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In the process of responding to a question about compensated Volume pots the other day, I stumbled into an idea which intrigued me, so I tested it out last night, and am pleased to report it works as predicted, and delightfully so.
As readers are aware, for a variety of reasons there tends to be brightness lost in the guitar signal as the volume pot is turned down. The traditional solution for this is to use a "bypass capacitor" that straddles the input and output of the volume pot such that whatever attenuation is applied to the overall signal is not equally applied to the top end of it. There are a variety of bypass schemes which I won't debate the relative merits of, but they all follow the same general plan.
If one examines the Tone/Volume controls on any of the early Fender amps, one sees an interestig configuration in which the Tone control has a reciprocal action. The wiper of the Tone pot is connected to the input of the Volume pot, and has caps on each end of it that do different things. You can see an example of it here: http://www.ampwares.com/schematics/deluxe_5e3.pdf
In one direction the tone pot bleeds treble to ground, as usual. In the other direction, it provides a bypass cap across the volume pot, but not until the resistance on that leg of the Tone pot is low enough. Of course, since the Tone control has a reciprocal action, it does not reach that minimum sufficient resistance until such time as just about all possible treble bleed out the other side of the pot is minimized.
What occurred to me is that one could use this to provide two different degrees of treble bypass on the Volume pot. The Volume pot would have its default bypass arrangement, using a smaller value cap, and when the Tone pot was maxed, a second cap would be added in parallel, providing treble bypass at a lower corner frequency.
Why do this? On my guitars, I like to use an over-valued bypass cap, like 1000-1500pf, such that turning down the volume to around 7 gets me more of a bass cut than an overall volume cut. I like this for making humbuckers or P90s sound a little more single-coilish. Basically, I like it if I want to do chicken-pickin or Motown chicka-chicka scratchy rhythm. As a bass-cut it works better than coil-cancelling because you still retain the hum-cancellation. However, once installed, you can't really defeat it easily.
Enter the variable-compensation tone control (I'll copyright it as VCTC
).
Last night I tried it out. My volume pot is 500k, with a 470pf bypass (that's the way, uh-huh, uh-huh, I like it). The tone pot is 1M, though this might work better with 500k. The treble-bleed cap on the tone pot is .022uf. The cap that goes between the other outside lug of the tone pot and the wiper of the volume pot is 1000pf. So, when the tone pot is turned down a bit from max treble, there is a substantial resistance in series with the 1000pf cap and the effective bypass in the volume pot is only the 470pf. If I turn the tone up to max, that resistance is removed, and the bypass capacitance now becomes 470pf+1000pf = 1470pf.
Voila! I get to have my cake and eat it too. The additional cap has no impact on the treble bleed functioning, and of course since it is a bypass, it has no impact on tone when the volume pot is maxed. One cool aspect is that when I turned my Tone down to about 6, and turned the volume down to around 4, I could increase the "snarl" in the already-clear guitar signal by simply turning the tone pot up.
The values are not written in stone. The basic principle is simply to let the tone pot add more capacitance to the bypass path and let more upper mids through at lower volumes. Give it a try. You might like it.
As readers are aware, for a variety of reasons there tends to be brightness lost in the guitar signal as the volume pot is turned down. The traditional solution for this is to use a "bypass capacitor" that straddles the input and output of the volume pot such that whatever attenuation is applied to the overall signal is not equally applied to the top end of it. There are a variety of bypass schemes which I won't debate the relative merits of, but they all follow the same general plan.
If one examines the Tone/Volume controls on any of the early Fender amps, one sees an interestig configuration in which the Tone control has a reciprocal action. The wiper of the Tone pot is connected to the input of the Volume pot, and has caps on each end of it that do different things. You can see an example of it here: http://www.ampwares.com/schematics/deluxe_5e3.pdf
In one direction the tone pot bleeds treble to ground, as usual. In the other direction, it provides a bypass cap across the volume pot, but not until the resistance on that leg of the Tone pot is low enough. Of course, since the Tone control has a reciprocal action, it does not reach that minimum sufficient resistance until such time as just about all possible treble bleed out the other side of the pot is minimized.
What occurred to me is that one could use this to provide two different degrees of treble bypass on the Volume pot. The Volume pot would have its default bypass arrangement, using a smaller value cap, and when the Tone pot was maxed, a second cap would be added in parallel, providing treble bypass at a lower corner frequency.
Why do this? On my guitars, I like to use an over-valued bypass cap, like 1000-1500pf, such that turning down the volume to around 7 gets me more of a bass cut than an overall volume cut. I like this for making humbuckers or P90s sound a little more single-coilish. Basically, I like it if I want to do chicken-pickin or Motown chicka-chicka scratchy rhythm. As a bass-cut it works better than coil-cancelling because you still retain the hum-cancellation. However, once installed, you can't really defeat it easily.
Enter the variable-compensation tone control (I'll copyright it as VCTC
).Last night I tried it out. My volume pot is 500k, with a 470pf bypass (that's the way, uh-huh, uh-huh, I like it). The tone pot is 1M, though this might work better with 500k. The treble-bleed cap on the tone pot is .022uf. The cap that goes between the other outside lug of the tone pot and the wiper of the volume pot is 1000pf. So, when the tone pot is turned down a bit from max treble, there is a substantial resistance in series with the 1000pf cap and the effective bypass in the volume pot is only the 470pf. If I turn the tone up to max, that resistance is removed, and the bypass capacitance now becomes 470pf+1000pf = 1470pf.
Voila! I get to have my cake and eat it too. The additional cap has no impact on the treble bleed functioning, and of course since it is a bypass, it has no impact on tone when the volume pot is maxed. One cool aspect is that when I turned my Tone down to about 6, and turned the volume down to around 4, I could increase the "snarl" in the already-clear guitar signal by simply turning the tone pot up.
The values are not written in stone. The basic principle is simply to let the tone pot add more capacitance to the bypass path and let more upper mids through at lower volumes. Give it a try. You might like it.
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