Hey Brent,
I guess I'm still confused.. and for the purposes of my inquiry &
discussion, let's stick to what's going on with the Osborne / Zenith setup
- OK?
It sounds like you're saying that the horiz. osc. in the Zenith monitor is
synced in both phase & frequency to the horiz. input signal provided by the
computer motherboard. But if the horiz. signal were to disappear for some
reason, the osc. would continue to run... is that correct?
So if the osc. continued to run in absence of the horiz. signal, how would
it stay on-frequency? And much more importantly - If it's capable of
setting its own operating frequency, how does the horiz. signal input
override that? And why didn't Osborne "trust" their hardware to provide a
horiz. signal - while IBM and (as you say) Commodore PET clearly did -
ultimately, what did this amount to, if anything?
Sorry for so many dumb questions. Oh, and here's another.. about the
meaning of 'raster'.
When we talk about the presence or lack of a /raster/, do we mean the
'lighted rectangle' on the CRT screen? Or is the raster the horiz & vert
travelling beam that 'paints' the lighted rectangle? I ask, as some video
t-shooting guides have determiners like "Raster present / No raster?". I
ask, as I was taught that the scanning beam itself is the 'raster'.. but it
seems more like the evidence of that beam - a lighted rectangle - is what's
actually meant.
And yes, I know the derivation of the term. Raster is from Greek 'rastrum',
essentially meaning a rake.. which makes some sense, of course, as the H/V
systems produce a pattern on the screen much like a rake dragged across
sand.
On Sat, Nov 8, 2014 at 10:26 PM, Brent Hilpert <hilpert at cs.ubc.ca> wrote:
On 2014-Nov-08, at 7:24 PM, drlegendre . wrote:
Tony,
Ok, then I guess I +really+ don't get it.
Why does the Zenith +need+ a horiz. osc. when it also requires the horiz.
input signal - which just happens to be at the exact same frequency
(15.7KHz) as the horiz. osc? What is the horiz. input used for, then, if
not to set the frequency of the 555 output?
No, in a strict sense, a TV or monitor doesn't 'need' a horizontal or
vertical oscillator, it just needs the V & H sync pulses to start the ramp
generation at the proper time.
Historically however, a TV had V & H oscillators so that:
1. A raster would be present when there was no signal, in part so
it didn't burn a hole in the center of the screen.
2. The raster would ride through sync pulse dropouts on weak or
marginal signals, rather than collapsing sporadically.
3. The horizontal oscillator needed to keep going, consistently,
so the CRT HiV would be generated and stable.
(One might argue 3 mitigates 1, no HiV, no burn).
Once you have the oscillators, you still need the sync pulses to keep the
raster scan ramps in phase sync with the video picture information.
Early computer monitors were just slightly hacked/improved versions of TV
monitors and old design habits die hard.
As mentioned, some designs did do away with the oscillators, when the
sync could be relied upon to be present and stable. IIRC, the Commodore PET
with it's built-in monitor was another of those.