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I've been doing some simulation work, and I have found that I told you guys wrong in my earlier stuff about subbing MOSFETs for triodes in tube amps.
What I was wrong about:
I said you can't use MOSFETs to replace tube gain stages because the high gate-source capacitance would eat all of the highs.
It turns out that the particular power MOSFETs I was looking at have a LOT of transconductance. Much, much more than a tube. You can trade away some of this transconductance to reduce the apparent input capacitance and still get good audio band gain.
I was wrong another way - there now exist power MOSFETs that have both high transconductance and low Ciss. There are even depletion mode MOSFETs that bias like a tube.
For grins, I simulated a Fender phase inverter but with IRF820 devices instead of 12AX7 sections. Used stock, the frequency response was absymal, even by guitar standards. It started rolling off highs at about 1.2kHz. Dull. But it had almost 60db of voltage gain.
But when I put in 1K of source resistor in each MOSFET source lead, the gain dropped to 25db and the frequency response increased out to -3db at 140kHz! Compare that to a 12AX7 doing 26db and 123kHz.
(Before I get the replies that simulators are not real world and that believing in simulators indicates naivety, I'm well aware of what simulators do and don't do well, and I'm long accustomed to sidestepping some of the worst issues.)
It looks like a MOSFET phase inverter is a practical thing to do.
1. No, I do not expect it to sound exactly like tubes do. However, if what you like to listen to is not phase inverter distortion, this circuit removes most of that. I don't contend that it's the same, just practical and maybe useful in some setups.
2. There are some low-Ciss MOSFETs that will do this better than the IRF820. Zetex makes some 450V N-channel devices with 50pF Ciss that come in a TO-92 package and will put up with the 2ma and 1/4W dissipation that a phase inverter tube section needs to do.
3. There are some low-Ciss depletion mode MOSFETs that will bias in the same manner as a tube (i.e., cathode resistor biasing) that will do the same thing; Supertex makes them - TO-92 package, 0.74W and 300V to 450V ratings.
Both of the low-Ciss families will either give you more PI gain or extend frequency response further.
Note: if you experiment with this, you must put a 100 to 1k resistor in series with the MOSFET lead directly at the MOSFET, and for MOSFETs which do not already have a built-in gate protection circuit, you must provide either a one- or two-zener gate protection to keep the gates from puncturing on transients.
The depletion mode devices are very interesting. I'll have to dig more into those.
I'll post some schematics at GEO when I get a chance.
What I was wrong about:
I said you can't use MOSFETs to replace tube gain stages because the high gate-source capacitance would eat all of the highs.
It turns out that the particular power MOSFETs I was looking at have a LOT of transconductance. Much, much more than a tube. You can trade away some of this transconductance to reduce the apparent input capacitance and still get good audio band gain.
I was wrong another way - there now exist power MOSFETs that have both high transconductance and low Ciss. There are even depletion mode MOSFETs that bias like a tube.
For grins, I simulated a Fender phase inverter but with IRF820 devices instead of 12AX7 sections. Used stock, the frequency response was absymal, even by guitar standards. It started rolling off highs at about 1.2kHz. Dull. But it had almost 60db of voltage gain.
But when I put in 1K of source resistor in each MOSFET source lead, the gain dropped to 25db and the frequency response increased out to -3db at 140kHz! Compare that to a 12AX7 doing 26db and 123kHz.
(Before I get the replies that simulators are not real world and that believing in simulators indicates naivety, I'm well aware of what simulators do and don't do well, and I'm long accustomed to sidestepping some of the worst issues.)
It looks like a MOSFET phase inverter is a practical thing to do.
1. No, I do not expect it to sound exactly like tubes do. However, if what you like to listen to is not phase inverter distortion, this circuit removes most of that. I don't contend that it's the same, just practical and maybe useful in some setups.
2. There are some low-Ciss MOSFETs that will do this better than the IRF820. Zetex makes some 450V N-channel devices with 50pF Ciss that come in a TO-92 package and will put up with the 2ma and 1/4W dissipation that a phase inverter tube section needs to do.
3. There are some low-Ciss depletion mode MOSFETs that will bias in the same manner as a tube (i.e., cathode resistor biasing) that will do the same thing; Supertex makes them - TO-92 package, 0.74W and 300V to 450V ratings.
Both of the low-Ciss families will either give you more PI gain or extend frequency response further.
Note: if you experiment with this, you must put a 100 to 1k resistor in series with the MOSFET lead directly at the MOSFET, and for MOSFETs which do not already have a built-in gate protection circuit, you must provide either a one- or two-zener gate protection to keep the gates from puncturing on transients.
The depletion mode devices are very interesting. I'll have to dig more into those.
I'll post some schematics at GEO when I get a chance.
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