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#421
05-08-2012, 03:33 PM
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Nik,
I meant to ask you at the convention, but to determine if this is a fault with the proto crt or by design, how is the convergence voltage derived on the proto chassis? Darryl 
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#422
05-08-2012, 06:25 PM
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Same way it's done in the production chassis, though the values in the bleeder string are double what the CT-100 has. That's why I'm going to experiment with those parts, I have some different ones on the way right now. What I'm not sure about is if the convergence grid needs more current, or needs to be current limited by more series resistance. It was getting closer to being good with more voltage on it, but it also drew more current at higher settings. We tried to lower the value of the first resistor in the string (before the convergence pot), but it got very hot as it was burning off about 9000 volts. I'm still convinced that most of the problem was the ultor voltage drifting up as convergence voltage also went up; in other words, convergence always lagged ultor voltage no matter what we did. If I can get the ultor voltage to sit still while pushing convergence a tad higher, I think that will be a step in the right direction. That's the reason for tying the HV pot to B+Boost, rather than having it at the end of the bleeder string where its voltage supply (and hence shunt regulator operating point) can be influenced by current draw from the convergence grid.
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Evolution... 
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#424
05-08-2012, 09:25 PM
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Current limiting by more series resistance can only lower the voltage on the convergence grid. If a higher voltage produced better convergence, then you need less series resistance.
I think the problem with the test you did is that the convergence grid draws too much current when convergence is right, and that current is too much for the 19.5 kv supply to handle. I don't think returning the bottom end of the convergence pot will help. I think the only solution is a beefier HV supply.
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#425
05-09-2012, 01:07 AM
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If it were drawing an amount of current that was too much to handle, anode voltage would have sagged- instead it got higher. Only testing with the modified chassis will prove anything, Ed says the metal tubes were electrically identical to the glass ones...
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Evolution...
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#426
05-09-2012, 11:17 AM
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If I understand the shunt regulator circuit, if the convergence grid draws more current that will shift the grid on the shunt regulator more negative allowing the HV to rise as you observed.
To minimize the effect the standing current in the divider would need to be larger, meaning a beefier supply. Otherwise you need to limit the convergence grid current, but then you won't have sufficient voltage for convergence. John Quote:
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#427
05-09-2012, 01:10 PM
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If the convergence grid needs a much higher voltage, then the other possibility would be to move the pot further up the divider. Keep the total the same by reducing the resistance above it and increasing it below the pot by the same amount. The voltage drop due to the current drawn by the convergence grid will be smaller then, causing the anode HV to rise less.
John
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#428
05-10-2012, 11:15 AM
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Convergence is going to be affected by both the electrostatic convergence plates dimiension and positioning, the dimensions of the tube and the 2nd anode HV potential. The assumption is that the HV is to be 20kV.
Perhaps the HV in this prototype was only 15kV? The HV capacitor voltage rating suggested a lower voltage. It would be interesting to know at least if static convergence can be achieved with the lower convergence DC potential of the CT-100 with a HV of 15kV.
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#429
05-10-2012, 12:04 PM
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Interesting point. I have always thought that even if the doorknob cap was rated at 20 kv and the negative end tied to the focus potential (2 kv) that there wasn't much margin if the HV was 20 kv.
However, the schematic we have of a RCA model 1, which uses the same tube, shows 20 kv as the HV. It doesn't make sense that they would reduce the voltage for this set.
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#430
05-10-2012, 03:07 PM
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The electrical specs for the earlier portotype metal tube is virtually identical to the later 15GP22.
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John Folsom
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#431
05-11-2012, 10:16 AM
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Quote:
I hesitate to suggest it, but perhaps there's a problem with the CRT.
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#432
05-11-2012, 10:26 AM
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That is one possibility, but another is the strength of the static convergence magnets on the proto tubes. The stick magnets on a CT-100 are very weak, and the prototypes had an entirely different system with 'wands' that could move in many different axis. If those magnets were stronger, it could account for the issues we're having.
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Evolution...
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#433
05-11-2012, 01:17 PM
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Nick, I don't see how the permanent magnets could be a factor. If the prototype tube has specs very similar to the 15G, then it should work with 15G voltages, and apparently it doesn't. Since a 15G converges without the permanent magnets, using only the convergence control, the prototype tube should too.
Last edited by Steve McVoy; 05-11-2012 at 01:32 PM.
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#434
05-11-2012, 07:06 PM
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The prototype tube is slightly shorter in overall length (about 3/16" shorter), which could mean the electron guns are at a different distance from the dot plate. If that is so, it could mean it will be a little different than a 15G. I should have the parts to experiment with by Monday, so I'll know more then.
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Evolution...
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#435
05-13-2012, 06:35 PM
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Now that it has been suggested that the HV for this set's CRT should be only about 15 to 16kV, I wonder if now the static convergence will be achieved.
The lower beam velocity resulting from the lower ultor voltage should allow now enable static convergence?
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