Screen brightness can often be tricky to control. On many machines, physical hardware switches are missing and software solutions may or may not work well. Make sure to find a working method for your hardware! Too bright screens can cause eye strain.
There are many ways to adjust the screen backlight of a monitor, laptop or integrated panel (such as the iMac) using software, but depending on hardware and model, sometimes only some options are available. This article aims to summarize all possible ways to adjust the backlight.
- brightness is controlled by vendor specified hotkey. And there is no interface for OS to adjust brightness.
- brightness is controlled by OS:
- brightness could be controlled by ACPI
- brightness could be controlled by graphic driver.
all methods expose themselves to user by /sys/class/brightness. And xrandr/xbacklight could use this folder and choose one method to control brightness. But it is still not very clear which one is preferred by xbacklight as default. See FS#27677 for xbacklight, if you get "No outputs have backlight property"
- brightness is controlled by HW register throught setpci
It is often possible to adjust the backlight by ACPI. This controls the actual LEDs or cathodes of the screen. When this ACPI option is available, the illumination is controllable using a GUI slider in the Display/Screen system settings or by simple commands on the CLI.
Different cards might manage this differently. Check
/sys/class/backlight to find out:
# ls /sys/class/backlight/
So this particular backlight is managed by an Intel card. It is called
acpi_video0 on an ATI card. In the following example, acpi_video0 is used.
The directory contains the following files and folders:
actual_brightness brightness max_brightness subsystem/ uevent bl_power device/ power/ type
The maximum brightness (often 15) can be found by running
# cat /sys/class/backlight/acpi_video0/max_brightness 15
Brightness can then be set (as root) with
# echo 5 > /sys/class/backlight/acpi_video0/brightness
Sometimes ACPI does not work well due to different motherboard implementations and ACPI quirks. This include some models with dual graphics (e.g. Nvidia-optimus/Radeon with intel (i915)) and some examples with this problem in notebooks such as Dell Studio, Dell XPS 14/15/17 and some Lenovo series, Kamal Mostafa kernel developer make patches for solved this issue included after 3.1 kernel version. You can try adding the following kernel parameters in your bootloader(grub, syslinux...) to adjust ACPI model:
acpi_backlight=vendor will prefer vendor specific driver (e.g. thinkpad_acpi, sony_acpi, etc.) instead of the ACPI video.ko driver.
Switching off the backlight
Switching off the backlight (for example when one locks the notebook) can be useful to conserve battery energy. Ideally the following command inside of a graphical session should work:
sleep 1 && xset dpms force off
The backlight should switch on again on mouse movement or keyboard input. If the previous command does not work, there is a chance that
vbetool works. Note, however, that in this case the backlight must be manually activated again. The command is as follows:
vbetool dpms off
To activate the backlight again:
vbetool dpms on
For example, this can be put to use when closing the notebook lid as outlined in the entry for Acipd.
You can adjust the backlight through the xorg-server command
xbacklight. The utility is provided by the package in [extra].
A useful demonstration was posted by gotbletu on YouTube. He suggests the following commands to adjust the backlight:
- brighten up:
xbacklight -inc 40
- dim down:
xbacklight -dec 40
The program xcalib can be downloaded from AUR and used to dim the screen. Again, the user gotbletu posted a demonstration on Youtube. This program can correct gamma, invert colors and reduce contrast, the latter of which we use in this case:
- dim down:
xcalib -co 40 -a
This program uses ICC technology to interact with X11 and while the screen is dimmed, you may find that the mouse cursor is just as bright as before.
The program redshift in the community repository uses
randr to adjust the screen brightness depending on the time of day and your geographic position. It can also do RGB gamma corrections and set color temperatures. As with
xcalib, this is very much a software solution and the look of the mouse cursor is unaffected. To execute a single quick adjustment of the brightness, try something like this:
redshift -o -l 0:0 -b 0.8 -t 6500:6500
relight is available in Xyne's repos and the AUR. The package provides a service to automatically restore previous backlight settings during reboot along using the ACPI method explained above. The package also contains a dialog-based menu for selecting and configuring backlights for different screens.
setpci (use with great care)
It is possible to set the register of the graphic card to adjust the backlight. It means you adjust the backlight by manipulating the hardware directly, which can be risky and generally is not a good idea. Not all of the graphic cards support this method.
When using this method, you need to use
lspci first to find out where your graphic card is.
# setpci -s 00:02.0 F4.B=0
The software calise can be found in AUR.
- Stable version: AUR
- Development version: AUR
It basically computes ambient brightness, and set screen's correct backlight, simply making captures from the webcam, for laptop without light sensor. For more information, calise has its own wiki: Calise wiki.
The main features of this program are that it's very precise, very light on resource usage, and with the daemon version (.service file for systemd users available too), it has practically no impact on battery life.
KDE users can adjust the backlight via System Settings -> Power Management -> Power Profiles. If you want set backlight before kdm just put in /usr/share/config/kdm/Xsetup :
xbacklight -inc 10
Users of NVIDIA's proprietary drivers users can change display brightness via the nvidia-settings utility under "X Server Color Correction." However, note that this has absolutely nothing to do with backlight (intensity), it merely adjusts the color output. (Reducing brightness this way is a power-inefficient last resort when all other options fail; increasing brightness spoils your color output completely, in a way similar to overexposed photos.)