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STM32F103RBT6 芯片 引脚
STM32F103RBT6芯片是如何去命名的?
STM32F103RBT6芯片有哪些引脚呢?
回帖(1)
2022-1-25 09:37:39
内容
STM32F103RBT6芯片
命名
原理图
STM32F103RBT6引脚
STM32F103RBT6
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| ADC | TIM | SPI | I2C | USART | USB/CAN |
| WKUP | PA0 | ADC0 | TIM2_CH1_ETR |
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| PA1 | ADC1 | TIM2_CH2 |
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| PA2
| ADC2 | TIM2_CH3 |
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| U2_TX |
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| PA3 | ADC3 | TIM2_CH4 |
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| U2_RX |
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| PA4 | ADC4 |
| SPI1_NSS |
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| PA5 | ADC5 |
| SPI1_CLK |
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| PA6 | ADC6 | TIM3_CH1 | SPI1_MISO |
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| PA7 | ADC7 | TIM3_CH2 | SPI1_MOSI |
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| MCO | PA8 |
| TIM1_CH1 |
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| PA9 |
| TIM1_CH2 |
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| U1_TX |
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| PA10 |
| TIM1_CH3 |
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| U1_RX |
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| PA11 |
| TIM1_CH4 |
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| USBDM/CAN_RX |
| PA12 |
| TIM1_ETR |
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| USBDM/CAN_TX |
| JTMS/SWDIO | PA13 |
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| JTCK/SWCLK | PA14 |
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| JTDI | PA15 |
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| PB0 | ADC8 | TIM3_CH3 |
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| PB1 | ADC9 | TIM3_CH4 |
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| BOOT1 | PB2 |
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| JIDO/TRACESWO | PB3 |
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| JNTRST | PB4 |
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| PB5 |
| TIM4_CH1 |
| I2C1_SMBAI |
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| PB6 |
| TIM4_CH2 |
| I2C1_SCL |
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| PB7 |
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| I2C1_SDA |
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| PB8 |
| TIM4_CH3 |
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| PB9 |
| TIM4_CH4 |
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| PB10 |
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| I2C2_SCL | U3_TX |
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| PB11 |
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| I2C2_SDA | U3_RX |
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| PB12 |
| TIM1_BKIN1 | SPI2_NSS | I2C1_SMBAI |
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| PB13 |
| TIM1_CH1N | SPI2_SCK |
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| PB14 |
| TIM1_CH2N | SPI2_MISO |
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| PB15 |
| TIM1_CH3N | SPI2_MOSI |
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| PC0 | ADC10 |
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| PC1 | ADC11 |
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| PC2 | ADC12 |
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| PC3 | ADC13 |
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| PC4 | ADC14 |
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| PC5 | ADC15 |
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| PC6 |
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| PC7 |
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| PC8 |
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| PC9 |
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| PC10 |
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| PC11 |
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| PC12 |
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| PC13 |
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| SOC32 | PC14 |
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| SOC32 | PC15 |
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| OSCIN | PD0 |
