HAA! See, more and more an expert every mistake lol...
EDIT.. So used to makin mistakes today, I figured I was the one> Was a nice change in pace!
I assume it was a typo. I mean, everyone knows you can't measure AC with an ohmmeter, let alone the mains 😱
Jan
Jan
Since my other thread has zero traction... 
Swapped the 300B's and no change in heater voltages... Left side, 4.95 Right side 5.2
Anyone think .7v difference on the heaters is worth the trouble of dealing with a dropping resistor ?
Swapped the 300B's and no change in heater voltages... Left side, 4.95 Right side 5.2
Anyone think .7v difference on the heaters is worth the trouble of dealing with a dropping resistor ?
I have never tried OR simulated this but a resistor in series with the
buck transformer primary might act as a rudimentary 'regulator' as
the load goes up, the buck transformer will droop faster than the main.
G²
😛 I mean Digital Multimeter,,,lol...
Not sure about isolation transformer but my variac moves up/down whenever the AC is up/down
Not sure about isolation transformer but my variac moves up/down whenever the AC is up/down
It isn't .7 it is .25. That in itself isn't enough to worry about.Since my other thread has zero traction...
Swapped the 300B's and no change in heater voltages... Left side, 4.95 Right side 5.2
Anyone think .7v difference on the heaters is worth the trouble of dealing with a dropping resistor ?
Have you measured the AC voltage directly from the transformer on the heaters? I saw your schematic and it gets converted to DC. The rectification could be the "problem", in quotes because it isn't really. I'm using AC on my amp, PP 6B4G, and there is no hum even with the 6.3v heaters.
If you have ac rectified to DC supplying the tube heaters, and you measure differences on the heater voltage, why on earth would you swap tubes??
That's about the very last you should look in desperation if all else fails.
Just measure the DC from your rectifier; if these are different, then that's it.
The ac windings (if you use two) may be slightly different, or the rectifiers, or the wiring.
And I think it is clear from other replies that 0.25V delta isn't a matter of live and death.
Jan
That's about the very last you should look in desperation if all else fails.
Just measure the DC from your rectifier; if these are different, then that's it.
The ac windings (if you use two) may be slightly different, or the rectifiers, or the wiring.
And I think it is clear from other replies that 0.25V delta isn't a matter of live and death.
Jan
Variacs don’t offer any regulation and the ac line will always be varying a bit. You’ll see this result in the b+ voltages.
On an antique radio, I replaced a 5U4 with diodes plus resistor. Was left with an unused 5 volt 3 amp winding. Voltages were high throughout, so I repurposed the 5 V winding to buck the line voltage. My 6.7 volt heaters dropped to 6.4 volts with a 120 VAC line. Worked great!
So I think folks are missing an important point.. The variac is only used while the amp is upside down and being worked on...
Jan,
Swapping the tubes I thought was a 2 second test to see if may be there was something going on with the cathodes....
Geez wiz... lol..
I also read some time back that some people say running DC for the heaters can un-evenly wear something out (I may not be remembering perfectly perfect) and that some builders add a switch that changes polarity..
As my measurements show I can pretty much reverse polarity simply by swapping tube location.. So I thought it might be prudent... Ok ? lol
But seriously, all sarcasm is tong in cheek... Im thankfull for all help!
The 4.95-5.2 was a typo on the 4.95 at least... Was 4.5 ...
I have recorded the voltages a bunch of times and 4.8/5.6, 4.5/5.2, 5.3/5.9
Those average to be .6 off
Regardless, Im pretty sure .6 average is not anything to worry about...
for the heck of it I will check the AC voltage before the diodes again, but if memory is correct they were identical
I believe you are seeing some common differences betwen diodes and the forward voltage drop they can have especially at low voltages and currents. I'll bet if you switched them the difference would follow.
So I measured the 5v AC before the diodes, both sides read exactly the same 5.6 volts.
Meanwhile, the DC on the heaters read 4.8 left side and 5.7 on the right. 0.9 of a volt...
Within a few seconds, I don't believe the variations on mains would cause this...
Since the tubes were swapped, there must be something in the circuit..
I guess time to learn how to check 8 diodes.. the only other components are the 2 6800 uf smoothing cap's
Meanwhile, the DC on the heaters read 4.8 left side and 5.7 on the right. 0.9 of a volt...
Within a few seconds, I don't believe the variations on mains would cause this...
Since the tubes were swapped, there must be something in the circuit..
I guess time to learn how to check 8 diodes.. the only other components are the 2 6800 uf smoothing cap's
Doesn't that tell you right there where your difference is? You have 4 diodes and a cap in the heater rectification on each side IIRC from the schematic. That's 8 diodes that all would have to be exactly the same, plus the two caps. But before I'd go and start replacing all the diodes, I'd just do the calculation on finding the right small value resistor to put on one side. .6v/1.2a = .5R. I'd go with 2W or 5W, depending on what you can find. I'm assuming here that the heater draw is for a single 300B.
There may be something subtle connected to the capacitors. Note that your DMM reads the avaerage voltage. The DC after the rectifier will have ripple and part of that is added to the DMM's DC reading. So if the actual value of the caps is different (they most probably are +/-20% tolerance), the ripple will be different and as a consequence, the DC on the DMM will be different.
If you have a scope, check the ripple amplitude, or measure the AC on the rectified voltage at the caps.
Jan
If you have a scope, check the ripple amplitude, or measure the AC on the rectified voltage at the caps.
Jan
So, I thought Id complicate my life and learn how to use the math function on my oscope.. to use 2 channels on the 5v ac lines..
Thread going up somewhere else on this forum.. Will respond when I learn about my scope a hair more...
Thread going up somewhere else on this forum.. Will respond when I learn about my scope a hair more...