I would say that yo get useful attenuation the "Rheostats" would have to be 2 - 10 times the value of the grid leak resistors. For most this would result in pots greater than 1 meg which would be hard to find. 47k grid leak sound pretty low to me. IMHO

Also you are right to think it will change frequency response but how much is an open question.

That is a good point; I can always tack in resistors to see what a good value would be.

You'd think that, right? For thermal stability Rg1 should be max 100k, and since there are two tubes sharing the same grid leak resistor that means max 50k. Which would be a stiff load for an LTP, except Fender went with a 12AT7 with 47k plate resistors for a Zo in the 8.5k-ish territory. The Silverface phase inverter is one of the first things people "Blackface" but it's all-around better than the Blackface version IMO.

Well, as far as the high end is concerned you're adding a big honking grid stopper, but even at 500k high-end rolloff doesn't occur until around 31 kHz. The low end is another story; I've cut the coupling caps back to 47nF for a -3dB point of 72Hz, but adding more load resistance means the -3dB point drops rapidly down to the 10 - 20 Hz region. Being a Twin though, that's around what it was with the original 100nF couplers.

The distortion performance is probably anybody's guess.

"Oh yeah for two tubes... but you will notice that in the schematic the bottom pair of tubes uses a 68k grid leak. Plus there is a 10k balance pot that figures in also. This implies that the two ganged pots need to be different values. Maybe not though.


Also two tubes worth of capacitance. My GE data sheet for 6l6gc says 10uuf total input capacitance per tube. So 20uuf total right? Plus any for extra wiring. If I use my standard rule of thumb formula f = 1/(2 * pi * R * C) I get ... f = 16kHz for 500k grid stopper. This would still be useable though.
Don't really know how you calculate low f cutoff.
I am curious how this might work though.

In a slightly different direction... have you ever tried a rheostat in series with say a .1 mfd cap that connects between the grids of the LTP for a master volume?

Rather than a rvariabl resistor in series which provides a very limiter range, wire them as conventional volume pots referred to ground, which can dial output power down to 0, far more useful.
The limited range of simple series resistors will be perceived by users as a still painfully loud amp, that's why it's not used commercially or in boutique amps.
You will need to add a couple extra coupling caps after them to avoid messing with bias, *or* refer them to bias voltage, to achieve the same.
The bias cap is audio ground so no problem with that.

I replaced the 68k with a 47k.

Ah, you got me there on doubling the input capacitance!

I haven't tried a "crossline" master, no. I've heard they can be somewhat finicky but I believe Matchless uses them with some success.

Yeah, plotting the attenuation on a semi-log scale was what I was missing. I'll probably go with a Lar/Mar type, which is referenced to the bias supply (or in this case to each side of the bias balance pot) with a resistor between the wiper and the bottom of the pot to ensure you don't lose bias if the wiper lifts.

Oh well, thanks guys!