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| OSCOUT | PD1 |
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| PD2 |
| TIM3_ETR |
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TFT LCD芯片
原理图
TFT-LCD是薄膜晶体管液晶显示器英文Thin Film Transistor-Liquid Crystal Display字头的缩写。
CS: OLED 片选信号。
WR:向 OLED 写入数据。
RD:从 OLED 读取数据。
RST(RES):硬复位 OLED。
D[15: 0] 16 位双向数据线
使用流程
1.将与 TFTLCD 模块相连的 IO 口进行初始化 ;
2.初始化 TFTLCD 模块:向 LCD 控制器写入一系列的设置值;(比如伽马校准等)
3.通过函数将字符和数字显示到 TFTLCD 模块上,如下,即:设置坐标→写 GRAM 指令→写 GRAM 。
M74HC573M1R芯片
原理图
从电路分析主要用于对指示灯信号的锁存以及控制。
内容
STM32F103RBT6芯片
命名
原理图
STM32F103RBT6引脚
STM32F103RBT6
|
| ADC | TIM | SPI | I2C | USART | USB/CAN |
| WKUP | PA0 | ADC0 | TIM2_CH1_ETR |
|
|
|
|
| PA1 | ADC1 | TIM2_CH2 |
|
|
|
|
| PA2
| ADC2 | TIM2_CH3 |
|
| U2_TX |
|
| PA3 | ADC3 | TIM2_CH4 |
|
| U2_RX |
|
| PA4 | ADC4 |
| SPI1_NSS |
|
|
|
| PA5 | ADC5 |
| SPI1_CLK |
|
|
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| PA6 | ADC6 | TIM3_CH1 | SPI1_MISO |
|
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| PA7 | ADC7 | TIM3_CH2 | SPI1_MOSI |
|
|
|
| MCO | PA8 |
| TIM1_CH1 |
|
|
|
|
| PA9 |
| TIM1_CH2 |
|
| U1_TX |
|
| PA10 |
| TIM1_CH3 |
|
| U1_RX |
|
| PA11 |
| TIM1_CH4 |
|
|
| USBDM/CAN_RX |
| PA12 |
| TIM1_ETR |
|
|
| USBDM/CAN_TX |
| JTMS/SWDIO | PA13 |
|
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| JTCK/SWCLK | PA14 |
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| JTDI | PA15 |
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| PB0 | ADC8 | TIM3_CH3 |
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| PB1 | ADC9 | TIM3_CH4 |
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| BOOT1 | PB2 |
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| JIDO/TRACESWO | PB3 |
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| JNTRST | PB4 |
|
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| PB5 |
| TIM4_CH1 |
| I2C1_SMBAI |
|
|
| PB6 |
| TIM4_CH2 |
| I2C1_SCL |
|
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| PB7 |
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| I2C1_SDA |
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| PB8 |
| TIM4_CH3 |
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| PB9 |
| TIM4_CH4 |
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| PB10 |
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| I2C2_SCL | U3_TX |
|
| PB11 |
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| I2C2_SDA | U3_RX |
|
| PB12 |
| TIM1_BKIN1 | SPI2_NSS | I2C1_SMBAI |
|
|
| PB13 |
| TIM1_CH1N | SPI2_SCK |
|
|
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| PB14 |
| TIM1_CH2N | SPI2_MISO |
|
|
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| PB15 |
| TIM1_CH3N | SPI2_MOSI |
|
|
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| PC0 | ADC10 |
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| PC1 | ADC11 |
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| PC2 | ADC12 |
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| PC3 | ADC13 |
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| PC4 | ADC14 |
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| PC5 | ADC15 |
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| PC6 |
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| PC7 |
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| PC8 |
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| PC9 |
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| PC10 |
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| PC11 |
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| PC12 |
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| PC13 |
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| SOC32 | PC14 |
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| SOC32 | PC15 |
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| OSCIN | PD0 |
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| OSCOUT | PD1 |
|
|
|
|
|
|
| PD2 |
| TIM3_ETR |
|
|
|
|
TFT LCD芯片
原理图
TFT-LCD是薄膜晶体管液晶显示器英文Thin Film Transistor-Liquid Crystal Display字头的缩写。
CS: OLED 片选信号。
WR:向 OLED 写入数据。
RD:从 OLED 读取数据。
RST(RES):硬复位 OLED。
D[15: 0] 16 位双向数据线
使用流程
1.将与 TFTLCD 模块相连的 IO 口进行初始化 ;
2.初始化 TFTLCD 模块:向 LCD 控制器写入一系列的设置值;(比如伽马校准等)
3.通过函数将字符和数字显示到 TFTLCD 模块上,如下,即:设置坐标→写 GRAM 指令→写 GRAM 。
M74HC573M1R芯片
原理图
从电路分析主要用于对指示灯信号的锁存以及控制。
举报
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