STM32F205VET6 Detailed explanation of pin function specifications and circuit principle instructions
The "STM32F205VET6" is a part of the STM32F2 series microcontrollers, which are designed and produced by STMicroelectronics. It is based on the ARM Cortex-M3 core and offers high performance and a wide range of peripherals. Let's break down the detailed information you requested.
1. Package Information
The STM32F205VET6 comes in a LQFP (Low-profile Quad Flat Package), with 100 pins.
2. Pin Function Specifications and Circuit Principle Instructions
Here is a detailed explanation of the pin functions of the STM32F205VET6 (100 pins). This will include the function of each pin, with a brief description of its usage.
Pinout Description Table: Pin No Pin Name Pin Function Description 1 VDD Power supply pin (3.3V). Connect to the positive voltage of the power source. 2 VSS Ground pin. Connect to the system ground. 3 NC No connection. This pin is not connected internally. 4 NRST Reset input. Active-low pin for external reset. 5 TMS (JTAG) JTAG Test Mode Select. Used for debugging and programming. 6 TCK (JTAG) JTAG Test Clock . Used for JTAG debugging. 7 TDI (JTAG) JTAG Test Data Input. Used for JTAG debugging. 8 TDO (JTAG) JTAG Test Data Output. Used for JTAG debugging. 9 VREF+ Reference voltage for ADC. Connect to the external reference voltage if required. 10 VREF- Reference ground for ADC. Connect to ground. 11 PA0 General-purpose I/O, can be configured for different functions like GPIO, ADC, or USART1_RX. 12 PA1 General-purpose I/O, can be configured for different functions like GPIO, ADC, or USART1_TX. 13 PA2 General-purpose I/O, can be used for USART2_TX or other functions. 14 PA3 General-purpose I/O, can be used for USART2_RX or other functions. 15 PA4 General-purpose I/O, can be used for SPI1_CSN or other functions. 16 PA5 General-purpose I/O, can be used for SPI1_SCK or other functions. 17 PA6 General-purpose I/O, can be used for SPI1_MISO or other functions. 18 PA7 General-purpose I/O, can be used for SPI1_MOSI or other functions. 19 PB0 General-purpose I/O, can be used for various functions like Timer or GPIO. 20 PB1 General-purpose I/O, can be used for various functions like Timer or GPIO. 21 PB2 General-purpose I/O, can be used for external interrupt or other functions. 22 PB3 General-purpose I/O, can be used for external interrupt or other functions. 23 PB4 General-purpose I/O, can be used for external interrupt or other functions. 24 PB5 General-purpose I/O, can be used for external interrupt or other functions. 25 PB6 General-purpose I/O, can be used for USART1_TX or other functions. 26 PB7 General-purpose I/O, can be used for USART1_RX or other functions. 27 PB8 General-purpose I/O, can be used for I2C1_SCL or other functions. 28 PB9 General-purpose I/O, can be used for I2C1_SDA or other functions. 29 PC0 General-purpose I/O, can be used for ADC, or other digital functions. 30 PC1 General-purpose I/O, can be used for ADC, or other digital functions. 31 PC2 General-purpose I/O, can be used for ADC, or other digital functions. 32 PC3 General-purpose I/O, can be used for ADC, or other digital functions. 33 PC4 General-purpose I/O, can be used for ADC, or other digital functions. 34 PC5 General-purpose I/O, can be used for ADC, or other digital functions. 35 PD0 General-purpose I/O, can be used for external interrupt or other functions. 36 PD1 General-purpose I/O, can be used for external interrupt or other functions. 37 PD2 General-purpose I/O, can be used for external interrupt or other functions. 38 PD3 General-purpose I/O, can be used for external interrupt or other functions. 39 PD4 General-purpose I/O, can be used for external interrupt or other functions. 40 PD5 General-purpose I/O, can be used for external interrupt or other functions. 41 PD6 General-purpose I/O, can be used for external interrupt or other functions. 42 PD7 General-purpose I/O, can be used for external interrupt or other functions. 43 PE0 General-purpose I/O, can be used for external interrupt or other functions. 44 PE1 General-purpose I/O, can be used for external interrupt or other functions. 45 PE2 General-purpose I/O, can be used for external interrupt or other functions. 46 PE3 General-purpose I/O, can be used for external interrupt or other functions. 47 PE4 General-purpose I/O, can be used for external interrupt or other functions. 48 PE5 General-purpose I/O, can be used for external interrupt or other functions. 49 PE6 General-purpose I/O, can be used for external interrupt or other functions. 50 PE7 General-purpose I/O, can be used for external interrupt or other functions. 51 PF0 General-purpose I/O, can be used for external interrupt or other functions. 52 PF1 General-purpose I/O, can be used for external interrupt or other functions. 53 PF2 General-purpose I/O, can be used for external interrupt or other functions. 54 PF3 General-purpose I/O, can be used for external interrupt or other functions. 