5 years? What the heck. They are normally 3 years. Did you do some foundation degree to bring you up to a suitable pre-requisite standard, or did they teach you really slowly?
@@deang5622 I dont know about Gideon's degree, but in Denmark we have 3 years for a bachelor's degree, and 2 years for a graduate degree. Which sums to 5 years.
This is really excellently described and visualised. It helped me understand the pinch-off effect, and I really appreciated the drawing attention to the mosfet symbols representing the internal connection between source and gate. I would love to see more explaining how the integral body diode is formed
The best illustrated and narrative video I've seen about MOSFETs. I'd like to see more of it in the future (BJT, Capacitor, Inductor...). I subscribed.
Excellent graphics and explanations. It is difficult to find in-depth explanations about this. This video shows in a simple and well explained way how these semiconductors work. I've been looking for this for a long time. It's always good to share knowledge in an accessible way. Thank you and congratulations.
amazingly detailed explanation 1)with modern graphics 2)with interactive moments at 06:15 and 07:12 (which perfectly fit for teachers and students). Millions of students will be inspired by your tutorials in near future (this is for sure) P/S: the only thing I'd like to note (which I believe it should be fixed) The speed of narrators speech looks like a bit higher, it can be slowed down (by 0.8 or . 0.10%) to put some intonation to speech.
I felt soo dumb watching this.. :( at least i learnt two new things about MOSFET''s. Seems i gotta lean more basics. Good video, the animations helped a lot.
This is the best explanation and presentation I've ever seen about MOSFETs - including in Electronics Eng College. The absolute Technological Genius of this always blew my mind, and still does decades after learning about them. Bravo on getting that across here so well. Subbed!
00:00 Transistors are the basic building blocks of modern electronics, with MOSFET being a popular type. 01:05 Semiconductors can be n-type or p-type depending on impurities 02:08 MOSFET has four terminals: source, drain, gate, and substrate. 03:02 MOSFET operation involves creating a channel between drain and source using a voltage source between gate and substrate. 04:02 Creating a channel in a MOSFET 05:08 MOSFET operation in ohmic region 06:10 Increasing gate voltage increases current in MOSFET 07:16 MOSFET circuit symbols and types Crafted by Merlin AI.
The video was amazing! it needs some speed improvements cause i think it’s a bit too fast and there’s not enough time in between sentences :) also too bad that it was text to speech, a real voice would’ve been nicer to the ears ^^ keep up the good work!! :D
oh great, that was a good explanation. On how to smoke your battery 😮. Just kidding. So I have a question. I'm guessing those 2 types of mosfets (off/on/off and on/off/on) are not the only types correct,or are they? Because I was wondering if they have mosfets that are similar to some relays. As if in (off) position can power a device that turns off when mosfet switches(on) but... then power a separate device until the mosfet is turned (off) it switches back to send power back to the first device.( or what ever you want power to go to). That a relay can do very easily.(just not as fast as mosfet) like to switch from Low to High. Having only one remote signal wire with a higher voltage battery. Using a button or toggle switch between the two. Or do mosfets always require a microchip. ( to program button commands to send voltage signal to first mosfet on(Low=off). then send another signal to second mosfet on( Hi=on). then second button press stops both signals(low=on). I guess it could be one signal wire that splits and goes to each one or even another mosfet that splits from that one but seems like a pain. not to mention it might have an overlap for a split second or residual power. that they can be both on for a split second in an application when you dont want them to.
Excellent material, it was covered in depth and I especially liked the speed with which you explained it: it is a video that I had to watch on more than one occasion to fully understand it and if you had been slower it would have been too boring and I would have abandoned it. the animations in blender were very careful. Thank you!
How will the channel form under the gate because electrons in p-type semiconductor are in minority. Meaning there are very low to no electrons in the p region. So from where electrons gather under the gate in such concentrations so as to equal the concentration of electrons in source and drain effectively making it n-type ?
This is the best explanation and visual presentation what I have ever seen about teaching mosfets, now I understand everything about the mosfets, awesome, thank you.
