Read the statement by Michael Teeuw here.
Want to turn off my monitor
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Don’t forget, you can also hook up the monitor to a PIR switch directly (check wattage allowed for the PIR switch!) or to a light/power switch or even a combination.
I didn’t want the monitor to be in standby when I’m not home for a week, so the PIR directly controls power to the monitor to completely switch it off instead of it going to standby. And the PIR is behind a switch, too.
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Cheers for the replies everyone all is noted :)
For now think I’ll keep searching the net for a way to have the monitor on during the day and sleep at night.
I have found one site that shows how to do it but want to make a backup image first incase I break anything lol.
I do like the idea of a pir. Are they easy to setup if I cannot get on with the way I’m currently looking for.
Cheers -
For simple time based screen on & off check https://github.com/ianperrin/MMM-ModuleScheduler
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Sorry, should say you combine with the remote control module to send screen off notifications.
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So I’ve been looking through the net and have found I can use vcgencmd display_power 0 to turn off my monitor and the same again to power 1 to turn it back on, it also explains it can be run as a cron job but I’ve never done one of them so not to sure.
Would it all be possible to hook up a push button switch to the gpio and have them commands somehow turn the display off and on.
Thanks -
Don’t forget that the monitor will still be on, it’s just in standby, still consuming power. The Pi can’t switch the power of the monitor itself off.
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Yeah cheers I’m aware of that, it’s just monitor uses 37w whilst on and 2w in standby so I really don’t mind it being in standby at night.
I think I’m going to look into mmm-remote as trying the other method using vgenmcd power makes my screensaver come back to life even though it’s Been disabled for the last 8 months.
Is there any tutorials anywhere in setting up mmm-schedule and mmm-remote.
Cheers all -
Ok so after trying various ways to get my monitor to turn off I have still been unsuccessful.
What I am trying now is with a webcam.
I found in my box of computer bits a Microsoft lifecam hd 3000.
After a little Google research I can confirm the webcam works with the pi using motion software.
I also found a site explaining how I can add a start and and event on detection so I set vgencmd display_power 1 as start event and vgencmd display_power 0 as end event but still no luck it just keeps display on but if I enter the command in terminal my display turns on/off as it should.
Am I going about this in the most awkward way or is there a simple way to get the monitor to sleep using the usb webcam.
Thanks in advance -
You could try this for ON
if (something) {
exec("/opt/vc/bin/tvservice -o", null); }
And this for OFF
{ exec("/opt/vc/bin/tvservice --preferred && sudo chvt 6 && sudo chvt 7", null); }
Or
{ exec('xset dpms force on', null); }
{ exec('xset dpms force off', null); }
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did u try:
sudo tvservice -o
to turn off your Monitor
sudo tvservice -p
to turn on your monitor
?If this isn’t working i think your Monitor or your HDMI Cable are not supporting CEC.
If this works u have several options.
For example u can create two *.sh files and make them executable. Put these scripts into cronjob file for time based turning on or off the monitor.
Or u can use a PIR or a simple Button to do that. Let me give you a small software tutorial for this example:Tutorial beginning:
cd
nano monitor_on.sh
(creates the file)write this in this file:
sudo tvservice -p
save with “ctrl+x” and say “y” to save the file.
nano monitor_off.sh
write this in this file:
sudo tvservice -o
save with “ctrl+x” and say “y” to save the file.
chmod +x monitor_on.sh
(to make it executable)
chmod +x monitor_off.sh
So now you have two options. Write a python script to automatically start the shell scripts by using a GPIO or just put the Shell scripts into a cronjob.
Here is the first way:
nano pir.py
(creates a script which executes the *.sh files via PIR or Button)write this into the file:
#!/usr/bin/env python import sys import time import RPi.GPIO as io import subprocess io.setmode(io.BCM) SHUTOFF_DELAY = 119 # in seconds, how long the monitor will be on until next button press or PIR detection PIR_PIN = 25 # 22 on the board (this needn't to be a PIR. Can be a button also) LED_PIN = 16 # optional def main(): io.setup(PIR_PIN, io.IN) io.setup(LED_PIN, io.OUT) turned_off = False last_motion_time = time.time() while True: if io.input(PIR_PIN): last_motion_time = time.time() io.output(LED_PIN, io.LOW) print ".", sys.stdout.flush() if turned_off: turned_off = False turn_on() else: if not turned_off and time.time() > (last_motion_time + SHUTOFF_DELAY): turned_off = True turn_off() if not turned_off and time.time() > (last_motion_time + 1): io.output(LED_PIN, io.HIGH) time.sleep(.1) def turn_on(): subprocess.call("sh /home/pi/monitor_on.sh", shell=True) def turn_off(): subprocess.call("sh /home/pi/monitor_off.sh", shell=True) if __name__ == '__main__': try: main() except KeyboardInterrupt: io.cleanup()
save with “ctrl+x” and say “y” to save the file.
chmod +x pir.py
You can check if your button works by simply typing
python pir.py
. Every time u move through the PIR or press the button it will show you some …
End the test with “ctrl+c”now we editing the rc.local to start the script after booting the Pi:
sudo nano /etc/rc.local
write this in the file (above the “exit 0”):
python /home/pi/pir.py &
save with “ctrl+x” and say “y” to save the file.
after all it should look like this:
#!/bin/sh -e # # rc.local # # This script is executed at the end of each multiuser runlevel. # Make sure that the script will "exit 0" on success or any other # value on error. # # In order to enable or disable this script just change the execution # bits. # # By default this script does nothing. # Print the IP address _IP=$(hostname -I) || true if [ "$_IP" ]; then printf "My IP address is %s\n" "$_IP" fi python /home/pi/pir.py exit 0
Here comes the second way:
Next steps we will do as root to be sure it works. Maybe not the best way, but i am just a simple guy, who is still learning the stuff. ^^
Lets say we want to turn on the monitor every day at 6am and turn off at 8pm:sudo nano /etc/crontab
(to open the crontab)write this into the file:
0 6 * * * /home/pi/monitor_on.sh
0 20 * * * /home/pi/monitor_off.sh
this should look like this:
# /etc/crontab: system-wide crontab # Unlike any other crontab you don't have to run the `crontab' # command to install the new version when you edit this file # and files in /etc/cron.d. These files also have username fields, # that none of the other crontabs do. SHELL=/bin/sh PATH=/usr/local/sbin:/usr/local/bin:/sbin:/bin:/usr/sbin:/usr/bin # m h dom mon dow user command 17 * * * * root cd / && run-parts --report /etc/cron.hourly 25 6 * * * root test -x /usr/sbin/anacron || ( cd / && run-parts --report /etc/cron.daily ) 47 6 * * 7 root test -x /usr/sbin/anacron || ( cd / && run-parts --report /etc/cron.weekly ) 52 6 1 * * root test -x /usr/sbin/anacron || ( cd / && run-parts --report /etc/cron.monthly ) 0 6 * * * root /home/pi/monitor_on.sh 0 20 * * * root /home/pi/monitor_off.sh #
I wrote this just out of my head so i hope i didn’t forget anything.
Tutorial ending!
That is just an example of using a GPIO to turn off and on your monitor via HDMI-CEC.
How i said, if your monitor or cable doesn’t support this u need to choose another way (turn a relays on and off to the power supply of the monitor e.g.)edit:
sorry @mykle1, did not notice that you already answered, because I already started to write while you answered :D