55 PF4 General-purpose I/O, can be used for external interrupt or other functions. 56 PF5 General-purpose I/O, can be used for external interrupt or other functions. 57 PF6 General-purpose I/O, can be used for external interrupt or other functions. 58 PF7 General-purpose I/O, can be used for external interrupt or other functions. 59 PF8 General-purpose I/O, can be used for external interrupt or other functions. 60 PF9 General-purpose I/O, can be used for external interrupt or other functions. 61 PF10 General-purpose I/O, can be used for external interrupt or other functions. 62 PF11 General-purpose I/O, can be used for external interrupt or other functions. 63 PF12 General-purpose I/O, can be used for external interrupt or other functions. 64 PF13 General-purpose I/O, can be used for external interrupt or other functions. 65 PF14 General-purpose I/O, can be used for external interrupt or other functions. 66 PF15 General-purpose I/O, can be used for external interrupt or other functions. 67 PG0 General-purpose I/O, can be used for external interrupt or other functions. 68 PG1 General-purpose I/O, can be used for external interrupt or other functions. 69 PG2 General-purpose I/O, can be used for external interrupt or other functions. 70 PG3 General-purpose I/O, can be used for external interrupt or other functions. 71 PG4 General-purpose I/O, can be used for external interrupt or other functions. 72 PG5 General-purpose I/O, can be used for external interrupt or other functions. 73 PG6 General-purpose I/O, can be used for external interrupt or other functions. 74 PG7 General-purpose I/O, can be used for external interrupt or other functions. 75 PG8 General-purpose I/O, can be used for external interrupt or other functions. 76 PG9 General-purpose I/O, can be used for external interrupt or other functions. 77 PG10 General-purpose I/O, can be used for external interrupt or other functions. 78 PG11 General-purpose I/O, can be used for external interrupt or other functions. 79 PG12 General-purpose I/O, can be used for external interrupt or other functions. 80 PG13 General-purpose I/O, can be used for external interrupt or other functions. 81 PG14 General-purpose I/O, can be used for external interrupt or other functions. 82 PG15 General-purpose I/O, can be used for external interrupt or other functions. 20 Common FAQ for STM32F205VET6:Q: What is the power supply voltage for STM32F205VET6? A: The STM32F205VET6 operates with a power supply voltage of 3.3V.
Q: What is the maximum frequency of the STM32F205VET6? A: The STM32F205VET6 can operate up to a maximum frequency of 120 MHz.
Q: How many GPIO pins does STM32F205VET6 have? A: The STM32F205VET6 has a total of 100 GPIO pins.
Q: Can I use the STM32F205VET6 for USB communication? A: Yes, the STM32F205VET6 supports USB 2.0 full-speed communication.
Q: How many ADC channels are available in STM32F205VET6? A: The STM32F205VET6 has 16 ADC channels.
Q: Does STM32F205VET6 support JTAG debugging? A: Yes, STM32F205VET6 supports JTAG debugging via the TDI, TDO, TMS, and TCK pins.
Q: What is the available flash memory size for STM32F205VET6? A: STM32F205VET6 has 512 KB of Flash memory.
Q: How much SRAM is available in STM32F205VET6? A: The STM32F205VET6 has 128 KB of SRAM.
Q: Can STM32F205VET6 operate in low-power modes? A: Yes, STM32F205VET6 supports several low-power modes, including sleep and standby modes.
Q: Does STM32F205VET6 have a DAC? A: Yes, the STM32F205VET6 has a 12-bit DAC (Digital-to-Analog Converter).
Q: How many timers does STM32F205VET6 have? A: STM32F205VET6 has 6 timers (3 basic timers, 2 general-purpose timers, and 1 advanced-control timer).
Q: What is the maximum temperature for STM32F205VET6? A: The STM32F205VET6 can operate in a temperature range from -40°C to +85°C.
Q: Can STM32F205VET6 be used for motor control applications? A: Yes, STM32F205VET6 can be used for motor control with its advanced timers and PWM features.
Q: How many SPI interface s are available in STM32F205VET6? A: STM32F205VET6 has 3 SPI interfaces.
Q: Does STM32F205VET6 support I2C communication? A: Yes, STM32F205VET6 supports I2C communication with 2 I2C interfaces.
Q: Can STM32F205VET6 be used for audio processing? A: Yes, STM32F205VET6 has features like I2S that make it suitable for audio applications.
Q: How many UART interfaces are available in STM32F205VET6? A: STM32F205VET6 has 4 UART interfaces.
Q: Does STM32F205VET6 support CAN communication? A: Yes, STM32F205VET6 supports 2 CAN interfaces.
Q: What is the storage option for STM32F205VET6? A: STM32F205VET6 supports both external Flash and EEPROM via its I2C and SPI interfaces.
Q: What is the size of the package for STM32F205VET6? A: STM32F205VET6 comes in a 100-pin LQFP package.
This detailed table and FAQ provide an extensive overview of the STM32F205VET6 microcontroller's pins and functionalities. The total pin count and their respective roles are crucial for designing your systems.