Great video !! Absolutely great. The control of connection between source and drain is controlled by gate, and pinch-off effect are extremely well explianed. And that too all explained in less than 9 minutes. :)
sir you make vdo on multivibrator. how transistor, capacitor and resistence are working in this multivibrator circuit. explain it through make vdo like this
Ok now I understand so if I connected a mosfet in a push pull circuit and the mosfet fry it self as it turn on that is the capacitor fail to discharge causing mosfet to fail
Hey so in the video after pinch off part you said about saturation current and when the reverse biase is increased the saturation current will not increase , so I have a doubt if the reverse bias increase doesn't it make the junction narrower so less currently can only pass through it , so shouldn't it be said the saturation will not decrease if the voltage increased instead of saturation current will not increase
The reverse biasing does increase but the junction will still exist. Theoretically the junction should cut-off by the growing depletion layer. But due to the large flow of electrons, the electrons jumps the depletion layer and continues to flow. But the electrons that can jump the depletion layer are limited, hence the saturation current is constant.
@@ExplorerStuff yeah I understood that but theoretically the saturation current would decrease right because of pinch off right so theoretically if I increase voltage upto beyond pinch off current should decrease instead of increasing right? Thanks for the reply
Madam.will doping of pure silicon affect physical strength of silicon.especially in the case of p side.please answer .it 's not a thought it 's my request.because lam doing a resarch in electrical field.(b.tech student 22age)
5:41 for me when I start to feel my legs go numb that's the pinch-off point for me. Otherwise, I have to do that awkward stand for s minute or two afterwards.
Pinch off effect could not be explained any better. Absolutely amazing video!
The rapid autism calculator voice makes it hopeless to follow the instructions.
Tip: Watch this at 0.75 Playback speed ;-]
yep. it was pretty fast. cant understand it at normal speed.
This video was for the people who try to cover the whole syllabuse one night before exam 😂😂
Exactly what I did, it felt so normal after that 😄
I watched at 1.25 x
With captions
MY UNDERSTANDING OF THE MOSFET IS IMPROVING. I THINK I WATCHED 3 VIDEOS AND I BETTER NOT OVERLOAD SO IM GOING TO SLEEP ON THESE. THANKS FOR THE VIDEO.
Way better explanation than the one I got from my 5-year electrical engineering degree
5 years? What the heck. They are normally 3 years. Did you do some foundation degree to bring you up to a suitable pre-requisite standard, or did they teach you really slowly?
@@deang5622 I dont know about Gideon's degree, but in Denmark we have 3 years for a bachelor's degree, and 2 years for a graduate degree. Which sums to 5 years.
Typically it takes 4-5 years in the US. 5-7 years if you do a masters
This is pretty funny, I had just said this to my fiancé. Guess it says what type of learners some people are.
Yeah same , but when I've learned there was no youtube to learn from.
This is really excellently described and visualised. It helped me understand the pinch-off effect, and I really appreciated the drawing attention to the mosfet symbols representing the internal connection between source and gate. I would love to see more explaining how the integral body diode is formed
The best illustrated and narrative video I've seen about MOSFETs. I'd like to see more of it in the future (BJT, Capacitor, Inductor...). I subscribed.
You are seriously and sincerely a wonderful creator. So glad the RUclips algorithm recognized this as the precise answer to my question. Thank You.
Definitely the best graphics and explanation video I've seen in my life! Keep them coming Sir.👍🏼👍🏼👍🏼👍🏼👍🏼
I also agree with you. Love the video.
See learn engineering vdo on mosfet too
Not really, the ai voice is a turnoff and it’s paced wayyy too fast. I don’t want to have to pause after every 5 words.
This is an amazing explanation. The animation of the pinch off effect really made the graphs finally click. Thank you!
Excellent graphics and explanations. It is difficult to find in-depth explanations about this. This video shows in a simple and well explained way how these semiconductors work.
I've been looking for this for a long time. It's always good to share knowledge in an accessible way.
Thank you and congratulations.
why wasn't this vedio recommended to me a semester ago...😭 but thanks for making MOSFET easy to understand~🍀
amazingly detailed explanation 1)with modern graphics 2)with interactive moments at 06:15 and 07:12 (which perfectly fit for teachers and students). Millions of students will be inspired by your tutorials in near future (this is for sure)
P/S: the only thing I'd like to note (which I believe it should be fixed) The speed of narrators speech looks like a bit higher, it can be slowed down (by 0.8 or .
0.10%) to put some intonation to speech.
Thank you. Will improve in future videos.
CHILL OUT BRO, why you talk too fast? take it easy...
It’s AI voice!!!
Please upload regular min one video per week,
Sir U upload video after long waiting.......
Your video's are very Helpful for Us.
Thanks
Thank You. I will try to do it.
I felt soo dumb watching this.. :( at least i learnt two new things about MOSFET''s. Seems i gotta lean more basics. Good video, the animations helped a lot.
