| ▲ | accounting2026 5 hours ago | |||||||
> The image is not stored at any point. Just wanted to add one thing, not as a correction but just because I learned it recently and find it fascinating. PAL televisions (the color TV standard in Europe) actually do store one full horizontal scanline at a time, before any of it is drawn on the screen. This is due to a clever encoding used in this format where the TV actually needs to average two successive scan lines (phase-shifted compared to each other) to draw them. Supposedly this cancels out some forms of distortion. It is quite fascinating this was even possible with analogue technology. The line is stored in a delay line for 64 microseconds. See e.g.: https://www.youtube.com/watch?v=bsk4WWtRx6M | ||||||||
| ▲ | leguminous 4 hours ago | parent | next [-] | |||||||
At some point, most NTSC TVs had delay lines, too. A comb filter was commonly used for separating the chroma from the luma, taking advantage of the chroma phase being flipped each line. Sophisticated comb filters would have multiple delay lines and logic to adaptively decide which to use. Some even delayed a whole field or frame, so you could say that in this case one or more frames were stored in the TV. | ||||||||
| ▲ | brewmarche 5 hours ago | parent | prev | next [-] | |||||||
I only knew about SECAM, where it’s even part of the name (Système Électronique Couleur Avec Mémoire) | ||||||||
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| ▲ | jacquesm 5 hours ago | parent | prev | next [-] | |||||||
The physical components of those delay lines were massive crystals with silver electrodes grafted on to them. Very interesting component. | ||||||||
| ▲ | MBCook 5 hours ago | parent | prev [-] | |||||||
All PAL TVs had a delay line in them? Crazy. | ||||||||
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