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STM32G030C8T6 datasheet, pinout & reference manual
- Marken: STMicroelectronics
- Herunterladen: STM32G030C8T6 Datasheet PDF
- Preis: Anfrage
- Auf Lager: 18,250
- Kernprozessor: ARM® Cortex®-M0+
- Kerngröße: 32-Bit-Einzelkern
- Peripheriegeräte: DMA, I²S, POR, PWM, WDT
- Paket: 48-LQFP
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STM32G030C8T6 Pinout
The STM32G030C8T6 is a 32-bit ARM Cortex-M0+ microcontroller from STMicroelectronics, housed in a 48-pin LQFP package. The following table provides a comprehensive pinout reference, detailing pin numbers, names, and associated alternate functions, including ADC channels, communication interfaces (SPI, I2C, USART), timers, and system functions. This pin mapping helps engineers and developers integrate the MCU effectively into a wide range of embedded applications.
| No. | Pin-Name | Funktionen |
|---|---|---|
| 1 | PC13 | TIM1_BK, TAMP_IN1, RTC_TS, RTC_OUT1, WKUP2 |
| 2 | PC14 – OSC32_IN | TIM1_BK2, OSC32_IN |
| 3 | PC15 – OSC32_OUT | OSC32_EN, OSC_EN, OSC32_OUT |
| 4 | VBAT | VBAT |
| 5 | VREF+ | – |
| 6 | VDD/VVDA | – |
| 7 | VSS/VSSA | – |
| 8 | PF0 – OSC_IN | TIM14_CH1, OSC_IN |
| 9 | PF1 – OSC_OUT | OSC_EN, OSC_OUT |
| 10 | NRST | NRST |
| 11 | PA0 | SPI2_SCK, USART2_CTS, ADC_IN0, TAMP_IN2, WKUP1 |
| 12 | PA1 | SPI1_SCK, USART2_RTS_DE_CK, I2C1_SMBA, EVENTOUT, ADC_IN1 |
| 13 | PA2 | SPI1_MOSI, USART2_TX, ADC_IN2, WKUP4, LSCO |
| 14 | PA3 | SPI2_MISO, USART2_RX, EVENTOUT, ADC_IN3 |
| 15 | PA4 | SPI1_NSS, SPI2_MOSI, TIM14_CH1, EVENTOUT, ADC_IN4, RTC_OUT2 |
| 16 | PA5 | SPI1_SCK, EVENTOUT, ADC_IN5 |
| 17 | PA6 | SPI1_MISO, TIM3_CH1, TIM1_BK, TIM16_CH1, ADC_IN6 |
| 18 | PA7 | SPI1_MOSI, TIM3_CH2, TIM1_CH1N, TIM14_CH1, TIM17_CH1, ADC_IN7 |
| 19 | PB0 | SPI1_NSS, TIM3_CH3, TIM1_CH2N, ADC_IN8 |
| 20 | PB1 | TIM14_CH1, TIM3_CH4, TIM1_CH3N, EVENTOUT, ADC_IN9 |
| 21 | PB2 | SPI2_MISO, EVENTOUT, ADC_IN10 |
| 22 | PB10 | SPI2_SCK, I2C2_SCL, ADC_IN11 |
| 23 | PB11 | SPI2_MOSI, I2C2_SDA, ADC_IN15 |
| 24 | PB12 | SPI2_NSS, TIM1_BK, EVENTOUT, ADC_IN16 |
| 25 | PB13 | SPI2_SCK, TIM1_CH1N, I2C2_SCL, EVENTOUT |
| 26 | PB14 | SPI2_MISO, TIM1_CH2N, I2C2_SDA, EVENTOUT |
| 27 | PB15 | SPI2_MOSI, TIM1_CH3N, EVENTOUT, RTC_REFIN |
| 28 | PA8 | MCO, SPI2_NSS, TIM1_CH1, EVENTOUT |
| 29 | PA9 | MCO, USART1_TX, TIM1_CH2, SPI2_MISO, I2C1_SCL, EVENTOUT |
| 30 | PC6 | TIM3_CH1 |
| 31 | PC7 | TIM3_CH2 |
| 32 | PA10 | SPI2_MOSI, USART1_RX, TIM1_CH3, TIM17_BK, I2C1_SDA, EVENTOUT |
| 33 | PA11 [PA9] | SPI1_MISO, USART1_CTS, TIM1_CH4, TIM1_BK2, I2C2_SCL |
| 34 | PA12 [PA10] | SPI1_MOSI, USART1_RTS_DE_CK, TIM1_ETR, I2S_CKIN, I2C2_SDA |
| 35 | PA13 | SWDIO, IR_OUT, EVENTOUT, ADC_IN17 |
| 36 | PA14 – BOOT0 | SWCLK, USART2_TX, EVENTOUT, ADC_IN18, BOOT0 |
| 37 | PA15 | SPI1_NSS, USART2_RX, EVENTOUT |
| 38 | PD0 | EVENTOUT, SPI2_NSS, TIM16_CH1 |
| 39 | PD1 | EVENTOUT, SPI2_SCK, TIM17_CH1 |
| 40 | PD2 | TIM3_ETR, TIM1_CH1N |
| 41 | PD3 | USART2_CTS, SPI2_MISO, TIM1_CH2N |
| 42 | PB3 | SPI1_SCK, TIM1_CH2, USART1_RTS_DE_CK, EVENTOUT |
| 43 | PB4 | SPI1_MISO, TIM3_CH1, USART1_CTS, TIM17_BK, EVENTOUT |
| 44 | PB5 | SPI1_MOSI, TIM3_CH2, TIM16_BK, I2C1_SMBA, WKUP6 |
| 45 | PB6 | USART1_TX, TIM1_CH3, TIM16_CH1N, SPI2_MISO, I2C1_SCL, EVENTOUT |
| 46 | PB7 | USART1_RX, SPI2_MOSI, TIM17_CH1N, I2C1_SDA, EVENTOUT |
| 47 | PB8 | SPI2_SCK, TIM16_CH1, I2C1_SCL, EVENTOUT |
| 48 | PB9 | IR_OUT, TIM17_CH1, SPI2_NSS, I2C1_SDA, EVENTOUT |
Understanding the full functionality of each pin on the STM32G030C8T6 is essential for optimal circuit design. Whether for low-power IoT nodes, motor control, or sensor interfacing, this pinout reference serves as a reliable guide to maximize the microcontroller’s flexibility and performance. Be sure to consider pin multiplexing and peripheral priorities when assigning functions in firmware.
FAQ
1. Can it operate at low voltage levels?
It operates with a supply voltage range of 2.0 V to 3.6 V, making it suitable for battery-powered and energy-efficient designs.
2. Does it have built-in bootloader support?
Yes, it includes a factory-embedded bootloader that enables programming over UART or other supported interfaces without requiring a debugger.
3. Is STM32CubeMX compatible with this MCU?
Absolutely. STM32G030C8T6 is fully supported in STM32CubeMX and STM32CubeIDE, simplifying configuration, code generation, and development workflows.
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