I need simple help and recommendations.
I want a simple FET stage... not a DA or anything... that has a voltage gain of about 10 and that can be run from a +40v supply.
It will have an unbypassed source resistor to lower gain and lower distortion.
Should I look for FETs that have a lower inherent gain, or just get one and increase my source resistor to lower gain?
Recommendations on which FET's to use (ya I know.. the 2SK170)..
Running anywhere from 1-5mA is good. Will be driving a NPN follower with a current gain of 400. BC549.
Thanks for ANY specific recommendations.
🙂
I want a simple FET stage... not a DA or anything... that has a voltage gain of about 10 and that can be run from a +40v supply.
It will have an unbypassed source resistor to lower gain and lower distortion.
Should I look for FETs that have a lower inherent gain, or just get one and increase my source resistor to lower gain?
Recommendations on which FET's to use (ya I know.. the 2SK170)..
Running anywhere from 1-5mA is good. Will be driving a NPN follower with a current gain of 400. BC549.
Thanks for ANY specific recommendations.
🙂
Why 40 volts????
Most good JFETs don't like that much voltage across them. Sounds like time for one of them cascode things.............
Jocko
Most good JFETs don't like that much voltage across them. Sounds like time for one of them cascode things.............
Jocko
Yeah...
Cascode... was another idea too....
Ideas for good types? And should I bias the cascode up to over 5v or so?
Thanks!
Cascode... was another idea too....
Ideas for good types? And should I bias the cascode up to over 5v or so?
Thanks!
I would run the JFET with at least 5 V, probably 10 V. Too low, and they sound like crud. Too high, and they get hot and, in theory, noisy.
BTW..................
If I get one more member ask me via e-mail why cascodes have more gain, I'm gonna rant.
They don't have more gain, just more bandwidth. And for all practical (engineering) purposes, they are a single gain element; as their response is very close to that of a single pole stage.
Jocko
BTW..................
If I get one more member ask me via e-mail why cascodes have more gain, I'm gonna rant.
They don't have more gain, just more bandwidth. And for all practical (engineering) purposes, they are a single gain element; as their response is very close to that of a single pole stage.
Jocko
Where to connect?
So for 12v... connect between upper FET gate and lower FET source?
Could I use zeners or diodes?
Should I just lower the supply voltage to 28v?
What FETS should I use.. and should I really cascode them?
TXS!
So for 12v... connect between upper FET gate and lower FET source?
Could I use zeners or diodes?
Should I just lower the supply voltage to 28v?
What FETS should I use.. and should I really cascode them?
TXS!
Important question: what's the voltage level you want to amplify? I'd give you a different answer for 1 volt than 1 millivolt.
Line Stage
Its for a pre-amp.
So... 1v is what I want to amplify.
50K volume pot b4 FET.
So... yeah it does limit my choices....
Looking for low distortion, simple 1 gain stage, voltage gain of 10, running from 24v to 36v power supply (SLA batteries).
Cascode or not.... doesn't matter really...
BC549 emitter follower on output.
does that help?
Its for a pre-amp.
So... 1v is what I want to amplify.
50K volume pot b4 FET.
So... yeah it does limit my choices....
Looking for low distortion, simple 1 gain stage, voltage gain of 10, running from 24v to 36v power supply (SLA batteries).
Cascode or not.... doesn't matter really...
BC549 emitter follower on output.
does that help?
Then a plain vanilla 2N5566 or the like should work just fine. You could cascode, but you probably don't need to; since it's a matched pair, you can parallel the two devices. Run it with 1.5 ma or so in cascode, 3 ma or so in parallel.
temp drift?
Looking at those FETs....
there is wide variation in the graphs when temp is changed.
The best place to run them at looks like 4mA each.
Also noise level seems high.....
Looking at those FETs....
there is wide variation in the graphs when temp is changed.
The best place to run them at looks like 4mA each.
Also noise level seems high.....
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