Pots is pots?? (pic)
- Thread starter Top-L
- Start date
I never use it.
I'm thinking of converting the tone control on some of my guitars to a rotary indent with various resistors to change the value of the volume pot.
According to the Fralin article I linked, it should be possible to use resistor to change the "value" of the vol pot. Still not clear if this will do that same thing as another pot.
I'm beginning to think that you do too much reading and not enough playing and listening. Keep in mind that you can find ANYTHING on the internet...someone may even say that the 250k pot is brighter than a 500k pot and even back it up with some data.
You can see that even on this one thread there are conflicting statements about the tone of 500k + 500k vs one 250k.
Just because someone says it, doesn't mean it's true. And it doesn't even really matter...accept what people say as their opinion, then try it out and see if it works for you.
Artie
Peaveyologist
Yup. Personal experimentation is the holy grail.
freefrog
Well-known member
All is a question of situation...
Take two linear pots, one measuring 250k and the other 500k. Mount them as volume controls.
Full up, obviously, the 500k pot will make the sound brighter.
But once lowered @ 50%, what happens? The linear 250k pot puts 125k only between the pickup(s) and output + 125k between output and ground. The 500k puts twice this resistance on each half of the voltage divider... in such a way that @ 5/10, the linear 250k volume control might/may/could/should make the resonant peak 2dB higher and the tone brighter... at least if other parameters (cable capacitance, input impedance) are typical.
FWIW : hasty sum up of experiments / measurements done here for a long time.
Yes. No. Almost…I’d venture to say that in fact, physical reality is a bit more complex than this… and might change totally according to the context involved.
If you swap a single 250k volume pot for a 500k volume + a 500k tone then compare the sounds with all these pots @ 10/10, you may/might/ could/ should hear (or not) a subtle difference due to the possible influence of the tone cap on upper harmonics... but the difference should be precisely that: "Subtle". And the core tone / overall brightness should stay similar. Reason: the resonant peak should have exactly the same height in the two cases because this prominent frequency is set by the resistive load paired with the pickup(s). A cap between a tone pot and ground tends to change upper harmonics only from 10/10 to 3.5/10 approximatively (then it shifts down the resonant frequency so drastically that it affects fundamental notes, but that’s another story).
As a side note, I’ll just add that paradoxically, the influence of a tone cap on the sound with a tone pot full up should be more noticeable with a LOW value capacitor (like 0.0022µF = 2.2nF) than with a standard one (like 0.022µF = 22nF)... that’s all the mystery of impedance… But you might also notice no difference at all: again, it depends on the physical & musical situation in its globality.
So, I totally agree with the idea that nothing replaces personal experience with such things – and that my wordy clumsy post was therefore not necessary. LOL!
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All is a question of situation...
Take two linear volume pots, one measuring 250k and the other 500k.
Full up, obviously, the 500k pot will make the sound brighter.
But once lowered @ 50%, what happens? The linear 250k pot puts 125k only between the pickup(s) and output + 125k between output and ground. The 500k puts twice this resistance on each half of the voltage divider... in such a way that @ 5/10, the linear 250k volume control might/may/could/should make the resonant peak 2dB higher and the tone brighter... at least if other parameters (cable capacitance, input impedance) are typical.
FWIW : hasty sum up of experiments / measurements done here for a long time.
Yes. No. Almost…I’d venture to say that in fact, physical reality is a bit more complex than this… and might change totally according to the context involved.
If you swap a single 250k volume pot for a 500k volume + a 500k tone then compare the sounds with all these pots @ 10/10, you may/might/ could/ should hear (or not) a subtle difference due to the possible influence of the tone cap on upper harmonics... but the difference should be precisely that: "Subtle". And the core tone / overall brightness should stay similar. Reason: the resonant peak should have exactly the same height in the two cases because this prominent frequency is set by the resistive load paired with the pickup(s). A cap between a tone pot and ground tends to change upper harmonics only from 10/10 to 3.5/10 approximatively (then it shifts down the resonant frequency so drastically that it affects fundamental notes, but that’s another story).
As a side note, I’ll just add that paradoxically, the influence of a tone cap on the sound with a tone pot full up should be more noticeable with a LOW value capacitor (like 0.0022µF = 2.2nF) than with a standard one (like 0.022µF = 22nF)... that’s all the mystery of impedance… But you might also notice no difference at all: again, it depends on the physical & musical situation in its globality.
So, I totally agree with the idea that nothing replaces personal experience with such things – and that my wordy clumsy post was therefore not necessary. LOL!
The new guitar with a 500K vol (and no tone control) didn't sound "right" with any of the pickups in there. When I replaced the pot with a 250K, everything sounded great and virtually identical to how the pickup sounded in a 500+500 guitar.
So I agree that one needs to test, but if it wasn't for the "theory" pointing me in that direction, I probably never would have tried it. For a couple reasons:
1) Because "everyone knows" that 500K pots are for humbuckers.
2) Because "everyone knows" that the existence of a 500K tone pot on full makes very little difference to the sound.
IME, the lack of a tone pot made a BIG difference on the top end. (Now I'm going to have to check all the tone caps in my guitars to see what values they are.)
If I had listened to the other side of the argument (or conventional wisdom), I may have stayed with the 500K pot and never bonded with the new guitar.
freefrog
Well-known member
For the record, I had to cure a couple of times the problem of a "too bright" sound with tone pots whose connections were erratic... For instance, the mere fact to turn on the tone control would put a pressure on the pot and disable it electrically... resulting in a painfully harsh sound. Conversely, I had once to take care of a guitar with a 500k tone pot whose actual resistance was... 50k. No need to say that it was rather dull sounding.
Conclusion? Yes, the presence of a "proper" resistive load is most often critical, tonally speaking.
Glad to know that you've solved your problem, anyway. Enjoy with your reborn guitar!
