FET
Source, drain, and gate are the three terminals that make up a field effect transistor. The majority charge carriers enter the FET through the source terminal, and the majority charge carriers exit the FET through the drain terminal. Diffusion of an N-type semiconductor and a P-type semiconductor results in the formation of the gate. As a result, a region of the PN junction that controls the carrier's flow from source to drain is heavily doped. The drain current is governed by the voltage applied between the gate and the source (Id). This indicates that the output current is controlled by the voltage difference between the gate and source (Vgs). FET is therefore known as the voltage controlled device. Due to the fact that this device only uses either electrons (n-channel) or holes (p-channel) as charge carriers during operation, not both, it is also known as a unipolar device.
Yeshi Jamtsho thank you for reflecting on the topic. It helped me to revise and revisit on the topic.
ReplyDeleteThank you Yuden for your prompt comments and it really did encourage me to improve my next post.
DeleteVery well explained, the three terminals of FET are mentioned and the two types of channels and the charge carrier type is given.
ReplyDeleteThank you Jamyang, your comments did give me immense inspirations to work more on my upcoming blog.
DeleteThough you have written briefly about FET, it would have been better if you have given some real life application about FET. # appreciated you knowledge 👏👏
ReplyDeleteThank you Durgish for your great suggestion, i will try to follow up your comments in next post.
DeleteGood points Yeshi Jamtsho. It was of great help to me.
ReplyDeleteThank you Bidha for going through my post and got positive energy that it helped you.
DeleteI would rate this explanation a very good work, explanation are well given and it is easy to understand
ReplyDeleteThank you Leki, your comments inspired me to come up with more blog with improvements.
DeleteThank you Yeshi for making it into a simpler explanation. And giving us the clearer view about FET.
ReplyDeleteThank you for your great comments, i will be trying to provide concepts in much simpler way in next post as well.
DeleteExplained well. Your text provides a clear explanation of the working principle of FET, which helps us to understand the topic well.
ReplyDeleteThank you Tenzin, your comment gave me energy to improve my next post.
DeleteYou did a good job in this and thanks for we got the core concept about FET in much simpler note.
ReplyDeleteThank you for your wonderful comments.
DeleteWell and nicely revised all the portions covered by sir …thank you yeshi and appreciate your wonderful work la.
ReplyDeleteThank you Pema, i do appreciate your comments as well.
DeleteBrief and precise explanation provided. We were able to get the concept of FET and also understand it's basic working mechanism as you have explained it in an uncomplicated way. Thank you for posting this, because of this we are also able to reflect what we had studied in the last class.
ReplyDeleteThank you Tenzin , your comment is definitely motivation for my next blog .
DeleteWell explained. Your work is comprehensible and you covered the entire explanation in an unchallenging way. Your work would be more fascinating if you insert some images related to your work.
ReplyDeleteThank you samir for compliments and i will try to add images in my next post.
DeleteNicely done yeshi...
ReplyDeleteThank you Tenzin for reading and commenting.
DeleteWell explained Yeshi. Though you have kept it brief and simple it was of so much help to me as I could understand the concept about FET more in a simpler way.
ReplyDeleteThank you Lhadrey, it was of great joy that my post helped you in some way.
DeleteGreat Work Yeshi. I was able to ;
ReplyDeleteFET's operation based on the principle of modulation of the conductivity of a semiconductor material by an electric field.
Classification of FET i.e. Junction Field-Effect Transistors (JFETs) and Metal-Oxide-Semiconductor Field-Effect Transistors (MOSFETs).
I could know the FETs several advantages over other types of transistors, including low power consumption, high input impedance, and low noise.
Thank you for reading my post and what you understood was source of encouragement for me.
DeleteYou have well explained yeshi, since you written in such a way that in understandable.
ReplyDeleteNice one yeshi!
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ReplyDeleteYou have done a good explanation on the topic with simple language that made it easier to understand yeshi.
ReplyDeleteThank you Yeshi for ur brief explanation on FET, it helped me in recollecting the important points from previous class..
ReplyDeleteThank you for sharing the information. It is very nice and informative. Really explains everything in detail.
ReplyDeleteThank you yeshi for the explanation. Nicely written la
ReplyDeleteYeshi, you have flawlessly explained about FET and brought majority of the important points together. Alot of appreciation to your work.
ReplyDeleteThank you for sharing your knowledge .Well explained..
ReplyDeleteBreifly well explained about the FET
ReplyDeleteThe explanation on the topic was on point and I could revisit on the lesson that was taught was the previous class. Moreover with this simple explanation I could grab more knowledge.
ReplyDeleteYou explained in such away that, it is convenient for others to grab an information and knowledge.
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