This is the best explanation and presentation I've ever seen about MOSFETs - including in Electronics Eng College.
The absolute Technological Genius of this always blew my mind, and still does decades after learning about them.
Bravo on getting that across here so well.
Subbed!
00:00 Transistors are the basic building blocks of modern electronics, with MOSFET being a popular type.
01:05 Semiconductors can be n-type or p-type depending on impurities
02:08 MOSFET has four terminals: source, drain, gate, and substrate.
03:02 MOSFET operation involves creating a channel between drain and source using a voltage source between gate and substrate.
04:02 Creating a channel in a MOSFET
05:08 MOSFET operation in ohmic region
06:10 Increasing gate voltage increases current in MOSFET
07:16 MOSFET circuit symbols and types
Crafted by Merlin AI.
BEST EXPLAINATION, FINALLY UNDERSTAND PINCHOFF
I wish you had kept up the labelling of the S G D but aside from that this is the best explanation I have seen.
The best video in this topic I ever came across! Great work.
Having the parts labeled throughout would be super helpful. Lost track of what was what. These videos a awesome thank you!
Make videos on digital circuits also❤
really very good explanation in no time. hats off
holy sh1t this was the best explanatory video I have ever watched
dude, with which program did you prepare this animation ? I need this program
A wonderful animattion to explain MOSFET clearly. Thank you so much!
Best explanation of mosfet i have ever seen
The device im using to watch this video is using vacuum tubes. (DONT ACCTUALLY DO IT. HIGH VOLTAGES ARE INVOLVED)
The video was amazing! it needs some speed improvements cause i think it’s a bit too fast and there’s not enough time in between sentences :) also too bad that it was text to speech, a real voice would’ve been nicer to the ears ^^ keep up the good work!! :D
Your video makes electronic more easy and interesting. Thank for sharing.
The best complete video and explanation! Thank you!
Tutorial should be like this,………! Immediate subscription , wishing for more videos ………like Igfets , etc
Clear and excellent explication, greeting from Colombia :)
Amazingly clear description, including details
oh great, that was a good explanation. On how to smoke your battery 😮. Just kidding. So I have a question. I'm guessing those 2 types of mosfets (off/on/off and on/off/on) are not the only types correct,or are they? Because I was wondering if they have mosfets that are similar to some relays. As if in (off) position can power a device that turns off when mosfet switches(on) but... then power a separate device until the mosfet is turned (off) it switches back to send power back to the first device.( or what ever you want power to go to). That a relay can do very easily.(just not as fast as mosfet) like to switch from Low to High. Having only one remote signal wire with a higher voltage battery. Using a button or toggle switch between the two. Or do mosfets always require a microchip. ( to program button commands to send voltage signal to first mosfet on(Low=off). then send another signal to second mosfet on( Hi=on). then second button press stops both signals(low=on).
I guess it could be one signal wire that splits and goes to each one or even another mosfet that splits from that one but seems like a pain. not to mention it might have an overlap for a split second or residual power. that they can be both on for a split second in an application when you dont want them to.
Spent the whole semester but couldn't understand about mosfet it was just a matter of 8 minutes.
Thank you so much for this amazing video
Finally I understood those graph
great video👍
respect from Gilgit Baltistan❤😊
One small video having thremendous amount of knowledge in it, Appreciated and loved it
Excellent material, it was covered in depth and I especially liked the speed with which you explained it: it is a video that I had to watch on more than one occasion to fully understand it and if you had been slower it would have been too boring and I would have abandoned it. the animations in blender were very careful. Thank you!
Glad you enjoyed it!😀
@@ExplorerStuff Computer animation: excellent; computer narration: awful.
Really very simple and full of basic
Keep going sir!!
Great video tutorial. Clearly explains from basics to advance.
Great Visual graphoc. Many thanks!
Super explanation and animation 💯 well done 👍
You know those videos when you watch and suddenly you understand ......well this isn't one of them😅
How will the channel form under the gate because electrons in p-type semiconductor are in minority. Meaning there are very low to no electrons in the p region. So from where electrons gather under the gate in such concentrations so as to equal the concentration of electrons in source and drain effectively making it n-type ?
This is the best explanation and visual presentation what I have ever seen about teaching mosfets, now I understand everything about the mosfets, awesome, thank you.
Great video !! Absolutely great. The control of connection between source and drain is controlled by gate, and pinch-off effect are extremely well explianed. And that too all explained in less than 9 minutes. :)
I love the sentence guy on the bottom-right
Thank you so much from the depth of my heart ❤
can you explain the JFET operation and construction
Amazing visuals and explanations. Thanks for creating such a video.
