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...but I probably don't. There, I admitted it! 
Here's a schematic: http://www.prowessamplifiers.com/sch...nder/pa100.pdf
I'm fixing one of these up, and I'm going to take out one or two of the tone stacks and replace them with the standard Fender tone stacks. Definitely going to leave at least one of these alone though.
So, here's my thinking on this, and if someone would be so kind as to show me where I'm going wrong, I would appreciate it.
1. The input coupling cap forms a high-pass filter with the 39k resistor and 250k bass pot = high pass filter, -3db @ 55 Hz.
* In series with the 500pF capacitor, we get an equivalent 476pF capacitor.
* I'm ignoring the coupling cap from here on out - it's blocking DC and big enough to not really matter for anything else.
2. The bass control:
* We get wide-band attenuation from the 39k resistor in series with the 250k bass pot. There is additional wide-band attenuation from this resulting series resitance, plus the 120k resistor, going into the volume pot.
* That 120k resistor's primary purpose is to prevent the bass control from shunting the whole signal at low settings.
* The combination of the 39k resistor and the 3300p cap form a low-pass filter with the knee at 1.2 kHz.
* The bass control then attenuates the passed frequencies, and sends them to the volume pot.
* The overall result: we can slightly or drastically attenuate everything below 1.2 kHz.
3. The treble control:
* This bears a strong resemblance to the Tweed Princeton one-knob tone control, except it's around the bass control this time, instead of a volume control.
* I'm not really sure how to analyze this, but I see potential knees at 1.2 kHz and 135 Hz. Subjectively I understand how this control works in poets' terms (variable bright cap, becomes low pass).
Am I in the right ballpark here? I don't know how to use SPICE (or how to plot this without SPICE, for that matter) but it seems safe to guess that this stack can be set for basically flat response, wherever the midpoint might be on J-taper pots.
Thanks
Here's a schematic: http://www.prowessamplifiers.com/sch...nder/pa100.pdf
I'm fixing one of these up, and I'm going to take out one or two of the tone stacks and replace them with the standard Fender tone stacks. Definitely going to leave at least one of these alone though.
So, here's my thinking on this, and if someone would be so kind as to show me where I'm going wrong, I would appreciate it.
1. The input coupling cap forms a high-pass filter with the 39k resistor and 250k bass pot = high pass filter, -3db @ 55 Hz.
* In series with the 500pF capacitor, we get an equivalent 476pF capacitor.
* I'm ignoring the coupling cap from here on out - it's blocking DC and big enough to not really matter for anything else.
2. The bass control:
* We get wide-band attenuation from the 39k resistor in series with the 250k bass pot. There is additional wide-band attenuation from this resulting series resitance, plus the 120k resistor, going into the volume pot.
* That 120k resistor's primary purpose is to prevent the bass control from shunting the whole signal at low settings.
* The combination of the 39k resistor and the 3300p cap form a low-pass filter with the knee at 1.2 kHz.
* The bass control then attenuates the passed frequencies, and sends them to the volume pot.
* The overall result: we can slightly or drastically attenuate everything below 1.2 kHz.
3. The treble control:
* This bears a strong resemblance to the Tweed Princeton one-knob tone control, except it's around the bass control this time, instead of a volume control.
* I'm not really sure how to analyze this, but I see potential knees at 1.2 kHz and 135 Hz. Subjectively I understand how this control works in poets' terms (variable bright cap, becomes low pass).
Am I in the right ballpark here? I don't know how to use SPICE (or how to plot this without SPICE, for that matter) but it seems safe to guess that this stack can be set for basically flat response, wherever the midpoint might be on J-taper pots.
Thanks
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