circuits on the board or in your external connections.
  • Assurez-vous que le volume d'entréetage is within the specified range (5V via USB).

10. Assistance technique et ressources

For further assistance, online development resources, and technical support, please refer to the Waveshare official website or contact their support team. Detailed documentation, examples, and community forums are often available to help with advanced projects and specific issues.

Vous trouverez des ressources supplémentaires et des informations de contact sur le Waveshare Store on Amazon.