Arduino Uno R4 WiFi Development Board

Introducing the Arduino Uno R4 WiFi Development Board. The Arduino Uno R4 WiFi Development Board combines the simplicity of the classic Uno with advanced connectivity and features. Powered by the RA4M1 32-bit microcontroller and equipped with integrated WiFi and Bluetooth capabilities, this board opens up endless possibilities for IoT and wireless projects. With a USB-C interface, ample memory, and robust peripherals, the Uno R4 WiFi is ideal for makers, educators, and professionals looking to create innovative and connected devices. Compatible with most Arduino shields and libraries, it ensures a seamless development experience.

Specification:

• Microcontroller: RA4M1 32-bit MCU
• Operating Voltage: 5V
• Input Voltage (recommended): 7V to 12V
• Digital I/O Pins: 14 (6 PWM outputs)
• Analog Input Pins: 6
• Flash Memory: 256 KB
• SRAM: 32 KB
• WiFi & Bluetooth: Integrated connectivity via ESP32-S3 module
• Clock Speed: 48 MHz
• USB Port: USB-C for programming and power
• LED Matrix: Integrated 12×8 LED matrix for visual output
• Compatibility: Fully compatible with Arduino shields and libraries
• Dimensions: 68.6mm x 53.4mm

Key Features:

• Built-in WiFi & Bluetooth: Seamless wireless connectivity for IoT and smart devices.
• Powerful RA4M1 Microcontroller: Enhanced 32-bit architecture for higher performance.
• USB-C Interface: Modern connection for faster programming and power delivery.
• Onboard LED Matrix: 12×8 LED matrix for real-time visual feedback or custom displays.
• Expandable I/O: Digital, analog, and PWM pins for interfacing with various sensors and actuators.
• Ample Memory: 256 KB flash memory and 32 KB SRAM for complex applications.
• Arduino Compatibility: Works with Arduino IDE, shields, and libraries for easy development.
• Robust Connectivity: Ideal for wireless data logging, remote control, and smart home applications.

Applications:

• IoT Projects: Build smart devices with wireless communication and cloud connectivity.
• Robotics: Power autonomous robots and enable remote control functionality.
• Smart Home Automation: Create systems for lighting, security, and environmental monitoring.
• Education: Teach wireless communication, programming, and prototyping in classrooms or workshops.
• Wearable Tech: Design compact, connected, and interactive wearable devices.
• Industrial Monitoring: Develop systems for wireless sensor monitoring and data transmission.