Very cool and informative video. Many technicians work too hard on doing videos to impress or put down other techs. This video is valuable information to techs starting out or those who are just curious about how these things work.
Good explanation. I prefer the resistor from gate to ground. It's part of a bias voltage divider... and has no negative effect on gain like the other two methods you mention.
Fantastic video, how can you know the value of the capacitor and resistance for the feedback method for the 20 meter band, which mathematical formula can be used
How do I determine the resistors used I see the range of 1 to 10 ohm and is this why most amplifiers have a 10 ohm resistor from the transformer to ground
Very cool and informative video. Many technicians work too hard on doing videos to impress or put down other techs. This video is valuable information to techs starting out or those who are just curious about how these things work.
Great video RF Man. Just what I needed. Thanks!
Good explanation. I prefer the resistor from gate to ground. It's part of a bias voltage divider... and has no negative effect on gain like the other two methods you mention.
Great Video. Very clear and informative. Thanks a lot.
Thanks for sharing. Fantastic presentation.
10n and 10 ohms in series from gate to Gnd. LDMOS seems stable without. Ref freq is VHF. HF might be different.
great explanation and demo,thx !
Thanks for your comments!
Fantastic video, how can you know the value of the capacitor and resistance for the feedback method for the 20 meter band, which mathematical formula can be used
10n and 10 ohms in series from gate to Gnd. LDMOS seems stable without. Ref freq is VHF. HF might be different.
Thanks for explaining this
Hello.How can calculate RC negative feedback
How do I determine the resistors used I see the range of 1 to 10 ohm and is this why most amplifiers have a 10 ohm resistor from the transformer to ground
Does it can applied to igbt to?
great! Thx!
Thanks!
where do you probe at?