The STM32439I-EVAL2 evaluation board is a high-end development platform for the STM32F4 series of ARM Cortex-M4 microcontrollers, produced by STMicroelectronics. Designed to facilitate the evaluation of the STM32F439NIH6 microcontroller, this board is a versatile tool for developers and engineers looking to explore the advanced features of the STM32F4 series.

Key Features

• High-performance MCU: At the heart of the STM32439I-EVAL2 is the STM32F439NIH6 microcontroller, which boasts a Cortex-M4 core with a floating-point unit, running at up to 180 MHz.
• Comprehensive Connectivity: The board includes a range of connectivity options such as Ethernet, USB OTG HS and FS, CAN, and several serial interfaces.
• Rich Display Options: An integrated 4.3” color TFT LCD display with a touchscreen provides a rich user interface for applications requiring graphical output.
• Ample Storage: Onboard features include 2 GB of NAND Flash, 256 Mbit of SDRAM, 64 Mbit of Quad-SPI Flash, and a microSD card slot for additional storage capabilities.
• Audio and Video Capabilities: The board comes with an SAI audio DAC, stereo headphone jack output, digital microphone inputs, and a camera interface for multimedia applications.
• Sensors and Controllers: It includes motion and environmental sensors, as well as an infrared receiver and transmitter for remote control capabilities.
• Expansion Support: The STM32439I-EVAL2 supports Arduino Uno V3 and STMod+ connectivity, allowing for easy expansion with a wide range of specialized add-on boards.

Development Support

The evaluation board is supported by a range of software development tools including the STM32CubeF4 MCU Package, which provides comprehensive software HAL library, as well as various software examples. Additionally, the board is compatible with IAR, Keil, and GCC-based IDEs, making it accessible for a wide array of development preferences.

Applications

The STM32439I-EVAL2 is ideal for a variety of applications, such as industrial control, medical equipment, home automation, and complex IoT devices, where advanced computational power, graphical displays, and high-speed connectivity are required.