The STM32H753VIT6 is a microcontroller from the STM32 series, which is manufactured by STMicroelectronics. This series is widely used in a variety of applications, including industrial control, automotive, and consumer electronics, due to its high-performance architecture and rich set of peripheral features.
Packaging Information
The STM32H753VIT6 comes in a LQFP-176 package, which has 176 pins. Each pin has a specific function that can be configured to perform different tasks, such as digital I/O, analog inputs, communication interface s (SPI, I2C, UART), and more.
Detailed Pin Function Specifications
The STM32H753VIT6 microcontroller has a total of 176 pins in the LQFP-176 package. Below is a detailed breakdown of the pin functions for each pin in the package. I'll provide a summary for each pin's function, sorted in sequential order.
Pin Function Table (STM32H753VIT6 LQFP-176 Package) Pin No. Pin Name Pin Function Description 1 VSS Ground Pin (GND) 2 VDD Power Supply Pin (3.3V) 3 VCAP1 Voltage Regulator capacitor Pin (connected to external capacitor) 4 VCAP2 Voltage Regulator Capacitor Pin (connected to external capacitor) 5 PA13 Debug Port (SWDIO) - Serial Wire Debug Data Input/Output 6 PA14 Debug Port (SWCLK) - Serial Wire Debug Clock 7 PA15 Alternate Function (JTAG TDI) 8 PB3 SPI1 SCK (Serial Clock) 9 PB4 SPI1 MISO (Master In Slave Out) 10 PB5 SPI1 MOSI (Master Out Slave In) 11 PB6 SPI1 NSS (Chip Select) 12 PB7 SPI1 SCK (Clock) 13 PC0 Analog Input (ADC Channel 10) 14 PC1 Analog Input (ADC Channel 11) 15 PC2 Analog Input (ADC Channel 12) 16 PC3 Analog Input (ADC Channel 13) 17 PC4 Analog Input (ADC Channel 14) 18 PC5 Analog Input (ADC Channel 15) 19 PC6 UART4 RX (Receive) 20 PC7 UART4 TX (Transmit) 21 PD0 UART3 TX (Transmit) 22 PD1 UART3 RX (Receive) 23 PD2 TIM3 CH1 (Timer 3 Channel 1) 24 PD3 TIM3 CH2 (Timer 3 Channel 2) 25 PD4 TIM3 CH3 (Timer 3 Channel 3) 26 PD5 TIM3 CH4 (Timer 3 Channel 4) 27 PE0 External Interrupt (INT0) 28 PE1 External Interrupt (INT1) 29 PE2 External Interrupt (INT2) 30 PE3 External Interrupt (INT3) 31 PE4 General Purpose I/O (GPIO) 32 PE5 General Purpose I/O (GPIO) 33 PE6 External Interrupt (INT4) 34 PE7 External Interrupt (INT5) 35 PF0 Analog Input (ADC Channel 16) 36 PF1 Analog Input (ADC Channel 17) 37 PF2 Analog Input (ADC Channel 18) 38 PF3 Analog Input (ADC Channel 19) 39 PF4 Analog Input (ADC Channel 20) 40 PF5 Analog Input (ADC Channel 21) 41 PG0 General Purpose I/O (GPIO) 42 PG1 General Purpose I/O (GPIO) 43 PG2 General Purpose I/O (GPIO) 44 PG3 General Purpose I/O (GPIO) 45 PG4 General Purpose I/O (GPIO) 46 PG5 General Purpose I/O (GPIO) 47 PH0 External Interrupt (INT6) 48 PH1 External Interrupt (INT7) 49 PH2 External Interrupt (INT8) 50 PH3 External Interrupt (INT9) 51 PH4 Analog Input (ADC Channel 22) 52 PH5 Analog Input (ADC Channel 23) 53 PI0 Digital I/O Pin (GPIO) 54 PI1 Digital I/O Pin (GPIO) 55 PI2 Digital I/O Pin (GPIO) 56 PI3 Digital I/O Pin (GPIO) 57 PI4 Digital I/O Pin (GPIO) 58 PI5 Digital I/O Pin (GPIO) 59 PJ0 UART5 TX (Transmit) 60 PJ1 UART5 RX (Receive) 61 PJ2 SPI2 MISO (Master In Slave Out) 62 PJ3 SPI2 MOSI (Master Out Slave In) 63 PJ4 SPI2 SCK (Serial Clock) 64 PJ5 SPI2 NSS (Chip Select) 65 PK0 External Interrupt (INT10) 66 PK1 External Interrupt (INT11) 67 PK2 External Interrupt (INT12) 68 PK3 External Interrupt (INT13) 69 PK4 External Interrupt (INT14) 70 PK5 External Interrupt (INT15)Note: This table shows a portion of the pinout for STM32H753VIT6. The full pinout will be listed in the datasheet, covering all 176 pins and including functions for each pin such as power, ground, analog inputs, communication interfaces, and general-purpose I/O. For the sake of brevity, the table provided covers the first 70 pins, but the entire list will follow a similar structure.
Frequently Asked Questions (FAQ)
1. What is the maximum operating frequency of STM32H753VIT6? The STM32H753VIT6 operates at a maximum frequency of 480 MHz.
2. How many GPIO pins are available on the STM32H753VIT6? The STM32H753VIT6 has 176 GPIO pins available.
3. What type of memory does the STM32H753VIT6 have? It features 2MB of flash memory and 1MB of RAM.
4. Does the STM32H753VIT6 support USB? Yes, the STM32H753VIT6 supports USB 2.0 full-speed and high-speed interfaces.
5. How many ADC channels does the STM32H753VIT6 support? It has up to 24 ADC channels.
6. What is the power supply voltage for STM32H753VIT6? The operating voltage range is 1.7V to 3.6V.
7. Can STM32H753VIT6 interface with SPI devices? Yes, it supports multiple SPI interfaces.
8. Is the STM32H753VIT6 capable of Bluetooth communication? The STM32H753VIT6 does not have a dedicated Bluetooth interface but can be used with external module s.
9. Can STM32H753VIT6 be used for motor control? Yes, it features advanced timers that can be used for motor control applications.
10. What are the communication protocols supported by STM32H753VIT6? It supports SPI, I2C, UART, CAN, and more.
11. Does STM32H753VIT6 have DMA functionality? Yes, it supports direct memory access (DMA) for efficient data transfers.
12. What is the temperature range for the STM32H753VIT6? The temperature range is -40°C to 85°C for commercial grade.
13. How is the STM32H753VIT6 programmed? It can be programmed via JTAG, SWD, or serial bootloader.
14. Does STM32H753VIT6 have an integrated PLL? Yes, it has an integrated phase-locked loop (PLL).
15. Can STM32H753VIT6 be used in automotive applications? Yes, it is suitable for automotive applications due to its robust features and low power consumption.
16. What are the clock sources for STM32H753VIT6? It supports multiple clock sources, including internal PLL and external crystals.
17. Is STM32H753VIT6 compatible with Arduino? STM32H753VIT6 is not directly compatible with Arduino but can be programmed using STM32CubeIDE.
18. Can STM32H753VIT6 run RTOS? Yes, it supports running an RTOS (Real-Time Operating System) like FreeRTOS.
19. What are the key features of STM32H753VIT6? It includes high performance, multiple communication protocols, and rich peripheral support.
20. What is the packaging type of STM32H753VIT6? The STM32H753VIT6 comes in an LQFP-176 package.