Please enable javascript, or click here to visit my ecommerce web site powered by Shopify.
Jump to: navigation, search

Difference between revisions of "Zero/hardware/gpio"

< Zero‎ | hardware
Line 43: Line 43:
 
|  
 
|  
 
| I2C_EE_M3_SDA
 
| I2C_EE_M3_SDA
| GPIOA_14
+
| GPIOA_14 (*)
 
| style="background-color:#008000; color:#FFF;" | 3
 
| style="background-color:#008000; color:#FFF;" | 3
 
|  
 
|  
Line 57: Line 57:
 
|  
 
|  
 
| I2C_EE_M3_SCL
 
| I2C_EE_M3_SCL
| GPIOA_15
+
| GPIOA_15 (*)
 
| style="background-color:#008000; color:#FFF;" | 5
 
| style="background-color:#008000; color:#FFF;" | 5
 
|  
 
|  
Line 309: Line 309:
 
* Pins marked with orange color are designed for debug console.
 
* Pins marked with orange color are designed for debug console.
 
* I2C: x3; I2C_EE_M1 (/dev/i2c-1), I2C_EE_M3 (/dev/i2c-3), I2C_AO_M0 (/dev/i2c-4)
 
* I2C: x3; I2C_EE_M1 (/dev/i2c-1), I2C_EE_M3 (/dev/i2c-3), I2C_AO_M0 (/dev/i2c-4)
 +
* (*) I2C_EE_M3 / GPIOA_14 & GPIOA_15 are connected to pull up resistors and the USB-C controller so cannot be used for general GPIO
 
* PWM: x3; PWMAO_A, PWM_C
 
* PWM: x3; PWMAO_A, PWM_C
 
* SPI: x2; SPI_A (/dev/spi0.0), SPI_B(/dev/spi1.0)
 
* SPI: x2; SPI_A (/dev/spi0.0), SPI_B(/dev/spi1.0)

Revision as of 15:04, 17 October 2022

 Radxa Zero >  Hardware >  GPIO

General purpose input-output (GPIO) connector

Radxa Zero has a 40-pin expansion header. Each pin is distinguished by color.

GPIO number Function4 Function3 Function2 Function1 Pin# Pin# Function1 Function2 Function3 Function4 GPIO number
+3.3V 1 2 +5.0V
490 I2C_EE_M3_SDA GPIOA_14 (*) 3 4 +5.0V
491 I2C_EE_M3_SCL GPIOA_15 (*) 5 6 GND
415 I2C_AO_S0_SDA UART_AO_B_RX I2C_AO_M0_SDA GPIOAO_3 7 8 GPIOAO_0 UART_AO_A_TXD 412
GND 9 10 GPIOAO_1 UART_AO_A_RXD 413
414 I2C_AO_S0_SCL UART_AO_B_TX I2C_AO_M0_SCL GPIOAO_2 11 12 GPIOX_9 SPI_A_MISO TDMA_D0 501
503 TDMA_SCLK I2C_EE_M1_SCL SPI_A_SCLK GPIOX_11 13 14 GND
SARADC_CH1 15 16 GPIOX_10 SPI_A_SS0 I2C_EE_M1_SDA TDMA_FS 502
+3.3V 17 18 GPIOX_8 SPI_A_MOSI PWM_C TDMA_D1 500
447 SPI_B_MOSI UART_EE_C_RTS GPIOH_4 19 20 GND
448 PWM_F SPI_B_MISO UART_EE_C_CTS GPIOH_5 21 22 GPIOC_7 - 475
450 I2C_EE_M1_SCL SPI_B_SCLK UART_EE_C_TX GPIOH_7 23 24 GPIOH_6 UART_EE_C_RX SPI_B_SS0 I2C_EE_M1_SDA 449
GND 25 26 SARADC_CH2
415 I2C_AO_S0_SDA UART_AO_B_RX I2C_AO_M0_SDA GPIOAO_3 27 28 GPIOAO_2 I2C_AO_M0_SCL UART_AO_B_TX I2C_AO_S0_SCL 414
NC 29 30 GND
NC 31 32 GPIOAO_4 PWMAO_C 416
NC 33 34 GND
420 UART_AO_B_TX GPIOAO_8 35 36 GPIOH_8 - 451
421 UART_AO_B_RX GPIOAO_9 37 38 GPIOAO_10 PWMAO_D 422
GND 39 40 GPIOAO_11 PWMAO_A 423

More details about 40-pin Header

  • Pins marked with orange color are designed for debug console.
  • I2C: x3; I2C_EE_M1 (/dev/i2c-1), I2C_EE_M3 (/dev/i2c-3), I2C_AO_M0 (/dev/i2c-4)
  • (*) I2C_EE_M3 / GPIOA_14 & GPIOA_15 are connected to pull up resistors and the USB-C controller so cannot be used for general GPIO
  • PWM: x3; PWMAO_A, PWM_C
  • SPI: x2; SPI_A (/dev/spi0.0), SPI_B(/dev/spi1.0)
  • UART: x3; UART_AO_A (/dev/ttyAML0), UART_AO_B (/dev/ttyAML1), UART_EE_C (/dev/ttyAML4)
  • Pin#22 (GPIOC_7) and Pin#36 (GPIOH_8) are open drain pins. This means for input they need to connected to either GND or VCC (floating state is undefined), for output they will need external pull up. Additionally GPIOH_8 runs on 5V logic.

GPIO number

  • GPIOs are grouped in two banks, GPIO AO domain and GPIO EE domain
    • AO domain: GPIOAO_0 - GPIOAO_11
    • EE domain: GPIOA_14 - GPIOA_15 | GPIOH_0 - GPIOH_8 | GPIOX_0 - GPIOX_19
  • UARTs
    • AO domain: UARTAO_A | UARTAO_B
    • EE domain: UART_A | UART_B | UART_C
GPIO Chip
GPIO Name
Base Offset Formula
First GPIOAO_x 412 0-11 Base + Offset
First GPIOE_x 424 0-2 Base + Offset
Second GPIOZ_x 427 0-15 Base + Offset
Second GPIOH_x 443 0-8 Base + Offset
Second BOOT_x 452 0-15 Base + Offset
Second GPIOC_x 468 0-7 Base + Offset
Second GPIOA_x 476 0-15 Base + Offset
Second GPIOX_x 492 0-19 Base + Offset

Take GPIOX_10 as an example.

The base is 492 and the offset is 10. So the GPIOX_10's GPIO number is 492+10=502.