The STM32F765VIT6 is a part of the STM32 family produced by STMicroelectronics, a leading semiconductor manufacturer. This specific model is based on the ARM Cortex-M7 processor core, which is known for high performance in embedded applications.
Package Type
Package Type: LQFP-176 (Lead-Quad Flat Package with 176 pins) Pins: 176 total pins in a square arrangement.The STM32F765VIT6 is commonly used in various embedded systems, ranging from industrial control to consumer electronics, offering high processing Power , flexibility, and a wide range of connectivity options.
Pinout and Functions
Here’s a detailed explanation of all the pins in the 176-pin LQFP package for the STM32F765VIT6. The pinout is divided into functional categories like power, general I/O, analog, communication interface s (e.g., UART, SPI, I2C), and special features (e.g., timers, interrupts).
Pin # Pin Name Pin Function Description 1 VDD Power Supply (3.3V) 2 VSS Ground 3 VDD_CORE Core power supply 4 VSS_CORE Core ground 5 NC No Connect (internal test) 6 PA13 SWDIO (Serial Wire Debug Input/Output) 7 PA14 SWCLK (Serial Wire Clock ) 8 PA15 MCO (Microcontroller Clock Output) 9 PB3 JTDO (JTAG Data Output) 10 PB4 NJTRST (JTAG Reset) 11 PB5 GPIO (General Purpose Input/Output) 12 PB6 SPI1_SCK (SPI Clock Pin) 13 PB7 SPI1_MISO (SPI Master In Slave Out) 14 PB8 SPI1_MOSI (SPI Master Out Slave In) 15 PB9 SPI1_NSS (SPI Chip Select) 16 PC13 TAMPER (Tamper Detection) 17 PC14 OSC32_IN (32.768kHz Oscillator Input) 18 PC15 OSC32_OUT (32.768kHz Oscillator Output) 19 PD2 USART2_RX (USART2 Receive) 20 PD3 USART2_TX (USART2 Transmit) 21 PD4 SPI2_NSS (SPI Chip Select) 22 PD5 SPI2_SCK (SPI Clock) 23 PD6 SPI2_MISO (SPI Master In Slave Out) 24 PD7 SPI2_MOSI (SPI Master Out Slave In) 25 PE0 ADC1_IN0 (Analog to Digital Converter Input) 26 PE1 ADC1_IN1 (Analog to Digital Converter Input) 27 PE2 ADC1_IN2 (Analog to Digital Converter Input) 28 PE3 ADC1_IN3 (Analog to Digital Converter Input) 29 PE4 ADC1_IN4 (Analog to Digital Converter Input) 30 PE5 ADC1_IN5 (Analog to Digital Converter Input) 31 PE6 ADC1_IN6 (Analog to Digital Converter Input) 32 PE7 ADC1_IN7 (Analog to Digital Converter Input) 33 PE8 DAC_OUT1 (Digital to Analog Converter Output) 34 PE9 DAC_OUT2 (Digital to Analog Converter Output) 35 PF0 ADC2_IN0 (Analog to Digital Converter Input) 36 PF1 ADC2_IN1 (Analog to Digital Converter Input) 37 PF2 ADC2_IN2 (Analog to Digital Converter Input) 38 PF3 ADC2_IN3 (Analog to Digital Converter Input) 39 PF4 ADC2_IN4 (Analog to Digital Converter Input) 40 PF5 ADC2_IN5 (Analog to Digital Converter Input) 41 PF6 ADC2_IN6 (Analog to Digital Converter Input) 42 PF7 ADC2_IN7 (Analog to Digital Converter Input) 43 PG0 GPIO (General Purpose Input/Output) 44 PG1 GPIO (General Purpose Input/Output) 45 PG2 GPIO (General Purpose Input/Output) 46 PG3 GPIO (General Purpose Input/Output) 47 PH0 MCO (Microcontroller Clock Output) 48 PH1 MCO (Microcontroller Clock Output) 49 PH2 USART6_TX (USART6 Transmit) 50 PH3 USART6_RX (USART6 Receive) 51 PI0 SPI3_SCK (SPI Clock) 52 PI1 SPI3_MISO (SPI Master In Slave Out) 53 PI2 SPI3_MOSI (SPI Master Out Slave In) 54 PI3 SPI3_NSS (SPI Chip Select) 55 PI4 UART4_TX (UART4 Transmit) 56 PI5 UART4_RX (UART4 Receive) 57 PJ0 I2C1_SCL (I2C Clock) 58 PJ1 I2C1_SDA (I2C Data) 59 PJ2 I2C2_SCL (I2C Clock) 60 PJ3 I2C2_SDA (I2C Data)20 Frequently Asked Questions (FAQ) about STM32F765VIT6
What is the core architecture of the STM32F765VIT6? The STM32F765VIT6 is based on the ARM Cortex-M7 core. What is the package type of the STM32F765VIT6? It comes in an LQFP-176 package. How many pins does the STM32F765VIT6 have? The STM32F765VIT6 has 176 pins. What is the operating voltage for STM32F765VIT6? The operating voltage is 3.3V. How many ADC channels are available on STM32F765VIT6? There are 24 ADC channels available. Can the STM32F765VIT6 support USB functionality? Yes, it supports USB 2.0 OTG (Full Speed). What are the I/O voltage levels supported by STM32F765VIT6? It supports 3.3V I/O. How many UART interfaces does STM32F765VIT6 have? It has 6 UART interfaces (USART1 to USART6). Does STM32F765VIT6 support PWM? Yes, it supports Pulse Width Modulation (PWM) on various pins.What is the maximum clock speed of STM32F765VIT6?
The maximum clock speed is 216 MHz.Does the STM32F765VIT6 have DMA capability?
Yes, it has Direct Memory Access (DMA).Can STM32F765VIT6 be used in automotive applications?
Yes, it is suitable for automotive applications with its high performance and robust peripherals.What types of external memory does STM32F765VIT6 support?
It supports external SDRAM, NOR Flash, and NAND Flash.What is the maximum temperature range of STM32F765VIT6?
The operating temperature range is from -40°C to +105°C.Can STM32F765VIT6 be programmed using the ST-Link debugger?
Yes, STM32F765VIT6 can be programmed using ST-Link via SWD or JTAG interface.What types of communication interfaces are available on STM32F765VIT6?
It supports SPI, I2C, UART, and CAN interfaces.Does STM32F765VIT6 have built-in RTC functionality?
Yes, it has a Real-Time Clock (RTC) function.Is the STM32F765VIT6 suitable for use in industrial control systems?
Yes, its high performance, robust peripherals, and low power consumption make it ideal for industrial control systems.What is the power consumption of the STM32F765VIT6?
Power consumption is low, but it varies based on the operating mode and peripherals used.Is there support for capacitive touch sensing in STM32F765VIT6?
Yes, it supports capacitive touch sensing via dedicated touch sensing channels.