Ìwé Ìtọ́sọ́nà Olùlò Ìgbìmọ̀ Ìdàgbàsókè Kékeré Waveshare RP2350-Zero

1. Ifihan

The Waveshare RP2350-Zero Mini Development Board is a compact and powerful microcontroller board designed for embedded projects. It is based on the Raspberry Pi RP2350A microcontroller, featuring a unique dual-core and dual-architecture design with an Arm Cortex-M33 processor and a Hazard 3 RISC-V processor. This board offers impressive processing capabilities in a small form factor, making it suitable for a wide range of applications from robotics and automation to IoT and wearable devices. Its compatibility with existing Raspberry Pi Pico resources and software facilitates ease of development.

2. Akoonu Package

Jẹrisi pe package rẹ ni nkan wọnyi ninu:

RP2350-Zero Mini Development Board x1

Image showing the Waveshare RP2350-Zero Mini Development Board as the sole item in the package. — Figure 2.1: Package content, showing one RP2350-Zero board.

The image above displays the RP2350-Zero Mini Development Board, which is the primary component included in the package.

3. Ọja Ipariview

The RP2350-Zero is a Pico-like MCU board based on the Raspberry Pi RP2350A. It is designed as a castellated module, making it suitable for Surface Mount Device (SMD) applications. Key features include its tiny size for easy integration, dual-core and dual-architecture processing, high operating performance, and multi-function GPIO pins.

Image highlighting the RP2350 MCU Board with features: Tiny Size, Dual-core & Dual-architecture, High Operating Performance, Multi-function GPIO Pins. — Olusin 3.1: Pariview of the RP2350 MCU Board and its main features.

This image illustrates the compact design and core capabilities of the RP2350-Zero board, emphasizing its suitability for various embedded projects.

4. Board Specifications

The RP2350-Zero Mini Development Board incorporates the following technical specifications:

Chip Microcontroller: RP2350A, designed by Raspberry Pi (UK).
Processor Architecture: Dual-core design with an Arm Cortex-M33 processor and a Hazard 3 RISC-V processor.
Igbohunsafẹfẹ Aago: Up to 150 MHz.
Iranti: 520KB Static RAM (SRAM) and 4MB on-board Flash memory.
Asopọmọra: USB Type-C connector, supporting USB 1.1 (device and host).
Iṣagbesori: Castellated module for direct soldering onto carrier boards.
Awọn ọna agbara: Low-power sleep and dormant modes.
Eto: Drag-and-drop programming via USB mass storage.
Awọn Pinni GPIO: 29 multi-functional GPIO pins (20 via edge pinout, others via solder points).
Awọn agbeegbe:
- 2 × SPI interfaces
- 2 × I2C interfaces
- 2 × UART interfaces
- 4 × 12-bit Analog-to-Digital Converters (ADC)
- 16 × controllable PWM channels
Àkókò: Accurate clock and on-chip timer.
Awọn sensọ: Integrated temperature sensor.
Awọn ile-ikawe: Accelerated floating-point libraries on-chip.
PIO: 12 Programmable I/O (PIO) state machines for custom peripheral support.

Image detailing the board specifications including microcontroller, processor, memory, connectivity, and peripherals. — Figure 4.1: Detailed list of the RP2350-Zero board's technical specifications.

The image provides a visual summary of the key specifications, reinforcing the capabilities of the RP2350A microcontroller.

5. Pinout Diagram and GPIO

The RP2350-Zero features 29 multi-function GPIO pins, offering extensive configuration options for flexible development and integration. These pins support various functions including digital I/O, SPI, I2C, UART, ADC, and PWM.

Detailed pinout diagram of the RP2350-Zero board, showing the function of each of the 29 multi-function GPIO pins. — Figure 5.1: Pinout diagram illustrating the functions of the 29 multi-function GPIO pins.

This diagram is crucial for understanding how to connect peripherals and integrate the board into custom circuits, showing power, ground, UART, SPI, I2C, ADC, and PWM pin assignments.

6. On-Board Components and Dimensions

This section identifies the key components on the RP2350-Zero board and provides its physical dimensions.

