lumanauw: Quite impressive website you have
I think you can make the single differential NFB amp, i didn't build it, but something like this should work:
Gain is (R1+R2/330) * (R3+500) / 1000 with shown values approx 120.
I think you can make the single differential NFB amp, i didn't build it, but something like this should work:
Gain is (R1+R2/330) * (R3+500) / 1000 with shown values approx 120.
An externally hosted image should be here but it was not working when we last tested it.
Hi, Lars,
Thanks. I made it years ago. But it is not for guys like you, since I'm still learning here.
Is there any problem with DC offset stability with single differential non-feedback power amp?
I also a question about other possibility. You like to put big RE (emitor resistor), like in differential to lower local gain. I learned here, that lower local gain can be also made by putting R from collector to base(with base resistor offcourse), to make local feedback. Is this a good option for making non-feedback power amp besides putting big RE?
It is nice that you share an equation of non feedback.
Thanks. I made it years ago. But it is not for guys like you, since I'm still learning here.
Is there any problem with DC offset stability with single differential non-feedback power amp?
I also a question about other possibility. You like to put big RE (emitor resistor), like in differential to lower local gain. I learned here, that lower local gain can be also made by putting R from collector to base(with base resistor offcourse), to make local feedback. Is this a good option for making non-feedback power amp besides putting big RE?
It is nice that you share an equation of non feedback.
R1+R2 (not R1//R2, right?)/330 I understand. The 500 comes from 1k DC pot/2, right?. But where the 1000 comes from?Gain is (R1+R2/330) * (R3+500) / 1000 with shown values approx 120.
- Status
- This old topic is closed. If you want to reopen this topic, contact a moderator using the "Report Post" button.