Thanks for valuable info sir (at free of cost)...Those who are having little bit knowledge about MOSFET , Cadence & Op-amp design ...then they will definitely fall in love with ur teaching ...just like me...
The lecture is better than good. Coming from an only digital circuit designer who tried his best to avoid looking or considering L/C components. It really is smooth even with the total lack of RF or analog background (I do have some undergrad level background in filters though). Seeing it being a good lecture, it is unfortunate with all the background fan noise (ironically). I can remove that noise (or at least attempt to) if you are willing to give me the source of the video, and I will send it back to you hopefully improved.
Sir, its a really good lecture. Just confused in one concept. In your lecture, you said, the noise will reduce with gm but our textbook says noise current of MOSFET is proportional to gm of the devices. Am I missing anything?
Gate capacitance (Cgs) induced thermal noise is inversely proportional to gm but channel thermal noise is proportional to gm. Could you explain why the mosfet thermal noise is inversely proportional?
Thanks for valuable info sir (at free of cost)...Those who are having little bit knowledge about MOSFET , Cadence & Op-amp design ...then they will definitely fall in love with ur teaching ...just like me...
Thanks for the very thorough explanation of the operation and design considerations of modern LNAs. This could easily be a university lecture!
Amazing work Dr. Susanta ! I have recommended this video to my MS batchmates here at Arizona state university, USA
Amazing lecture, this practical aspect of the design is missing in most of the lectures on youtube. Thank you for sharing this incredible knowledge.
The lecture is better than good. Coming from an only digital circuit designer who tried his best to avoid looking or considering L/C components. It really is smooth even with the total lack of RF or analog background (I do have some undergrad level background in filters though). Seeing it being a good lecture, it is unfortunate with all the background fan noise (ironically). I can remove that noise (or at least attempt to) if you are willing to give me the source of the video, and I will send it back to you hopefully improved.
Well Explained. Best video of LNA Design.
Hats off Sir,Simply awesome
excellent lecture, great work
Thank you....
Did you intentionally add this background noise to let people know how important the LNA is?
Thank you, it is very clear and helpful
Great lecture! Thank you very much!
Thanks for the video. Well explained.
Thank you Sir!!! Amazing
Is Cgd in parallel with Cgs?
splendid work....
Spectacular.
very good perspective
Outstanding.
great video!!! thanks!
Too much noise in low noise amplifier's video
Sir, its a really good lecture. Just confused in one concept. In your lecture, you said, the noise will reduce with gm but our textbook says noise current of MOSFET is proportional to gm of the devices. Am I missing anything?
Excellent!
very veru useful post
Gate capacitance (Cgs) induced thermal noise is inversely proportional to gm but channel thermal noise is proportional to gm. Could you explain why the mosfet thermal noise is inversely proportional?
good job! get it.
thank you sir
There is lot of background disturbance in the video.Could you upload it again pls
ya he should use an LNA for lowering the background noise at the same time amplifying his voice
Sir, I need to connect to you, need your guidance on my present mtech thesis to design a LNA without RLC
So you will be using transmission line?
@@skgupta563 no I am optimizing the LNA circuit
@@ssvideos1995 then how will you match the impedance??
@@skgupta563 using active inductors
@@ssvideos1995 well Im also working on similar project
thank you