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#226
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Wouldn't it make sense that if those components are driven past their voltage limits that they would begin to show corona discharge? How much head room do you think they have? With the input voltage at 90v y and z are already at 270vdc. At input voltage of 95v and the anode voltage reading 14kv (the limit according to the 16gp4 spec) there is no problem in the high voltage area. Above 95v input, when y and z get up over 310v then SPARK! I haven't measured anode voltage when the 1X2 is at it's fail point but I suspect it's a good deal over 14kv. |
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#227
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The schematic shows 255V at other locations in the chassis. Is that voltage over spec too? If it is, it would suggest the LV power supply is putting out too much juice. Is there any evidence of the power transformer having been replaced? Or if the 255V source is not over spec, could there be a miswire somewhere that's putting 255V onto the 210V line? ![]() Maybe Phil could post the print showing the LV section. ![]() ![]() One thing's for sure- we all gotta admire the heck outa your tenacity in rassling this critter. For a total Noob, it's truly been a baptizm of fire. When you get it whipped, you can rightly call yourself The Dragonslayer. Last edited by old_coot88; 07-04-2011 at 11:50 AM. |
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#228
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If the focus coil were open or disconnected maybe the +255 would be too high.
Anyhow, here's the power supply section. John |
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#229
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Aha. Thanks John. One piccy's worth a thousand words. I think i forgot that Phil did post that earlier. Geezerly brain fade.
So vts1134, what is the actual voltage at the input side of the choke (L1)? What is the voltage on the downstream side of L1, where the focus coil connects? Is it signifigantly over the specified 255V? What is the voltage at the downstream side of the focus coil, where it connects with filter C2D? Is it signifigantly above the specified 210V? Forget 'Y' and 'Z'. That's just the 'floating' heater supply for the damper and not relevant to the problem at hand. |
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#230
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Just a little FWIW regarding the damper's floating heater winding. Since there is a high level pulse of a few thousand volts on the cathode, there's potential for heater-cathode arcing (a very common problem with damper tubes). By allowing the heater to float (rather than being clamped to ground like the rest of the heaters), the effective pulse level between heater/cathode is reduced, thereby reducing arcing potential.
Most sets don't use a dedicated supply to float the damper's heater. In fact this feature is found only in a few old high quality sets. |
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#231
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#232
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The focus coil is right on spec.
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#233
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I'm going to continue to look for out of spec voltages. In the meantime my question du jour has to do with L18, the horizontal size control. The schematic calls for an impedance of 35 ohms. It doesn't give it a value range though. Would 35 ohms be on the high side, or low side? The reason I ask is that my horizontal size control is at 3 ohms and spins, but does not adjust in impedance. Obviously broken, but could this cause an over voltage situation on the fly? The schematic gives it two Majestic part numbers, they are B-1.533-1 and B-1.532-1. Does any know what these part numbers would correlate to on a replacement part? |
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#234
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vts1134,
While it is possible that some component in the set has failed, you seem to have followed a logical step-by-step trouble shooting path and you have not located the problem. Let's do a little thinking out side of the box. 1) Is the variac that you are using an old fashion one with an autoformer and a mechanical slider in it? 1a) If yes, have you checked the output voltage with a different volt meter? It is possible that the built-in volt meter is off. 1aa) If yes and the meter is not correctly reading, check the variac wiring to confirm that both the meter and the output are connected to the same output taps because many autoformers have multiple taps and can we wired to either increase or decrease range of the output voltage. 1b) If the variac is a modern solid state unit designed for lamp dimming, then the non-sine wave output will cause a normal AC voltmeter to read incorrectly. (Only an iron vane meter can correctly read the peak-clipped output from one of those.) 2) Does your variac, or your service bench, have a constant-voltage transformer in it? 2a) If yes, then the non-sine wave output of that transformer will cause a normal AC voltmeter to read incorrectly. (Only an iron vane meter can correctly read the peak-clipped output.) Quote:
4) As a final suggestion, since Pittsburgh is a large city, see if you can find a volunteer who is familiar with 60 year old electronic circuits to double check both the value and wiring of your replacement capacitors. It has been my experience that I can almost never find an error that that I made while repairing a circuit. Please understand, in my 60 year involvement with electronic circuits, I have been tripped up by each of the above mentioned items. James. Last edited by earlyfilm; 07-05-2011 at 05:52 PM. Reason: Adjusted line spacing to read clearer. |
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#235
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.I still run into things in my job that end up being a forehead slapper after hours of trouble shooting only to realize "press the power button" or any number of other day 1 lessons. It's always, always, always ok to "think outside the box" with me or "talk to my like I'm stupid" because I'll either learn something new or reinforce something I already know, either way I don't take offense. |
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#236
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Hey vts1134
Just for the heck of it, what voltage are the heaters getting? It should be a nominal 6.3 VAC (measured from point 'X' to ground). Is it signifigantly higher? Lower? |
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#237
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#238
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6.3 pretty much on the nose on all tubes except V17- the damper, V18- the hv rectifier, and V19 the lv rectifier.
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#239
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You're reading DC resistance, and it will not change with the slug adjustment. The impedance (AC resistance) will change with the adjustment when there is an AC waveform across the coil.
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#240
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If you measured it with an ohm meter, it would not change the value. Confused? Lets start this topic over again: >>> Originally Posted by vts1134 In the meantime my question du jour has to do with L18, the horizontal size control. The schematic calls for an impedance of 35 ohms. It doesn't give it a value range though. Would 35 ohms be on the high side, or low side? The reason I ask is that my horizontal size control is at 3 ohms and spins, but does not adjust in impedance. Obviously broken . . . . . <<< >>>Originally Posted by earlyfilm Are you confusing impedance with resistance? If not, how are you checking inductance?<<< >>> Originally Posted by vts1134 I'm not sure what you mean here, so I probably am.<<< OK, let me ask a similar question in plain language. If you have a coil of wire and measured the resistance and you and got, say 35 ohms. You then measured the resistance with a powdered iron core inside it, the coil would still get 35 ohms. You then measured it with your finger stuck through it, it still would read 35 ohms. Why, because your VOM / VTVM measures your coil using simple direct current. Do you agree? Now, impedance is just the alternating current measurement of inductance with a few capacitor variables thrown in for good measure. Inductance measures alternating current resistance, in this case, a very high audio frequency of just over 15,000 cycles per second (or Hertz.) When the powdered iron core is inserted, the alternating current resistance (inductance) increases, but the direct current resistance remains the same. Now about sticking your finger in the coil, is unknown, but it probably would raise the inductance, but not as much as the powdered iron core. However, depending on voltage involved, I must might not wish to test it that way. :-) On the other hand, if you stick a brass rod in, it will lower the impedance (but not below it's direct current value). OK, now your horizontal coil ain't nothing more than a coil of wire with an adjustable powdered iron core inside, and a capacitor connected over part of it or in resonance with it. If you measured the horizontal coil with an ohm meter, just like my example, it too would not change. How did you measure the coil? |
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