Unsoldered Black STM32F401CCU6 Development Board Micro

Unsoldered Black STM32F401CCU6 Development Board Micro Description

The Unsoldered Black STM32F401CCU6 Development Board Micro is based on the STM32F401CCU6 microcontroller, offering a high-performance ARM Cortex-M4 processor at 84 MHz. This unsoldered version allows for customization and soldering according to your project needs. The STM32F401CCU6 chip is ideal for applications requiring high-speed processing, precision timing, and low-power consumption. With its advanced features and flexible design, this development board is perfect for creating embedded systems, sensor networks, and robotics projects.

Unsoldered Black STM32F401CCU6 Development Board Features

• STM32F401CCU6 Chip: Powered by the STM32F401CCU6 ARM Cortex-M4 processor, which provides high processing power and efficiency for embedded applications.
• Unsoldered Version: The unsoldered board provides flexibility for users to solder components as needed, ensuring full customization for specific projects.
• High Performance: Capable of running at up to 84 MHz, ideal for real-time applications that require fast processing.
• Low Power Consumption: Designed for energy-efficient applications, making it suitable for battery-powered and portable systems.
• Wide Compatibility: Compatible with a variety of development platforms and software tools, making it easy to integrate into existing embedded systems projects.

Unsoldered Black STM32F401CCU6 Development Board Specifications

• Microcontroller: STM32F401CCU6 ARM Cortex-M4
• Clock Speed: 84 MHz
• Voltage: 3.3V
• Interface: Supports I2C, SPI, UART, and more
• Assembly: Unsoldered for custom setup

Unsoldered Black STM32F401CCU6 Development Board Applications

• Embedded Systems: Perfect for developing high-performance embedded systems that require fast processing and low power consumption.
• Robotics: Suitable for robotics projects that need a microcontroller capable of processing complex tasks and controlling motors and sensors.
• Sensor Networks: Ideal for building sensor nodes and wireless sensor networks in IoT applications.
• Real-Time Systems: Can be used in real-time applications such as data acquisition, signal processing, and control systems.