RaspberryPi GPIO: Difference between revisions
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A 40-pin GPIO header is found on all current Raspberry Pi boards (unpopulated on Pi Zero and Pi Zero W). Prior to the Pi 1 Model B+ (2014), boards comprised a shorter 26-pin header | A 40-pin GPIO header is found on all current Raspberry Pi boards (unpopulated on Pi Zero and Pi Zero W). Prior to the Pi 1 Model B+ (2014), boards comprised a shorter 26-pin header | ||
=Pins= | |||
* GPIO is your standard pins that simply be used to turn devices on and off. For example, a LED. | |||
* I2C (Inter-Integrated Circuit) pins allow you to connect and talk to hardware modules that support this protocol (I2C Protocol). This protocol will typically take up two pins. | |||
* SPI (Serial Peripheral Interface Bus) pins can be used to connect and talk to SPI devices. Pretty much the same as I2C but makes use of a different protocol. | |||
* UART (Universal asynchronous receiver/transmitter) is the serial pins used to communicate with other devices. | |||
* DNC stands for do not connect, this is pretty self-explanatory. | |||
* The power pins pull power directly from the Raspberry Pi. | |||
* GND are the pins you use to ground your devices. It doesn’t matter which pin you use as they are all connected to the same line. | |||
=40-pin GPIO= | =40-pin GPIO= | ||
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[[File:PI-GPIO26.png|400px]] | [[File:PI-GPIO26.png|400px]] | ||
=Install= | |||
To program the GPIO pins we needed to install the Python3 [https://pypi.org/project/RPi.GPIO Rpi.GPIO] library | |||
sudo apt-get update | |||
sudo apt-get install python3-rpi.gpio | |||
See [https://sourceforge.net/p/raspberry-gpio-python/wiki/BasicUsage/ RPi.GPIO Documentation] | |||
=Test: Writing to PIN= | |||
In this small script we will write HIGH & LOW values to Pin 12. | |||
And use a LED and a 220Ω resistor to see if GPIO is operating and expecting. | |||
Connect according to the diagram, keeping in mind that the | |||
* LED has polarity: | |||
** long leg: positive | |||
** short leg: negative | |||
* LED needs to have (220Ω) resistor, standing between its negative leg and 0Volts, in order to protect it from excessive current. | |||
[[Raspberry-Pi-GPIO-simple-led-circuit.jpg]] | |||
<source lang="python"> | |||
#!/usr/bin/env python3 | |||
import RPi.GPIO as GPIO | |||
import time | |||
LedPin = 4 | |||
GPIO.setmode(GPIO.BOARD) # Numbers pins by physical location | |||
GPIO.setup(LedPin, GPIO.OUT) # Set pin mode as output | |||
try: | |||
while True: | |||
GPIO.output(LedPin, GPIO.HIGH) | |||
time.sleep(1) | |||
GPIO.output(LedPin, GPIO.LOW) | |||
time.sleep(1) | |||
except KeyboardInterrupt: # Ctl-C will interrup | |||
pass | |||
GPIO.cleanup() # clean resources used | |||
</source> | |||
=Links= | |||
https://pimylifeup.com/raspberry-pi-gpio/ | |||
Revision as of 11:13, 22 October 2018
Raspberry Pi GPIO pins configuration
A 40-pin GPIO header is found on all current Raspberry Pi boards (unpopulated on Pi Zero and Pi Zero W). Prior to the Pi 1 Model B+ (2014), boards comprised a shorter 26-pin header
Pins
- GPIO is your standard pins that simply be used to turn devices on and off. For example, a LED.
- I2C (Inter-Integrated Circuit) pins allow you to connect and talk to hardware modules that support this protocol (I2C Protocol). This protocol will typically take up two pins.
- SPI (Serial Peripheral Interface Bus) pins can be used to connect and talk to SPI devices. Pretty much the same as I2C but makes use of a different protocol.
- UART (Universal asynchronous receiver/transmitter) is the serial pins used to communicate with other devices.
- DNC stands for do not connect, this is pretty self-explanatory.
- The power pins pull power directly from the Raspberry Pi.
- GND are the pins you use to ground your devices. It doesn’t matter which pin you use as they are all connected to the same line.
40-pin GPIO
26 pin (Pi 1)
Install
To program the GPIO pins we needed to install the Python3 Rpi.GPIO library
sudo apt-get update sudo apt-get install python3-rpi.gpio
Test: Writing to PIN
In this small script we will write HIGH & LOW values to Pin 12.
And use a LED and a 220Ω resistor to see if GPIO is operating and expecting.
Connect according to the diagram, keeping in mind that the
- LED has polarity:
- long leg: positive
- short leg: negative
- LED needs to have (220Ω) resistor, standing between its negative leg and 0Volts, in order to protect it from excessive current.
Raspberry-Pi-GPIO-simple-led-circuit.jpg
#!/usr/bin/env python3
import RPi.GPIO as GPIO
import time
LedPin = 4
GPIO.setmode(GPIO.BOARD) # Numbers pins by physical location
GPIO.setup(LedPin, GPIO.OUT) # Set pin mode as output
try:
while True:
GPIO.output(LedPin, GPIO.HIGH)
time.sleep(1)
GPIO.output(LedPin, GPIO.LOW)
time.sleep(1)
except KeyboardInterrupt: # Ctl-C will interrup
pass
GPIO.cleanup() # clean resources used