Night mode kind of differs. I think there was one piece of software that did it way before operating systems got night mode, and with the help of some measuring device they found out that most competitors turned the screen red but did not actually lower the amount of blue light much, negating the whole point (as the theory behind this stuff is that blue light messes with your sleep schedule). Your screen turning reddish yellow does very little if the effect is achieved by turning on more red and green pixels.
Sounds impossible. The way they turn the screen red is by reducing the blue light transmitted through the LCD panel. You cant turn the screen red and keep the blue light at the same time.
Unless its an oled screen. Then it is a stupid implementation. You could just reduce the blue light then.
I remember a long blog post about it on f.lux comparing it a bunch of competitors with actual measurements rather than pure RGB values.
Of course LCD doesn’t turn on any pixels, it just stops blocking the white light from behind the panel, but the result isn’t any different.
Unfortunately I can’t find the link right now, I must’ve read it a decade ago. Perhaps it’s been lost to time.
The end conclusion was that a bunch of free apps/cheap software thought they could get in on the blue light fad and turned the screen redder without significantly reducing the amount of blue light transmitted. At the time, there were one of two kits of software that actually showed a significant drop in blue light because their colour mixing algorithm/colour profile adjustments were done correctly whereas the competition just implemented it wrong.
The blue light filters are hilarious because most devices already support night mode
They are not the same thing
Night mode kind of differs. I think there was one piece of software that did it way before operating systems got night mode, and with the help of some measuring device they found out that most competitors turned the screen red but did not actually lower the amount of blue light much, negating the whole point (as the theory behind this stuff is that blue light messes with your sleep schedule). Your screen turning reddish yellow does very little if the effect is achieved by turning on more red and green pixels.
The software you’re probably thinking of is f.lux
Sounds impossible. The way they turn the screen red is by reducing the blue light transmitted through the LCD panel. You cant turn the screen red and keep the blue light at the same time.
Unless its an oled screen. Then it is a stupid implementation. You could just reduce the blue light then.
I remember a long blog post about it on f.lux comparing it a bunch of competitors with actual measurements rather than pure RGB values.
Of course LCD doesn’t turn on any pixels, it just stops blocking the white light from behind the panel, but the result isn’t any different.
Unfortunately I can’t find the link right now, I must’ve read it a decade ago. Perhaps it’s been lost to time.
The end conclusion was that a bunch of free apps/cheap software thought they could get in on the blue light fad and turned the screen redder without significantly reducing the amount of blue light transmitted. At the time, there were one of two kits of software that actually showed a significant drop in blue light because their colour mixing algorithm/colour profile adjustments were done correctly whereas the competition just implemented it wrong.