The STM32F767VIH6 is a high-performance microcontroller from STMicroelectronics, designed to offer the best balance of dynamic power consumption (in run mode) and processing performance, while integrating a rich set of peripherals for a variety of applications.

Core Features

• Core: ARM® Cortex®-M7 with FPU and Chrom-ART Accelerator™
• Maximum Frequency: 216MHz
• Memory: 2MB of Flash memory, 512+4KB of RAM
• Supply Voltage: 1.7V to 3.6V

Advanced Connectivity

The STM32F767VIH6 provides extensive integrated connectivity options. It includes a USB OTG full-speed/high-speed interface, Ethernet MAC, up to 4 I2C interfaces, up to 4 USARTs and up to 6 SPIs. For wireless communication, there are modules available for Bluetooth, Wi-Fi, and sub-GHz radio solutions that can be connected to this MCU.

Robust Performance

With its Cortex®-M7 core, the STM32F767VIH6 reaches a benchmark score of 1082 DMIPS/462.67 CoreMark® at 216MHz fCPU, which is evidence of its robust performance capabilities. The microcontroller is designed to operate at a high level of efficiency, making it ideal for demanding applications such as industrial control, medical equipment, and IoT devices.

Peripherals and GPIOs

This microcontroller comes with a wide range of peripherals including timers, an SAI (Serial Audio Interface), SDMMC interface, and advanced-control PWM. It also provides up to 168 I/O ports with interrupt capability, which means that it can handle a large number of inputs and outputs, making it highly versatile for complex embedded systems.

Development Support

STMicroelectronics supports the STM32F767VIH6 with a comprehensive set of development tools, including the STM32Cube platform, which provides software libraries and hardware abstraction layers that simplify development. The STM32Cube includes HAL (Hardware Abstraction Layer) libraries, middleware solutions, and a set of examples to kickstart your projects.

Energy Efficient

Despite its powerful performance, the STM32F767VIH6 is designed with energy efficiency in mind. Features like the ART Accelerator™, as well as the flexible energy-saving modes, ensure that applications can optimize power consumption according to their operational needs.