sb,
The 198/197mA measurement was obtained with a clean 400Hz sine wave applied to the power amp input, just below clipping.
Well, I don't know about it indicating a "good" set of power tubes, but these two were certainly more closely matched at full power than at idle - and if I had to choose - which hopefully I'd never have to - I'd probably pick matched-at-full-power.
No, it shouldn't.
If multiple output tubes each use a different DC bias voltage, they will each start to draw grid current at a different point on the driving waveform, resulting in moderate to severe AC imbalance reaching a maximum at full power (which some may like, and other's won't). I personally would still used matched tubes even if bias pots were provided for each tube.
My own preference is for a two-tube output stage with controls for a) DC bias b) DC balance and c) AC balance, but YMMV - this is just what has worked for me.
Ray
two GE 6550A pulls here, idling 17mA apart (50/33mA), and yet they pull 198/197mA with signal applied"
And that is more an indication of a good set of power tubes than mere idle biasing might indicate?
if I have seperate bias adjustment for each tube... does this negative DC bias voltage affect the quality or shape of the AC input signal...?
does using seperate bias adjustments, so 'matched tubes' are not required, actually pose additional 'balance' problems since small to large variations on the amount of negative dc bias voltage will be required for each tube?
My own preference is for a two-tube output stage with controls for a) DC bias b) DC balance and c) AC balance, but YMMV - this is just what has worked for me.
Ray
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