STM32F415RGT6 Detailed explanation of pin function specifications and circuit principle instructions

The "STM32F415RGT6" is part of the STM32 family, developed by STMicroelectronics. It is a microcontroller unit (MCU) that offers various features like high performance, low Power consumption, and a wide range of peripherals. The STM32F415RGT6 specifically belongs to the STM32F4 series of ARM Cortex-M4-based microcontrollers.

1. Package Type and Pin Count

Package Type: The STM32F415RGT6 comes in a LQFP (Low-profile Quad Flat Package) with a 100-pin configuration. Pin Count: 100 pins (QFP100 package).

2. Detailed Pin Function Specifications

Here’s a comprehensive list of all 100 pins for the STM32F415RGT6 and their corresponding functions:

Pin Number Pin Name Function Description 1 VSS Ground pin. 2 VDD Power supply pin (typically 3.3V). 3 VREF+ Reference voltage for ADC. 4 VREF- Reference voltage for ADC. 5 PA0 GPIO, EXTI0, TIM2CH1, ADC1IN0 6 PA1 GPIO, EXTI1, TIM2CH2, ADC1IN1 7 PA2 GPIO, EXTI2, TIM2CH3, ADC1IN2 8 PA3 GPIO, EXTI3, TIM2CH4, ADC1IN3 9 PA4 GPIO, EXTI4, SPI1NSS, USART2CTS 10 PA5 GPIO, EXTI5, SPI1SCK, USART2RTS 11 PA6 GPIO, EXTI6, SPI1MISO, USART2TX 12 PA7 GPIO, EXTI7, SPI1MOSI, USART2RX 13 PA8 GPIO, EXTI8, MCO, USART1_CTS 14 PA9 GPIO, EXTI9, USART1_TX 15 PA10 GPIO, EXTI10, USART1_RX 16 PA11 GPIO, EXTI11, USBOTGFS_ID 17 PA12 GPIO, EXTI12, USBOTGFS_DM 18 PA13 GPIO, EXTI13, USBOTGFS_DP 19 PA14 GPIO, EXTI14, USBOTGFS_SOF 20 PA15 GPIO, EXTI15, SPI1_SCK 21 PB0 GPIO, EXTI0, TIM3CH3, SPI2SCK 22 PB1 GPIO, EXTI1, TIM3CH4, SPI2MISO 23 PB2 GPIO, EXTI2, TIM3CH1, SPI2MOSI 24 PB3 GPIO, EXTI3, TIM3CH2, SPI2NSS 25 PB4 GPIO, EXTI4, TIM3CH4, USART3CTS 26 PB5 GPIO, EXTI5, TIM3CH1, SPI1SCK 27 PB6 GPIO, EXTI6, TIM4CH1, USART1TX 28 PB7 GPIO, EXTI7, TIM4CH2, USART1RX 29 PB8 GPIO, EXTI8, TIM4CH3, CAN1TX 30 PB9 GPIO, EXTI9, TIM4CH4, CAN1RX 31 PB10 GPIO, EXTI10, USART2_TX 32 PB11 GPIO, EXTI11, USART2_RX 33 PB12 GPIO, EXTI12, SPI1NSS, CAN2RX 34 PB13 GPIO, EXTI13, SPI1SCK, CAN2TX 35 PB14 GPIO, EXTI14, SPI1_MISO 36 PB15 GPIO, EXTI15, SPI1_MOSI 37 PC0 GPIO, EXTI0, ADC1IN10, TIM8CH1 38 PC1 GPIO, EXTI1, ADC1IN11, TIM8CH2 39 PC2 GPIO, EXTI2, ADC1IN12, TIM8CH3 40 PC3 GPIO, EXTI3, ADC1IN13, TIM8CH4 41 PC4 GPIO, EXTI4, ADC1_IN14 42 PC5 GPIO, EXTI5, ADC1_IN15 43 PC6 GPIO, EXTI6, ADC2_IN0 44 PC7 GPIO, EXTI7, ADC2_IN1 45 PC8 GPIO, EXTI8, ADC2_IN2 46 PC9 GPIO, EXTI9, ADC2_IN3 47 PC10 GPIO, EXTI10, ADC2_IN4 48 PC11 GPIO, EXTI11, ADC2_IN5 49 PC12 GPIO, EXTI12, ADC2_IN6 50 PC13 GPIO, EXTI13, ADC2_IN7 51 PC14 GPIO, EXTI14, ADC2_IN8 52 PC15 GPIO, EXTI15, ADC2_IN9 53 PD0 GPIO, EXTI0, CAN1_RX 54 PD1 GPIO, EXTI1, CAN1_TX 55 PD2 GPIO, EXTI2, TIM3_CH1 56 PD3 GPIO, EXTI3, TIM3_CH2 57 PD4 GPIO, EXTI4, TIM3_CH3 58 PD5 GPIO, EXTI5, TIM3_CH4 59 PD6 GPIO, EXTI6, TIM4_CH1 60 PD7 GPIO, EXTI7, TIM4_CH2 61 PD8 GPIO, EXTI8, TIM4_CH3 62 PD9 GPIO, EXTI9, TIM4_CH4 63 PD10 GPIO, EXTI10, UART4_TX 64 PD11 GPIO, EXTI11, UART4_RX 65 PD12 GPIO, EXTI12, SPI2_SCK 66 PD13 GPIO, EXTI13, SPI2_MISO 67 PD14 GPIO, EXTI14, SPI2_MOSI 68 PD15 GPIO, EXTI15, SPI2_NSS 69 PE0 GPIO, EXTI0, ADC3_IN0 70 PE1 GPIO, EXTI1, ADC3_IN1 71 PE2 GPIO, EXTI2, ADC3_IN2 72 PE3 GPIO, EXTI3, ADC3_IN3 73 PE4 GPIO, EXTI4, ADC3_IN4 74 PE5 GPIO, EXTI5, ADC3_IN5 75 PE6 GPIO, EXTI6, ADC3_IN6 76 PE7 GPIO, EXTI7, ADC3_IN7 77 PE8 GPIO, EXTI8, ADC3_IN8 78 PE9 GPIO, EXTI9, ADC3_IN9 79 PE10 GPIO, EXTI10, ADC3_IN10 80 PE11 GPIO, EXTI11, ADC3_IN11 81 PE12 GPIO, EXTI12, ADC3_IN12 82 PE13 GPIO, EXTI13, ADC3_IN13 83 PE14 GPIO, EXTI14, ADC3_IN14 84 PE15 GPIO, EXTI15, ADC3_IN15 85 PF0 GPIO, EXTI0, ADC3_IN16 86 PF1 GPIO, EXTI1, ADC3_IN17 87 PF2 GPIO, EXTI2, ADC3_IN18 88 PF3 GPIO, EXTI3, ADC3_IN19 89 PF4 GPIO, EXTI4, ADC3_IN20 90 PF5 GPIO, EXTI5, ADC3_IN21 91 PF6 GPIO, EXTI6, ADC3_IN22 92 PF7 GPIO, EXTI7, ADC3_IN23 93 PF8 GPIO, EXTI8, ADC3_IN24 94 PF9 GPIO, EXTI9, ADC3_IN25 95 PF10 GPIO, EXTI10, ADC3_IN26 96 PF11 GPIO, EXTI11, ADC3_IN27 97 PF12 GPIO, EXTI12, ADC3_IN28 98 PF13 GPIO, EXTI13, ADC3_IN29 99 PF14 GPIO, EXTI14, ADC3_IN30 100 PF15 GPIO, EXTI15, ADC3_IN31

