Hi there,
im not quite happy with my answer above hence this BS post
All just pure theory, not anything of this is proven, nor calculated!!!
1.) Correction I know there is huge effect on a EL84 Push Pull amp with larger Gridblockers - all just subjectively based on own tests with some amps.
With large Gridblockers i tend to say that if you drive the amp harder, it doesnt have that unpleasant harshness in tone as it has with no or low value gridblockers - spoken for EL84 only here as i never tested this for other tubes aswell. Hence you can state that it feels like compression in lowend depending on when this effect would take place (clipping for example).
I also investigated that fixed bias amps react a little different here than Cathode Biased amps, regardless of the fact that both amps (that i tested with) had nearly equal B+ (from memory) but very different output transformers. So i had a typo in my above post, i was referring to Fixed Bias where i wanted to say Cathode Biased.
That must of course not be the case in any situation and there is of course always a subjective feeling of difference when you focus on a change you made. I did not do any measurements for that and its been a while.
2.) Miller Capacitance - Just pure theory in my brain!I am not entirely sure about miller here, hence i didnt mention any miller capacitance in my inital post.
In Push Pull Amplifiers we almost never can rely on the idea of it having just a gain of 1. A gain of 1 would indeed imply that a 100K Resistor wouldnt have any effect in the hearing range.
I would assume that you can safely add up capacitance x 2 because we have two systems building one signal (bare theory) and if i have calculated correctly you already took that to consideration, hence 40KHz. Then its also questionable if we also can add up the series resistance we have from our gridblocker - my brain cant put that together at the moment.
But now we still have the amplification factor which is X to us. We simply dont know how often we have to multiply the miller capacitance in this system.
If i remember correctly ( im sure Aiken will cover somewhere )
CIn = CgK + CgA * A , where A is the amplification factor - i think you even have to add 1 to A for the sake of correctness.
Plus other variables:- We are possibly in a closed loop with Negative feedback (how much impact this has on linearity correction is a variable)
- We need to consider that if we push the tubes to B+, we cant build up any more amplitude but we still have nearly same amplification factor (depending on breakdown of B+). This of course applies to the full frequency range but i would assume that lower mud overrides higher crap.
Then one last thing to mention is that:
Lets say you have a typical EL34 or 6L6 Amp. Their Gridblockers usually are way lower in the 1 to 10k range. If you consider that their CgA and CgK are near identical (lower) than for an EL84 and a low value gridblocker is enough to stop this from oscillation, then my theory might not be far off from reality. There will be hughe impact of miller, due to amplification factor.
So in my opionion, there is only the chance of doing a frequency analysis via Spectrum analyzer. And since each amp is different (Transformers, B+, etc.) you may not end up with a reliable statement that large Gridblockers have an effect on X.
Cheers,
Geronimo
