As embedded systems demand higher processing power, greater interface integration, and faster real-time responsiveness, the STM32F765VIT6 stands out as a high-performance solution built around the ARM® Cortex®-M7 architecture. Featuring a dual-precision floating-point unit (FPU), a multi-bus high-speed memory architecture, and a rich peripheral set, it delivers an outstanding balance of computational efficiency and energy performance for complex control, industrial automation, audio-visual processing, and advanced IoT gateway applications.
As one of the key members of STMicroelectronics’ STM32F7 series, this device comes in a 100-pin LQFP package (14 × 14 mm) and supports an industrial temperature range of –40°C to +85°C, ensuring stable, long-term operation in demanding industrial environments.
Processor Architecture and Performance Highlights
- ARM® Cortex®-M7 core operating at up to 216 MHz
- Dual-precision FPU and DSP instruction set extensions for complex signal processing
- Zero-wait Flash acceleration (ART Accelerator) for optimized execution performance
- Multi-bus matrix (AHB/APB) enabling high-speed concurrent access by multiple masters
- Delivers up to 462 DMIPS / 1082 CoreMark
This architecture excels in real-time control, multitasking, and data-intensive signal processing, making it ideal for applications that require both high throughput and deterministic performance.
Key Technical Specifications
Core Architecture | ARM Cortex-M7, 216 MHz, with dual-precision FPU |
Program Memory | 2 MB Flash |
Data Memory | 512 KB SRAM (64 KB ITCM + 128 KB DTCM + 320 KB AXI) |
Communication Interfaces | 4 × USART + 4 × UART, 3 × SPI, 4 × I²C, 2 × CAN, USB OTG HS/FS, SDIO |
Analog Features | 3 × 12-bit ADC, 2 × 12-bit DAC |
Timers | 14 general-purpose + 2 advanced timers |
Memory Expansion | Quad-SPI (QSPI), FMC supporting NOR/NAND/SRAM/PSRAM |
Operating Voltage | 1.7 V – 3.6 V |
Operating Temperature | –40 °C to +85 °C (industrial grade) |
Package Type | LQFP-100 (14 × 14 mm, 0.5 mm pitch) |
System Integration Advantages
- High performance and large memory capacity: Supports advanced algorithms such as graphics rendering, FFT, voice recognition, and motion control.
- Rich peripheral resources: Can directly drive TFT LCDs, Wi-Fi modules, NAND/NOR Flash, and SD cards.
- High-speed communication: Supports USB OTG-HS, CAN FD, and Quad-SPI for fast data exchange.
- Low-power design: Multiple power modes (Sleep, Stop, Standby) with typical current down to 120 µA in Stop mode.
The STM32F765VIT6 strikes a balance between processing capability, peripheral integration, and energy efficiency, making it well-suited for industrial control and communication systems that demand both high performance and reliability.
Typical Application Scenarios
Industrial Automation | PLC controllers, high-speed motion control boards, real-time edge gateways |
Medical Devices | Data acquisition units, diagnostic interface modules, portable analyzers |
Intelligent Transportation | Multi-sensor fusion systems, V2X front-end controllers |
Voice and Image Processing | Embedded voice recognition, audio signal processing, LCD display systems |
Advanced IoT Gateways | Multi-protocol edge nodes, smart relay controllers, data gateways |
Development Resources and Ecosystem Compatibility
- Supports STM32CubeMX configuration and the STM32CubeF7 HAL driver library
- Compatible with FreeRTOS, Zephyr, and other mainstream RTOS platforms
- Works with ST-LINK debuggers and STM32F7 Discovery Kits
- Pin- and software-compatible with the STM32F4/F7 families for easy migration and code reuse
With its mature ecosystem, engineers can rapidly complete system design, peripheral debugging, and power optimization using familiar ST development tools.
Design Recommendations
- Optimized TCM usage:Map interrupt routines and critical algorithms (e.g., FFT) to ITCM/DTCM for real-time performance.
- Peripheral expansion:Use the FMC interface for external SRAM, LCD controllers, or NAND Flash.
- USB applications: Prefer OTG-HS mode for high-speed peripherals such as cameras and USB drives.
- Power optimization:Configure low-power and wake-up modes via STM32CubeMX.
- EMC considerations:In mixed-signal or RF environments, maintain ground separation and signal integrity in PCB layout.
These practical guidelines help balance performance, power efficiency, and reliability during system development.
Combining a 216 MHz Cortex-M7 core, 2 MB Flash, 512 KB RAM, and an extensive set of communication and control interfaces, the STM32F765VIT6 delivers exceptional system-level integration for industrial control, signal processing, and edge computing applications. Its long-term availability, robust ecosystem, and proven stability make it an ideal choice for high-end embedded platforms where both performance and reliability are critical.
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