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I'm about to bias my amp and have some questions regarding the differences between 'recommended' values and those found in Fender schematics. Particularly the different versions of the Champ using one 6v6 (or two).
Is it possible that biasing in Fender Champs was not ideal with respect to biasing a 6V6 for Class A operation as recommended in the tube specifications ?
Up until now, I've been blindly following Fender's schematics with respect to plate voltages and component values. But reading about Class A biasing, it looks like the plate voltage should be a lot less or the cathode resistor (when present) a lot higher to bring things into line with recommendations found in tube spec sheets.
I've also come to the conclusion that it's not possible to properly bias a 6v6 with fixed bias when the plate voltage is close to 400v, and yet the Super Champ does exactly this (on each 6V6).
My present dilemma is that I thought I could switch from cathode bias to fixed bias on my power tube(s) by simply replacing the cathode resistor/cap bias with a biasing grid voltage, selected by a DPDT switch.
But I now realize that it's not so simple. Cathode biasing reduces the voltage the tube sees compared to fixed bias (somewhere between 25v and 40v). So if I adjust plate voltage and the cathode resistor and get things in spec for proper Class A biasing, I won't be able to adjust fixed bias to the higher voltage the tube sees without the cathode resistor and still be in spec.
The question all this comes down to is this : would it be better to stray from ideal by going lower with the plate voltage and the chosen cathode resistor to then also be able to properly bias with fixed bias, or should I make things ideal for cathode bias and live with whatever departure from ideal is brought on by having too high a voltage across the tube (and adjusting the fixed bias to at least keep dissipation in bounds) ? Or should I just forget about switching between cathode and fixed bias ?
Is it possible that biasing in Fender Champs was not ideal with respect to biasing a 6V6 for Class A operation as recommended in the tube specifications ?
Up until now, I've been blindly following Fender's schematics with respect to plate voltages and component values. But reading about Class A biasing, it looks like the plate voltage should be a lot less or the cathode resistor (when present) a lot higher to bring things into line with recommendations found in tube spec sheets.
I've also come to the conclusion that it's not possible to properly bias a 6v6 with fixed bias when the plate voltage is close to 400v, and yet the Super Champ does exactly this (on each 6V6).
My present dilemma is that I thought I could switch from cathode bias to fixed bias on my power tube(s) by simply replacing the cathode resistor/cap bias with a biasing grid voltage, selected by a DPDT switch.
But I now realize that it's not so simple. Cathode biasing reduces the voltage the tube sees compared to fixed bias (somewhere between 25v and 40v). So if I adjust plate voltage and the cathode resistor and get things in spec for proper Class A biasing, I won't be able to adjust fixed bias to the higher voltage the tube sees without the cathode resistor and still be in spec.
The question all this comes down to is this : would it be better to stray from ideal by going lower with the plate voltage and the chosen cathode resistor to then also be able to properly bias with fixed bias, or should I make things ideal for cathode bias and live with whatever departure from ideal is brought on by having too high a voltage across the tube (and adjusting the fixed bias to at least keep dissipation in bounds) ? Or should I just forget about switching between cathode and fixed bias ?
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