Diagram showing the labeled components on the RP2350-Zero board, including USB Type-C, LDO regulator, BOOT button, RUN button, WS2812 RGB LED, Flash memory, RP2350A chip, and debug pins. — Figure 6.1: Identification of key components on the RP2350-Zero board.

The diagram above points out important features such as the USB Type-C connector for programming and power, the BOOT and RUN buttons for device control, and the RP2350A microcontroller chip.

Technical drawing showing the precise dimensions of the RP2350-Zero board in millimeters. — Figure 6.2: Physical dimensions of the RP2350-Zero board.

This technical drawing provides the exact measurements of the board, essential for integration into custom enclosures or PCBs.

7. Pinheader Options

The RP2350-Zero is available in different configurations regarding pinheaders, allowing for flexibility in mounting and application.

Image showing two versions of the board: RP2350-Zero without pinheader and RP2350-Zero-M with pre-soldered pinheaders. — Figure 7.1: RP2350-Zero board versions with and without pinheaders.

The image illustrates the standard RP2350-Zero (without pinheaders, ideal for direct soldering) and the RP2350-Zero-M (with pre-soldered pinheaders for breadboard compatibility or socket mounting).

8. Software Support

The RP2350-Zero supports various programming environments, including C/C++ and MicroPython, providing comprehensive SDKs, development resources, and tutorials to assist users in getting started.

Fun C/C++ development, the official Raspberry Pi Pico C SDK can be utilized. This SDK allows for development from the command line or within popular integrated development environments such as Visual Studio Code and Eclipse.

Fun MicroPython, a full implementation of the Python 3 programming language is available, designed to run directly on embedded hardware like the Raspberry Pi Pico. This provides an accessible entry point for rapid prototyping and development.

The board's dual-core, dual-architecture design, incorporating an Arm Cortex-M33 processor and a Hazard 3 RISC-V processor, allows for flexible clock speeds up to 150 MHz, enabling diverse programming approaches and efficient execution of complex tasks.

9. Eto

To begin using your Waveshare RP2350-Zero Mini Development Board, follow these general setup steps:

Sopọ si Kọmputa: Use a USB Type-C cable to connect the RP2350-Zero board to your computer. The board should appear as a mass storage device.
Fi Awọn awakọ sii (ti o ba jẹ dandan): For some operating systems, specific USB drivers might be required. Refer to the official Raspberry Pi Pico documentation or Waveshare's product wiki for detailed driver installation instructions.
Install Development Environment:
- Fun C/C++ development, install the Raspberry Pi Pico SDK. Integrated Development Environments (IDEs) like Visual Studio Code or Eclipse can be used.
- Fun MicroPython development, install a MicroPython or CircuitPython firmware. Tools like Thonny IDE are commonly used for flashing and programming.
Famuwia Filaṣi:
- To enter bootloader mode, press and hold the Bọọlu button while connecting the USB cable, then release the Bọọlu button. The board will appear as a removable drive (RPI-RP2).
- Drag and drop the appropriate firmware (.uf2 file) onto the RPI-RP2 drive. The board will automatically reboot and run the new firmware.
Jẹrisi Asopọmọra: After flashing, the board should be recognized by your development environment, allowing you to upload and run programs.

For detailed, up-to-date setup guides and specific software versions, always consult the official Waveshare product wiki for the RP2350-Zero.

10. Awọn ilana Iṣiṣẹ

Once the RP2350-Zero is set up with your chosen development environment and firmware, you can begin programming and operating it.

Agbara Tan: Connect the board to a power source via the USB Type-C port. The board will power on and execute the loaded program.
Upload Programs:
- In C/C++ environments, compile your code and upload it to the board, often through the USB interface.
- In MicroPython/CircuitPython, use your IDE (e.g., Thonny) to connect to the board's serial port and upload your Python scripts.
Resetting the Board: Tẹ awọn RUN button to reset the board and restart the currently loaded program.
Interacting with GPIO: Connect external components (sensors, LEDs, motors) to the GPIO pins as per your project's requirements and the pinout diagram (Figure 5.1). Control these components through your programmed code.
USB Host/Device Functionality: Utilize the USB 1.1 capabilities for connecting to other USB devices (as a host) or appearing as a USB device (e.g., HID, serial port) to a computer.

