STM32F722VCT6 Microcontroller - STMicroelectronics

The STM32F722VCT6 is a high-performance microcontroller from STMicroelectronics, tailored for the most demanding applications. This member of the STM32F7 series is based on the ARM Cortex-M7 processor with a frequency of up to 216 MHz, delivering a perfect balance between power efficiency and processing capability.

With its advanced architecture, the STM32F722VCT6 boasts a range of impressive features:

• Core: ARM Cortex-M7 32-bit RISC core operating at a frequency of up to 216MHz.
• Memory: 256KB of SRAM and 512KB of flash memory, providing ample space for complex applications.
• Performance: High-performance Digital Signal Processing (DSP) and floating-point unit for efficient computation.
• Connectivity: A rich set of I/Os and peripherals, including USB OTG FS/HS, Ethernet, CAN, SDMMC, and a variety of serial interfaces.
• Clock Management: Multiple internal and external clock options, with the support for PLLs and oscillator control.
• Power Efficiency: Features like ART Accelerator, L1 cache, and adaptive real-time ART Accelerator ensure maximum efficiency.
• Development Support: Comprehensive development ecosystem with a wide range of tools, software libraries, and support from STMicroelectronics.
• Package: LQFP100 package, providing a compact footprint for space-constrained applications.

With its advanced features, the STM32F722VCT6 is ideal for a range of applications, including motor drive and application control, medical and handheld equipment, industrial applications, PLCs, inverters, printers, scanners, alarm systems, video intercoms, and HVACs.

STMicroelectronics provides extensive support for the STM32F722VCT6 with comprehensive software HAL libraries, professional development tools, and a global community of users and experts to help developers get the most out of this powerful microcontroller.

Whether you're designing an advanced industrial control system or a sophisticated consumer device, the STM32F722VCT6 offers the performance, flexibility, and reliability needed to meet the challenges of modern embedded systems.