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#286
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Onward! Hey.
![]() Give a holler when you've got the 'real' test gear in hand. I was gonna suggest the 'quick & dirty' method of signal injection using the 6V heater supply like you did earlier for the vertical. But with a proper signal genny you can attenuate the level as you work back stage by stage. Since you've verified the plate voltages on the 12AU7, have you checked the three peaking coils (L10, L11, L12) for continuity? And how about the detector diode? What's its forward/reverse readings on the ohmeter? Not shorted is it? oc |
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#287
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The peaking coils L10-13 all read at or close to spec. The diode reads .3v drop across it. One thing I did notice after reading all of the voltages on the video stage tubes again. Pin 7 on the 12AU7 was the only voltage that was a good bit off of spec. It is supposed to read -.2vdc, it actually reads -.57. |
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#288
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If you have the video testpattern generator, then you can test it by connecting the video out leads to the video input jack on a modern TV.
If the video generator works the next thing I'd do is connect it to the side of the video detector diode in the monarch that feeds the video amp(s) and see if you get video. If you do then concentrate your search on everything between and including the antenna terminals and the detector. If you don't get video then focus on every thing between the detector diode and the CRT. Hope this helps. Tom C. Last edited by Electronic M; 08-08-2011 at 08:57 PM. Reason: typeo |
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#289
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Tie onto the 6.3V heater supply just like you did earlier for the vertical, except this time put a cap in series with the clip lead. Value isn't critical, anywhere from .01 to .1 is OK. This'll give you a DC-isolated 60 cycle signal for injection. Start at G1 of the CRT (pin 2). The raster should show a mild hum bar. Now hit the plate of the video output stage (pin 6 of the 12AU7). The same hum bar should appear. Now hit the grid (pin 7). The hum bar should show quite a bit of amplitude gain. Now hit the plate of the 1st video stage (pin 1 of the 12AU7). It should show the same amplitude gain. Now to inject at the grid of the first video stage, it's a good idea to attenuate the signal so as to not overdrive the video stages. So let's utilize the 8.2K resistor (R27) that's already in place between the grid (pin 2) and ground. Add an 82K resistor in series with the cap on your clip lead, so that this new resistor is now the "probe". When touched to the grid (pin 2), it's also in series with R27 and forms a voltage divider giving a little over 10X attenuation. So the grid will be seeing about .59 VAC of signal. Of course you can reduce the value of the new resistor to give less attenuation if desired. {Those two coils L10 and L11 can be considered zero ohms in this situation.} As a precaution, i would leave the diode M4 disconnected during the procedure. So if you lose the signal at any point while working back stage by stage, that will isolate where the failure is at. Quote:
oc Last edited by old_coot88; 08-08-2011 at 11:06 PM. |
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#290
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Make the connection pre diode, or post diode? |
| Audiokarma |
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#291
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Ya might wanta ask- what is the function of the diode?
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#292
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what is the function of the diode ?Also if I'm asking, what is the function of a peaking coil? |
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#293
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Well, since the amplitude-modulated IF signal (actually a radio-frequency AM signal) is going into the diode, what is the diode doing to it? Hint- what is a power supply rectifier doing to the AC from the powerline?
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#294
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? So if I connected the generator pre-diode it would be feeding the wrong signal into it. I would need an IF generator to test pre-diode. The rectifier converts AC to DC? |
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#295
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![]() On your question about peaking coils, they 'tailor' the high-frequency (aka fine detail) component of the video signal. Last edited by old_coot88; 08-09-2011 at 06:17 PM. |
| Audiokarma |
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#296
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#297
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Sure, absolutely.
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As mentioned before, since the detector diode is so easy to get to, i would leave it disconnected as a precaution against zapping it with the probe. You'll probably see the pattern phase-invert (ie., shift from negative-to-positive) as you work back. That's because a tube's plate is 180 degrees out of phase from the grid. Grid goes positive, tube conducts more, pulling plate voltage down. Grid goes negative, tube conducts less, allowing plate voltage to rise. oc |
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#298
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I am using a piece of wire wrapped around pin 2 of the crt to attach my video output test lead to, and the negative test lead I'm attaching to the chassis. I've also hooked up the generator to my living room tv's composite input and verified that the generator is in fact outputting a signal. Is there some other way to verify that the crt is ok? Could the signal be too high or low coming out of my generator to give a full picture when connected directly to pin 2 of the crt? Will there be a party when this is all over that every one is invited to? I can only answer the third one |
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#299
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What about if you inject at pin# 7, the grid of the vid.out stage? Quote:
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#300
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.http://www.youtube.com/watch?v=wqO0pCZS8gU I used two different patterns. The first was one horizontal line, the second was one vertical line. I adjusted the phase from all the way positive to all the way negative on both patterns. Please forgive the angle of the camera. |
| Audiokarma |
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