Always ensure proper wiring and power supply when connecting external components to avoid damage to the board or peripherals.

11. Itọju

Proper care and maintenance will ensure the longevity and reliable operation of your RP2350-Zero board.

Mimu: Handle the board by its edges to avoid touching components, especially the pins, which can be sensitive to static electricity.
Ibi ipamọ: Store the board in an anti-static bag when not in use, in a dry environment, away from extreme temperatures.
Ninu: Tí ó bá pọndandan, fi búrọ́ọ̀ṣì gbígbẹ tàbí afẹ́fẹ́ tí a ti fún mọ́ pákó náà pẹ̀lú pẹ̀lẹ́pẹ̀lẹ́ láti mú eruku kúrò. Yẹra fún lílo àwọn ohun èlò ìfọ́ tàbí ohun èlò ìfọ́.
Ibi ti ina elekitiriki ti nwa: Always use a stable 5V power supply via the USB-C port. Ensure the current draw of connected peripherals does not exceed the board's capabilities (800mA max from LDO regulator).
Awọn imudojuiwọn famuwia: Regularly check the Waveshare wiki for firmware updates to benefit from bug fixes and new features.

12. Laasigbotitusita

This section addresses common issues you might encounter with the RP2350-Zero board.

Kọ̀ǹpútà kò dámọ̀ pátákó:
- Rí i dájú pé okùn USB Type-C ti wà ní ìsàlẹ̀ dáadáa tí ó sì ń ṣiṣẹ́ dáadáa.
- Gbiyanju ibudo USB miiran tabi okun USB.
- Verify that the board is in bootloader mode (hold BOOT button while connecting USB).
- Check for necessary USB drivers on your operating system.
Firmware Flashing Issues:
- Ensure you are using the correct .uf2 firmware file for the RP2350-Zero. Firmware for RP2040 or RP2400 devices may not be compatible.
- Confirm the board is in bootloader mode (RPI-RP2 drive appears).
- Try re-downloading the firmware file to ensure it's not corrupted.
Program Not Running:
- After flashing, press the RUN button to restart the program.
- Check your code for errors in your development environment.
- Ensure all external connections are correct and stable.
Serial Port Not Detected (MicroPython/CircuitPython):
- Some users have reported issues with MicroPython serial port detection on certain versions. Consider using CircuitPython as an alternative, which has shown better compatibility in some cases.
- Ensure your IDE is configured to connect to the correct serial port.
Iwa airotẹlẹ:
- Jẹrisi iduroṣinṣin ipese agbara.
- Check for short circuits or incorrect wiring on your breadboard or custom PCB.
- Consult the Waveshare wiki and community forums for similar issues and solutions.

13. Awọn alaye pato

Ẹya ara ẹrọ	Ẹ̀kúnrẹ́rẹ́
Brand	Waveshare
Orukọ awoṣe	RP2350-Zero Mini
isise	Raspberry Pi RP2350A (Dual-core Arm Cortex-M33 & Hazard 3 RISC-V)
Sipiyu Iyara	Titi di 150 MHz
Àgbo	520KB SRAM
Flash Memory	4MB (on-board)
Asopọmọra Technology	USB Type-C (USB 1.1 Device/Host)
GPIO Pinni	29 multi-functional (20 via edge, others via solder points)
Awọn agbeegbe	2x SPI, 2x I2C, 2x UART, 4x 12-bit ADC, 16x PWM channels, 12x PIO state machines
Awọn ọna System Support	Linux (for development host), MicroPython, CircuitPython, C/C++ SDK
Iwọn Nkan	0 ounces (very light)
Package Mefa	2.76 x 1.97 x 0.87 inches
Olupese	Waveshare

14. Atilẹyin ọja ati Support

For technical support, detailed documentation, and the latest resources, please refer to the official Waveshare product wiki for the RP2350-Zero Mini Development Board. This resource provides comprehensive guides, examples, and community support.

