bionicjoey@lemmy.ca 3 months ago
It makes sense you’d be able to get a much higher refresh rate on a tube if you reduce the resolution, since you would be reducing the beam’s travel.
bionicjoey@lemmy.ca 3 months ago
It makes sense you’d be able to get a much higher refresh rate on a tube if you reduce the resolution, since you would be reducing the beam’s travel.
deranger@sh.itjust.works 3 months ago
It’s been a while, but changing resolution on a CRT normally doesn’t make the picture smaller.
user134450@feddit.org 3 months ago
There is a limit on the spacing of the colour bands though. If you want colours then you have to hit the spots where the correct phosphors are and this limits the usable resolution.
Morphit@feddit.uk 3 months ago
What do you mean? The shadow mask ensures the gun for each colour can only hit the phosphors of that colour. How would a lower resolution changed that?
bionicjoey@lemmy.ca 3 months ago
Yeah I didn’t think it would make the “pixels” smaller, but the beam would need to pulse less often and therefore could travel more. Maybe I’m misunderstanding what they did.
deranger@sh.itjust.works 3 months ago
Electron beams scan insanely fast, that isn’t the limiting factor. Getting that much bandwidth across a VGA cable is tough. If you wanted super high refresh rates on old CRTs you’d have to drop the resolution. Same concept.
bionicjoey@lemmy.ca 3 months ago
Ah. I see, so reducing the resolution was more about sending frames to the monitor faster, not about optimizing the tube hardware’s behaviour