Adafruit BBIO is an API to enable GPIO, PWM, ADC, UART, SPI and eQEP (Quadrature Encoder) hardware access from Python applications running on the Beaglebone.

• It is recommended to use an official BeagleBoard.org Debian image

  • Currently recommended image: Debian 10.3 "Buster" IoT (2020-04-06) (default kernel is 4.19.x-ti)

• Adafruit_BBIO supports Linux kernels 3.8 through 4.19

• New versions of Adafruit_BBIO may break backwards compatibility. Please read the changelog.

• It is recommended to use Python 3

Note: Follow the instructions on BeagleBoard.org to get connected to the Internet

Easiest:

sudo apt-get update sudo apt-get install build-essential python3-dev python3-pip -y sudo pip3 install Adafruit_BBIO 

Manual:

sudo apt-get update sudo apt-get install build-essential python3-dev python3-pip -y git clone git://github.com/adafruit/adafruit-beaglebone-io-python.git cd adafruit-beaglebone-io-python sudo python3 setup.py install 

Upgrade Adafruit_BBIO to latest version on PyPI:

sudo pip3 install --upgrade Adafruit_BBIO 

Using the library is very similar to the excellent RPi.GPIO library used on the Raspberry Pi. Below are some examples.

Please note that there is no '0' prefix for the pin numbers. For example, pin 7 on header P8 is P8_7.

Correct:

GPIO.setup("P8_7", OUT ) 

INCORRECT:

GPIO.setup("P8_07", OUT ) 

Refer to pins_t table[] in common.c all the pin labels.

config-pin is now used on the official BeagleBoard.org Debian Jessie and Stretch images to control pin mode (e.g. pin mux).

debian@beaglebone:~$ config-pin -q P9_14 P9_14 Mode: pwm debian@beaglebone:~$ config-pin -l P9_14 default gpio gpio_pu gpio_pd pwm debian@beaglebone:~$ config-pin P9_14 gpio debian@beaglebone:~$ config-pin -q P9_14 P9_14 Mode: gpio Direction: in Value: 0 debian@beaglebone:~$ config-pin P9_14 pwm debian@beaglebone:~$ config-pin -q P9_14 P9_14 Mode: pwm 

Import the library, and setup as GPIO.OUT or GPIO.IN::

import Adafruit_BBIO.GPIO as GPIO GPIO.setup("P8_14", GPIO.OUT) 

You can also refer to the pin names::

GPIO.setup("GPIO0_26", GPIO.OUT) 

Setup the pin for output, and write GPIO.HIGH or GPIO.LOW. Or you can use 1 or 0.::

import Adafruit_BBIO.GPIO as GPIO GPIO.setup("P8_14", GPIO.OUT) GPIO.output("P8_14", GPIO.HIGH) 

On-board LEDs (USR0-USR3) are handled by LED class driver rather than the GPIO pin driver.

They have a different path in the /sys/ filesystem.

Setup the pin for output and write GPIO.HIGH or GPIO.LOW::

import Adafruit_BBIO.GPIO as GPIO import time for i in range(4): GPIO.setup("USR%d" % i, GPIO.OUT) while True: for i in range(4): GPIO.output("USR%d" % i, GPIO.HIGH) time.sleep(1) for i in range(4): GPIO.output("USR%d" % i, GPIO.LOW) time.sleep(1) 

Inputs work similarly to outputs.:

import Adafruit_BBIO.GPIO as GPIO GPIO.setup("P8_14", GPIO.IN) 

Polling inputs:

if GPIO.input("P8_14"): print("HIGH") else: print("LOW") 

Waiting for an edge (GPIO.RISING, GPIO.FALLING, or GPIO.BOTH:

GPIO.wait_for_edge(channel, GPIO.RISING) or GPIO.wait_for_edge(channel, GPIO.RISING, timeout) 

Detecting events:

GPIO.add_event_detect("P9_12", GPIO.FALLING) #your amazing code here #detect wherever: if GPIO.event_detected("P9_12"): print("event detected!") 

