Installing RGPIO
What RGPIO looks like
RGPIO creates a device: /dev/rgpio
This device is a character mode device that you can write text strings to and read text strings from. These strings tell RGPIO what to do, and tell you what RGPIO has found.
For testing, it is useful to set up a small script – I call it p containing:
[ -c /dev/rgpio ] && echo $@ > /dev/rgpio && cat - < /dev/rgpio
([ -c /dev/rgpio ] stops anything being written to a non-existent device.)
Then you can use rgpio by entering commands as follows, and the output will be shown immediately:
user@rpi:/home/me# ./p P14R RGPIO 14:on
Help is built in:
user@rpi:/home/me# ./p H
{P|O|I|W|L} set mode: PIN,One-wire,I2C,PWM,LCD
? show Help
pidS Sending SIGIO to process when new output is added (pid=0 to cancel)
{P|O|I|W|L}? show Help for each mode
#,% can be decimal, 0x Hex or 0b Binary
RGPIO Modes
P mode: control the individual GPIO pins. This includes reading from and writing (Lo or Hi) to the pin, watching for changes in the read-state, and setting the internal pull-ups for each pin.
W mode: PWM control – hardware (on Raspberry Pi, this is only on pin 18) or software modes.
L mode: control a parallel character LCD device
I mode: seek, query and control I2C devices
O mode: seek, query and control 1-Wire devices
Here are some Python examples using RGPIO on the PiBoard
Leave a Reply