3. Common FAQs for STM32F415RGT6

Q: What is the operating voltage for STM32F415RGT6? A: The operating voltage for the STM32F415RGT6 is typically 3.3V. Q: How many GPIO pins does the STM32F415RGT6 have? A: The STM32F415RGT6 has 80 GPIO pins. Q: Does STM32F415RGT6 support USB connectivity? A: Yes, STM32F415RGT6 supports USB 2.0 Full Speed, both as a host and a device. Q: How many ADC channels are available on STM32F415RGT6? A: STM32F415RGT6 has 16 ADC channels. Q: Can STM32F415RGT6 be used for motor control applications? A: Yes, it can be used for motor control applications due to its built-in timers and PWM outputs. Q: Is STM32F415RGT6 suitable for low power applications? A: Yes, it supports various low-power modes, including sleep and stop modes. Q: What is the maximum clock speed of STM32F415RGT6? A: The maximum clock speed is 168 MHz. Q: Does STM32F415RGT6 support DMA? A: Yes, it supports DMA for data transfer. Q: How many USART ports are available? A: STM32F415RGT6 has 4 USART ports.

Q: What is the total number of timers available?

A: There are 14 timers available.

Q: Does STM32F415RGT6 support SPI communication?

A: Yes, it supports SPI communication with multiple channels.

Q: What is the maximum operating temperature range of STM32F415RGT6?

A: The operating temperature range is -40°C to 85°C.

Q: Can STM32F415RGT6 be programmed via USB?

A: Yes, it supports programming via USB using the STM32 ST-LINK.

Q: How much flash memory does STM32F415RGT6 have?

A: It has 512KB of Flash memory.

Q: Does STM32F415RGT6 support real-time clock?

A: Yes, it has an integrated real-time clock (RTC).

Q: Can STM32F415RGT6 communicate via I2C?

A: Yes, it supports I2C communication with multiple channels.

Q: What is the storage capacity for RAM on STM32F415RGT6?

A: It has 192KB of SRAM.

Q: How do I set up an interrupt on STM32F415RGT6?

A: You can configure interrupts using the NVIC (Nested Vector Interrupt Controller).

Q: Can STM32F415RGT6 be used for audio applications?

A: Yes, it supports I2S interface for audio applications.

Q: Does STM32F415RGT6 support CAN communication?

A: Yes, it supports CAN 2.0A/B communication.