I would like to thank You! I have a lecture for foreign students (my native language is Polish). Your presentation is very useful because of electronics vocabulary and your pronunciation. Your description of electronics phenomena is glorious and clear! Voice ... of course cool.
You are so kind. I really appreciate your comment. Sometimes, I'm a bit self conscious of the sound of my voice, you see, I can't hear, or at least not too well. So, I have just an idea of what my voice sounds like. Thank you very much.
Haha. You have nothing to worry about! :) Even if you're having a lecture about the history and chemical composition of a potato, I'd still gladly listen just to hear your epic voice.
To be honest i was having nightmares on chapters of ECE especially FET and the books really confused me a lot.However i found yur video the best, explained in details and truly my concepts are now cleared.All the credit goes to u.Even i recommended my friends in watching this video..thanks a lot sir :) :D
I completed my major in mechanical engineering and somehow struggles in dealing electronics stuffs. This kind of educational material could never be better and really help me a lot. Deeply appreciated!
OMG....Thanks a lot for these videos , your videos really help me up so much , and it really give me a clear concept for this chapter.!!!! and I love your voice...so deep and so clear!
What an incredible job you've done in describing FET transistors. Thank you very much - a great overview. Excellent theory explanations - crystal clear!
I really appreciate this lecture! Really need to ramp up my math skills. I recently enrolled for electronics engineering. I start this fall. This video amoung other on youtube have been a great help. Thanks
Thanks for the wonderful and easily understandable working of FET. I wish we had a prof in our college explained it the way you did.Keep up the good work wonderful man.
Thank you Professor Linares. This is the best video about FETS on the English language internet I have found so far. Excellent work. In future videos, could you elaborate more on Depletion Mode versus Enhancement mode? And also mention that there are also P channel FETs? Thanks again!
Kabry Campbell Thank you M.Kabri Campbell from Jamaica. I love the Caribbean. I pass out from the sun and the heat every time I go there (once on an island west of Trinidad, Margarita, and the second time on an archipielago, Los Roques,, I still love the Caribbean, the warm sea. And warmer people. Thanks for posting.
Very clear and thorough explanation. No rush. How can we find the the mobile charge in the channel at any point and under what condition would mobile charge in the channel be the same with that of the bulk material? Great video! Thanks
@@rolinychupetin Sir I am preparing for Gate Exam which will be held in INDIA for entrance of IITs to pursue M.tech and other technical courses or jobs Your lectures are so much helpful Thank you Sir
Hi everyone! Thank you so much for the class ! I have a little question: when ypu compute Id, how do you know it wasn´t the other solution of the quadratic equation? My calculations shows that it could also be 7,9mA but couldn´t understand the criteria to do not consider ir. Thank you so much once again!
Hello Professor For the case where V_gs > V_gs(off) : the fact that the depletion zone is wider at the top than at the bottom, is it just an experimental observation or is there a logical explanation for it?
Thank you for the video, you explain things verry well. I only did not understand what happens in triode mode with current Id, maybe some equations would help.
Roliny, are you familiar with the work of dr.thomas moray? if so what type of transistor would be the most similar to his moray valve. Awesome video btw, thank you.
Just a comment on way of speaking: near the 9:27 point, I describe the source and the drain as the parts of the channel where electrons "appear" into the channel and "disappear" off the channel, correspondingly. Of course, the electrons will not disappear from the circuit, they will just continue their journey through the cables, external resistors if any, and through the source to "re-appear" at the source terminal of the channel again. This way of speaking, which was coined by the original creators of the device may sound odd to modern ears. Remember, the "appearance" and "disappearance" is given with the channel as the proverbial context. I thought this would be evident, but it was not so to one of the almost half a million viewers, so I figured that this comment might be of help.
This was a great refresher ! I studied the transistors (and I kind of hated them) in college, almost 20 years ago and I wish the theory was presented then in such a clear and enjoyable way as it is in this video. Thank you for the explanation, and for your willingness to share the knowledge and make it so accesible. Hats off for that. And, I love the accent.
Well explanations everywhere but the fact you feel the need to share and reasons of your belief, hats off sir. You deserve all the gratitude. And that voice, i would say is more of a capturing one, not letting the visitor stray... I would like to send you some of my appreciation as a gift if i ever had your mailing address.
your video has just made me amazed... for an hour, I was thinking, how one can teach so smoothly... easily.... like a music... I have shared your video to my students... even teachers can learn from your video...... and what an amazing voice you have.... thank God you are in this "field" ("field of Electronics")
