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(NOTE: since the 'gimmick' cap under discussion is not indicated on my schematic, I did not link a schematic.)
I've been looking over the CBS-era champ that I recently acquired, and one thing that I saw - that others have already talked about here on the boards - is the 330pF cap across the grid to cathode on the output 6V6. I understand that it is a roll-off filter cap to help avoid oscillations. While poking around the 6V6, I also noticed (The part that has me scratching my head):
There is a 'gimmick' of a few twists of the lead wire to the 6V6's grid with the HT wire for the preamp tubes. OK, so the small couple of pF capacitance (multiplied by mu, giving a slightly less small capacitance) will also act as to roll off high frequencies. Why did Fender include this when the cap across grid to cathode exists?
Does the reactance between the HT and the power tube grid add some kind of noise-cancelling effect? I'm thinking that if the B+ has a spike on it, then the capacitance will cause the grid to be tugged slightly in the same direction, and the effect on the plate tends to cancel out the excursion. Is there any merit to this? How far off base am I, and if there are discussions or resources that deal with this I'd love to see them (haven't dug anything up on it yet!).
I've been looking over the CBS-era champ that I recently acquired, and one thing that I saw - that others have already talked about here on the boards - is the 330pF cap across the grid to cathode on the output 6V6. I understand that it is a roll-off filter cap to help avoid oscillations. While poking around the 6V6, I also noticed (The part that has me scratching my head):
There is a 'gimmick' of a few twists of the lead wire to the 6V6's grid with the HT wire for the preamp tubes. OK, so the small couple of pF capacitance (multiplied by mu, giving a slightly less small capacitance) will also act as to roll off high frequencies. Why did Fender include this when the cap across grid to cathode exists?
Does the reactance between the HT and the power tube grid add some kind of noise-cancelling effect? I'm thinking that if the B+ has a spike on it, then the capacitance will cause the grid to be tugged slightly in the same direction, and the effect on the plate tends to cancel out the excursion. Is there any merit to this? How far off base am I, and if there are discussions or resources that deal with this I'd love to see them (haven't dug anything up on it yet!).
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