Information regarding specific warranty terms is typically provided at the point of purchase or on the manufacturer's official website. Please consult your retailer or the Waveshare webAaye fun awọn alaye atilẹyin ọja.

Awọn orisun Ayelujara: Waveshare Official Webojula

	Ohun elo Idagbasoke Waveshare Jetson Nano: Loriview, Eto, ati Awọn Ohun elo Itọsọna pipe si Waveshare Jetson Nano Developer Kit, ti o bo gbogbo rẹview, àwọn ìlànà ẹ̀rọ, ètò sọ́fítíwè nípa lílo SDK Manager, ìṣètò kámẹ́rà, àti ìṣòro.
	ESP32-S3-Fọwọkan-LCD-4.3B: Igbimọ Idagbasoke Loriview ati Oṣo Itọsọna Ṣe àwárí ESP32-S3-Touch-LCD-4.3B, pátákó ìdàgbàsókè microcontroller alágbára láti ọ̀dọ̀ Waveshare. Ìtọ́sọ́nà yìí bo àwọn ẹ̀yà ara rẹ̀, àpèjúwe ohun èlò, àwọn àlàyé ìfọwọ́sowọ́pọ̀, ó sì pèsè àwọn ìtọ́ni fún ṣíṣètò àyíká ìdàgbàsókè nípa lílo ESP-IDF àti VSCode.
	Modulu EPD Waveshare Pico e-Paper 2.13inch fun Raspberry Pi Pico: Itọsọna Idagbasoke & API Ìtọ́sọ́nà ìdàgbàsókè kíkún fún ẹ̀rọ Waveshare Pico e-Paper 2.13inch EPD module pẹ̀lú Raspberry Pi Pico. Àwọn ẹ̀yà ara rẹ̀ ní 250x122 resolution, SPI interface, C/C++ & MicroPython demo codes, àti àwọn ìwé API pípé.
	Igbimọ Idagbasoke Waveshare ESP32-S3-Touch-LCD-4.3: Awọn ẹya ara ẹrọ ati Itọsọna Ṣe àwárí Waveshare ESP32-S3-Touch-LCD-4.3, pátákó ìdàgbàsókè microcontroller alágbára kan tí ó ní ìfihàn ìfọwọ́kàn capacitive 4.3-inch, WiFi, BLE 5, àti ọ̀pọ̀lọpọ̀ àwọn ìsopọ̀ bíi CAN, RS485, àti I2C. Kọ́ nípa ohun èlò rẹ̀, ètò rẹ̀, àti àwọn ohun èlò rẹ̀.ampawọn demos fun idagbasoke HMI.
	Módù Síríìlì UART USB-TO-TTL-FT232 - Waveshare Ìtọ́sọ́nà tó péye fún ẹ̀rọ Waveshare USB-TO-TTL-FT232, tó ní ẹ̀rọ FT232RNL chip nínú. Ìwé yìí ṣàlàyé àwọn ẹ̀yà ara rẹ̀, ìfọwọ́sowọ́pọ̀ inú rẹ̀, pinout, ìwọ̀n rẹ̀, ó sì pèsè àwọn ìlànà ìgbésẹ̀-ní-ìgbésẹ̀ fún fífi sori ẹ̀rọ àti lílo ẹ̀rọ awakọ̀ lórí Windows, Linux, àti macOS. Ó ní àwọn ìjápọ̀ sí àwọn awakọ̀ àti sọ́fítíwọ́ọ̀kì.
	Pico-Relay-B: Ìtọ́sọ́nà Olùlò Modulu Relay ikanni 8 Ìtọ́sọ́nà olùlò fún Waveshare Pico-Relay-B, ẹ̀rọ ìtúnsọ ikanni 8 ti ilé-iṣẹ́ fún Raspberry Pi Pico. Kọ́ nípa àwọn ẹ̀yà ara rẹ̀, àwọn ìlànà rẹ̀, ìṣètò rẹ̀, àti ètò rẹ̀ pẹ̀lú àwọn ìtọ́ni tó kún rẹ́rẹ́ àti àpẹẹrẹamples.

Waveshare RP2350-Zero