How FETs Work - The Learning Circuit

Hands down the best explanation of MOSFETS and JFETS on RUclips! Thanks! 👍🏻

I had this all in college but with these Visuals I see it so much clearer. I wish I had access to these visuals back then.

This is the best explanation of FETs I've come across youtube. Well done!

This channel always help me for my studies. Thank you so much. During lockdown my college is closed but thanks a lot to channels like of your one and RUclips for availing a online study platform for us students.

The visualizations in this series really help!

Karen, your videos are awesome !!! . really appreciate for the great knowledge. Very simple, descriptive and clear understanding.

I can't believe how good this video explains the topic. Unbelievable

Thank you very much, this video was so helpful to me, and I'm looking forward to seeing many more.

This was really clear and concise! Very easy to understand!

The best explanation video one could find is this

Best transistor video on the internet that I've ever watched

Great explanation. So clear. Well done. I now understand something that I have never understood.

Best explanation I've had. Thank you

Excellent presentation. This has been helpful. Thanks

Thank you!! This is the best explanation I could ever hope for! I though I could do it on my own, but I was mistake.

It gives more clarity and understanding. Thanks

Thank you for these videos!

This is really good stuff thanks for putting this out there!

Fantastic explanation, thank you very much.

So well done. Thank you.

Thanks, Karen!

Thank you so much . Keep the great work going

Excellent presentation 👍

Thank you so much, Karen!

thanks for the class .............god bless you

Your explanation is good and clear 👍

Very nice thanks for your help and training

thank you very much, loved it.

Thank you so much for your help

Great simulation. Thanks a lot

Your videos are owesome thank you

Cheers Karen!

Man if I had a teacher like this during the transistor classes a school I might have actually paid attention.

At 0:40 I think you compared a PNP BJT with a N-type MOSFET, because the drain should be the equivalent of the colector, gate-base and source-emitter.

..good visual explanation, thanks👌

This explanation was SPOT On.

We will get good knowledge in how to work transistors ❤

Mam, Ur are very very good at teaching,u are just mind blowing,amazing mam,thank you for your information ❤❤❤

Thanks for the generosity to teach !!
I would suggest to slow down the pace of the teachings, to help beginners get a better grasp of what's being said.
Thanks again.

you make me cry ..you are great teacher ^_^

great video

Nice Informative video

❤ thank you

Great video Karen. When will you do one on OP-Amps?

When you come back to teach, I will come to listen. I like to see women teaching.

Thank you Thank you

Thanks sister

wow ! thanks !

2:21 why the Gate Source voltage needs to be lower than the Drain Source voltage to a depletion zone happens? In a normally PN junction the higher the voltage is, the higher is the depletion zone (if it is reverse connect)

very helpful

Could a FET be used similar to a potentiometer (varisistor)? Even if a lot of heat would be created to waste energy

Simply put it, in a n channel jfet, you increase the negative reverse bias gate voltage. - vgs . In a p channel jfet, you increase the positives reverse bias gate voltage, + vgs.

06:22 : How is it possible that the drain current can be larger or smaller than the source current in a Mosfet? (Apart from the tiny charge to initially charge the gate.) Is this not an error in the video?

Very good video I like

great!

Tks Beauty girl, exelent video, 💯

thank you clever girl

It so usefull

Seems that the D-mosfet was not forward biased to increase the channel width in the last portion of the video, wouldn't the gate need a positive charge,drawing negative charges into the channel from the substrate, increasing the width of the channel and there by increasing current through the mosfet, the battery, it seems, should of been switched in polarity from the last screenshot but wasn't? Great videos though and much appreciated, thanks :)

Simply put it, the difference is, vgs reverse bias voltage, decreases current flow, and the higher vds, in increases the current flow.

aren't the VGS + and - reversed(+ should be on the top) when mosfet is operated in enhancement mode? at 6:04 . Greetings and thanks

So enhancement mode MOSFETs work more like BJTs?

You're awesomee

Can you explain for us how to calculate the gin's of transistor?

Hi Karen, at 6:05 the + of Vgs shouldn't be on top?

FETs are the solid state of Vacuum tubes so what about a FET version of the CANADIAN WESTINGHOUSE 656?, Drain:=Plate Source:=Cathode.
Gate:=Grid

Hi Karen, I love your videos! Im just a bit lost in the word "bias", I don't understand what it is and in the video you say things like "the more bias the gate becomes" and "to increase the bias". I understand the principle of reversed bias or forward bias, I just don't follow it when it is used in a different context. Can you please enlighten me :) thanks so much!

check out CircuitBread's video "How a MOSFET Works - with animation! | Intermediate Electronics" and "What are the Different Regions of Operation for a FET? | Intermediate Electronics" they are good complements to this video that fill in some little details that can clarify things

There is a mistake on the video. You state the source on the FET is equivalent to the collector on the BJT. The opposite is true. Drain = Collector; Source = Emitter.

Love you

Aww you're so sweet teacher love it 😀

I understand it's function,what is about working principle of IGBT

how to find SMD capacitaor value

VGS battery terminal symbol (VGS) is not correct for the depletion MOSFET for the forward bias. Overall video is good, thank you!

Is p for + OR -, in all transistor

Now Im less confused😎

Cool... time to buy a handful of JFETs... I know that I'll pop a few by accident.

Sound level is low compare to previous Video "how trns work".

I don't get it. Back to trying to fit a circle block into a square hole

my lovly carins

Some practical examples of what they can do would be helpful.

Something you may not know is JFETs behave a lot like vacuum tubes.

Failed an interview at dream company because I didn't know what's JFET.

love you zelda shirt

You get my thumber... kept going on

Sister please slow down I'm confused. you explained great but I'm a dul student

You give a lot of information very quickly. D channel this and gate that and n channel forward or reverse! We no sooner get a chance to look at the picture and you are on to the next one. I know, pause and look at it. Explanations and examples would help alot. I have been trying to understand these for years. Those teaching this know the information, are usually bored by the process, and can't see why we don't understand something that they learned years ago. The point is some of us are trying to learn what you have already learned and as yet cannot find a way to understand the subject. Slow down Sheldon or we will never understand Dark Matter (The Big Bang Theory)!

Hey could you try this software? scan circuit solver on the playstore!

She an work in an auction as the best fast talker.

It is much easier to learn when your being taught by a cute teacher. All my professors were old men.

best video on fets on youtube, the others are too theoterical , lack content, amateurs or nothing didactic. ⭐⭐⭐⭐⭐

Aw shucks, I was hoping to learn more about my cat.

i felt like i was again 8 years old and my mom was teaching her stupid son how to multiply 3 digit numbers with 2 digits like a boss

I find it very disconcerting that you use + to - current flow

Too fast, slow down. Please

...my professor took 4 hours to explain this AND IT STILL DIDNT MAKE SENSE!

please go slowly..u had that hussain bolt shoes

Veritas engr student gather here 😂

"There are two basic types of FETs."
Wrong. You forgot about the most important (and most awesome) type of FET.
The BOBA FET.
;-)

she just likes to talk fast