Thanks for adding Persian language to the subtitles. ❤🌹😍👏👍👌🖐🌺🌷💌
underrated Channel
You are the best 😘❤️❤️... Thank you
I've been watching a lot of MOSFET videos, and this one is the clearest so far! Excellent!
this is so cool!!! thank you!
sir you make vdo on multivibrator. how transistor, capacitor and resistence are working in this multivibrator circuit. explain it through make vdo like this
This is the best video so far on explaining .... no stupid Indian accent... easy visuals... logically flowing order. Subscribed. Great work.
Amazing.......
Thanks a LOT...!!!!!!!!!!!!!!!!!
Thoroughly enlightening
Nice !!!! Plzz make videos on transistor working... How it works as a switch and amplifier. Thank you !
It feels like magic.
Thanks to those scientists and engineers for making these. 🙏
Sir I am listining from India.you are best one .pl.give relax in your pronunciation.
Please do more working principal of cimponent good luck
Ok now I understand so if I connected a mosfet in a push pull circuit and the mosfet fry it self as it turn on that is the capacitor fail to discharge causing mosfet to fail
Hey so in the video after pinch off part you said about saturation current and when the reverse biase is increased the saturation current will not increase , so I have a doubt if the reverse bias increase doesn't it make the junction narrower so less currently can only pass through it , so shouldn't it be said the saturation will not decrease if the voltage increased instead of saturation current will not increase
The reverse biasing does increase but the junction will still exist.
Theoretically the junction should cut-off by the growing depletion layer.
But due to the large flow of electrons, the electrons jumps the depletion layer and continues to flow.
But the electrons that can jump the depletion layer are limited, hence the saturation current is constant.
@@ExplorerStuff yeah I understood that but theoretically the saturation current would decrease right because of pinch off right so theoretically if I increase voltage upto beyond pinch off current should decrease instead of increasing right?
Thanks for the reply
@@Rohit-xc3tl Theoretically there will be no current after pinch-off, because the depletion layer will block the path.
@@ExplorerStuff ohh okay got it 👍 thanks
One of best videos on electronic components,…….. speech and animation so well synchronised ,……..!
Well done ……..
Υou are the best of the best
Graphics alalysis all bravo my frend
Great job...in this 8:13 min , what u have showed us the entire course of solid state device in my engineering life couldnot teach us.
Dear which software is use for such animations ....please tell me
The best explanation i've seen. Well done !!!
wow that was a great explanation!
Sometimes, taking a breath, could help us understand this.
Having studied both physics and electrical engineering, I really can't stand how people describe current with two different conventions
Your animation skill is amazing. Make more videos as soon as you can. Waiting for your videos
what gives when there is a diode in the simbol?
by far the best explanation I have come across for transistors, or electronics in general. ty
This video saved me thank you so much. made it way easier to visualize how a MOSFET works
Finally 3yrs after my engineering, now i understood the logic behind drawing a mosfet symbol and no longer make mistake while drawing them
same here 😂😂
Madam.will doping of pure silicon affect physical strength of silicon.especially in the case of p side.please answer .it 's not a thought it 's my request.because lam doing a resarch in electrical field.(b.tech student 22age)
explain multivibrator circuit and it's operation. how transistor, capacitor and resistence are working in this circuit through make this kind of vdo.
Sir which software did you use to create the animation.
one day father of history herodotas wrote war explain and today I wrote semester by seing your video animation thanks bro .
Thanks sir very greatfull explanation , keep going all the best good luck
Awesome explanation bro
با سلام و درود
لطفا همیشه به کار خود ادامه بدهید بسیار از شما تشکر میکنم از بابت گذاشتن زیر نویس فارسی خداوند نگهدار شما باشد
I bought an old Mosfet amplifier.
Way of a difference.
Much much better sound
非常好谢谢作者❤
Awesome Thank You!
it's easy to understand how it work, thank you for creating so great vedio !
Thanks a lot Sir.
Fantastic teaching video. Thanks
5:41 for me when I start to feel my legs go numb that's the pinch-off point for me. Otherwise, I have to do that awkward stand for s minute or two afterwards.
Very emotional Al voice .
which software did you use to make it?
video was super helpful 🙌🙌🙌
Too fast but very informative. Thank you!
Mind Blown
Best explanation ever.
Very nice explanation.nice animation