The PWM Duty Cycle range was reversed in 0.0.15 from 100(off)-0(on) to 0(off)-100(on). Please update your code accordingly.

import Adafruit_BBIO.PWM as PWM #PWM.start(channel, duty, freq=2000, polarity=0) #duty values are valid 0 (off) to 100 (on) PWM.start("P9_14", 50) PWM.set_duty_cycle("P9_14", 25.5) PWM.set_frequency("P9_14", 10) PWM.stop("P9_14") PWM.cleanup() #set polarity to 1 on start: PWM.start("P9_14", 50, 2000, 1) 

import Adafruit_BBIO.ADC as ADC ADC.setup() #read returns values 0-1.0 value = ADC.read("P9_40") #read_raw returns non-normalized value value = ADC.read_raw("P9_40") 

• Use config-pin to set pin mode for UART1 and UART2 pins

config-pin P9.21 uart # UART2_TXD config-pin P9.22 uart # UART2_RXD config-pin P9.24 uart # UART1_TXD config-pin P9.26 uart # UART1_RXD 

• Install pyserial

sudo pip install pyserial 

• Test UART1

import Adafruit_BBIO.UART as UART import serial UART.setup("UART1") with serial.Serial(port = "/dev/ttyO1", baudrate=9600) as ser: print("Serial is open!") ser.write(b"Hello World!") 

• Available UART names on BeagleBone
  • UART1: /dev/ttyO1, Rx: P9_26, Tx: P9_24
  • UART2: /dev/ttyO2, Rx: P9_22, Tx: P9_21
  • UART4: /dev/ttyO4, Rx: P9_11, Tx: P9_13
  • UART5: /dev/ttyO5, Rx: P8_38, Tx: P8_37
  • note: UART5 requires disable_uboot_overlay_video=1 in /boot/uEnv.txt
• Available UART names on PocketBeagle
  • PB-UART0: /dev/ttyO0, Rx: P1_30, Tx: P1_32
  • PB-UART1: /dev/ttyO1, Rx: P2_11, Tx: P2_09
  • PB-UART2: /dev/ttyO2, Rx: P1_08, Tx: P1_10
• Loopback test with UART1 and UART2

• Use config-pin to set pin mode for SPI pins
  • SPI0
    • SPI0_CS0: config-pin p9.17 spi_cs
    • SPI0_D0: config-pin p9.21 spi
    • SPI0_D1: config-pin p9.18 spi
    • SPI0_SCLK: config-pin p9.22 spi_sclk
  • SPI1
    • SPI1_CS0: config-pin p9.20 spi_cs
    • SPI1_CS0: config-pin p9.28 spi_cs
    • SPI1_CS1: config-pin p9.19 spi_cs
    • SPI1_CS1: config-pin p9.42 spi_cs
    • SPI1_D0: config-pin p9.29 spi
    • SPI1_D1: config-pin p9.30 spi
    • SPI1_SCLK: config-pin p9.31 spi_sclk
• Example:

from Adafruit_BBIO.SPI import SPI #spi = SPI(bus, device) #/dev/spidev<bus>.<device> # /dev/spidev0.0 spi = SPI(1,0) print(spi.xfer2([32, 11, 110, 22, 220])) spi.close() # /dev/spidev0.1 spi = SPI(1,1) print(spi.xfer2([32, 11, 110, 22, 220])) spi.close() # /dev/spidev1.0 spi = SPI(2,0) print(spi.xfer2([32, 11, 110, 22, 220])) spi.close() # /dev/spidev1.1 spi = SPI(2,1) print(spi.xfer2([32, 11, 110, 22, 220])) spi.close() 

To use the enhanced Quadrature Encoder Pulse (eQEP) module, please refer to the Encoder module's documentation.

Install py.test to run the tests. You'll also need the python compiler package for pytest:

sudo pip3 install pytest 

Execute the following in the root of the project:

pytest 

NOTE: sudo should not be required as udev configures group ownership and permission for GPIO and PWM

When reporting issues, plesae run the following script which will print the system configuration:

sudo /opt/scripts/tools/version.sh 

and paste the output in a reply.

This script should be present for any Debian or Ubunut image downloaded from: https://beagleboard.org/ or https://rcn-ee.com/

The BeagleBone IO Python library was originally forked from the excellent MIT Licensed RPi.GPIO library written by Ben Croston.

Written by Justin Cooper, Adafruit Industries. BeagleBone IO Python library is released under the MIT License.