What is a MOSFET? How MOSFETs Work? (MOSFET Tutorial)
Hi guys! In this video, I will explain the basic structure and working principle of MOSFETs used in switching, boosting or power balancing tasks in DC-DC converter circuits, motor driver circuits and many more power electronics circuits. MOSFETs are the most widely used field-effect transistors that operate with voltage control.
We can examine FETs in two groups as you can see here. We had a lesson in which I explained JFET before. I will explain the MOSFET in this trouble. The abbreviation of MOSFET comes from the initials of the Metal Oxide Semiconductor Field Effect Transistor words.
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#mosfet #transistor
Пікірлер: 398
The amount of knowledge we can get from these videos is enormous . I am 72 and still learning things . I may never use this knowledge but for the young people out there this videos can open up job opportunities or prepare you in the field of electronics . Even if you were not good in math !
Better tutorials than what I learned in school.
@eeapplications
Жыл бұрын
Thank you so much 🙏🏼
You forgot about the even less known Boron-Oxide Barium Field Effect Transistor, or BOBaFET. It seems that there is even a whole book about it. Jokes aside, nice video!
@eeapplications
Жыл бұрын
Thank you. Unfortunately, I didn't know much about this transistor.
Perfect explanation! And The example Mosfet Driver Circuit at the end of the video, made me understand it's use cases even better. Thank you!
This is exactly what I needed to know, it really dumbs down the information about the function of a mosfet into digestable and useful information I can actually use thank you!!
I just learned more about MOSFETs in 8 minutes then I did in two YEARS of AA degree classes.
So wel explained with the picture of water valve, it makes it so much easier to picture and understand. Hopefully your other teachings are of same quality
Thank you God bless you, the more you help to give, the given wisdom you shall receive abundantly !!!
Your explanation got my novice level head aligned on the MOSFET. Thank you.
Brilliant explanation! Thank you very much!
Great background on MOSFETs. Thanks!
@eeapplications
Жыл бұрын
Thank you so much 🙏🏼
Hello dear professor Your lessons are really interesting and crucial, thank you so much for your help and advice,i do appreciate your job,i wish you peace and happiness under the sky of prosperity,all the best. Take care and have a good time.
Some bipolar transistors can also transmit large currents at high voltages. Note that most inverter motor controllers use IGBT transistors which are a hybrid of MOSFET and BiPolar transistors.
As a guitarist, the MOSFET distortion pedal is a very sought after tone. I have no clue why, but it gives the circuit a very unique flavor of clipping and is very popular in the blues/rock/classic metal genres. That's what brought me here.
@Poparad
Жыл бұрын
From what I gather, it's the very fast switching rate that the MOSFET is capable of (which is one reason why it's commonly used in high-voltage power situations). Interesting that it's desirable for distortion since most tubes (12ax7, etc) are the opposite and have very sluggish responses. This is one of the reasons why the famed LM308 Opamp in Rats and Tube Screamers is supposedly so desirable.
@CalebePriester
Жыл бұрын
I also started studying stuff like this because I play the guitar and wanted to build my own amps and pedals. I did build a distortion pedal with an LM386 and it sounded great. Sounded like a fuzz pedal. It was great.
Good Definitions about MOSFET with Related Animations are Stands Apart , Thank for Sharing and God Bless You Too .
@eeapplications
Жыл бұрын
Thank you so much 😊
Thanks for the teaching
Thanks for the video.
Very clear explanation i did enjoy it .i understand hiw they work thanks I'm your subscriber now
This channel is indeed unique and different than others.. keep it up
Thank you I have learned a lot
Educational, clear and concise. Thank you. 👍
@reedyd
Жыл бұрын
Subscribed!
@eeapplications
Жыл бұрын
Thank you so much ☺️🙏
Thank you for explaning about MOSFET 👍🙏🇮🇩
@eeapplications
Жыл бұрын
Thank you so much ☺️
Thank you very much ....sir 😊
Good video, much appreciated
@eeapplications
6 ай бұрын
Thank you so much 😊
thank you , very usefull !
What a good content! Thank you very much!
@eeapplications
Жыл бұрын
I'm so glad it was useful. Thank you 🙏
I like your video and the way of coaching easily understandable.. Thanks🙏..
@eeapplications
Жыл бұрын
I'm glad you like the videos. Thank you 😊
2:25 the electronic ignition in your car is highly likely to be using a BJT to fire the coil. In the GM HEI module it would be a MJ10012 or similar and would be conducting up to around 6 Amps. Almost every solid state audio amplifier from the 1960s to well into the 1980s was using bipolar transistors. High power mosfets became more popular later on. During the same period, bipolar power transistors were used in almost all mobile two-way radio equipment in the RF power transmitter stages, until power mosfet pricing and performance improved. There are plenty of high current bipolar transistors.
Really nice explanation, kept it simple! Continue with the good work 👍
@eeapplications
Жыл бұрын
Thank you so much ☺️🙏🏼
Allsome work guys from cruzermans inventions 😁👍🎉🌟
Excellent video, can you do a 2nd video by chance on how to measure a MOSFET to determ if it is BAD or OK ?
Superb, very Helpful for my quick review. Subscribed
@eeapplications
Жыл бұрын
Thank you so much ☺️🙏
Excellent, well explained ,very knowledgeable session, all the best and keep it up..
@eeapplications
7 ай бұрын
Thank you so much ☺️
Thanks. explained well.
@eeapplications
Жыл бұрын
Thank you so much ☺️🙏🏼
Thanks a lot for your sharing Sir.
@eeapplications
Жыл бұрын
Thank you so much ☺️🙏🏼
Don't let the direction of current flow bother you. Think of one direction as electron-flow and the other as hole-flow. Hole-flow is aka conventional-flow and a hole can be thought of as where the electron flowing in the opposite direction used to be.
@nunyabisnass1141
Жыл бұрын
Ive been trying to tell my wife that for years, but she still won't try it.
great video 👍 respect from Gilgit Baltistan❤😊
@eeapplications
7 ай бұрын
Thank you so much ☺️
Great video, thanks.
I LOVE THIS CHANNEL!! BY ORDER OF ME, GEORGE MILLER, DON'T EVER STOP MAKING VIDEOS 🙂
@eeapplications
Жыл бұрын
Thank you so much 😅👍🏻
@FactsBeFacts
Жыл бұрын
No-one cares what your name is bro
Very well done.
@eeapplications
Жыл бұрын
Thank you so much ☺️🙏
Great explanation
@eeapplications
Жыл бұрын
Thank you so much ☺️
Nice Job! Thank you for posting it. This lesson is perfectly thought out and illustrated nicely. The AI voice is fine by me.
@eeapplications
Жыл бұрын
Thank you so much ☺️
With a logic-level MOSFET, the circuit with the Arduino Uno would be just fine. however, with a power MOSFET (the kind that can control large currents), that would fry the microcontroller with the inrush current (gate forms a capacitor with the junction). In those cases, one needs to use a gate driver, which I think would be a good follow-up video subject. I've used MOSFETs to modify flywheel foam dart and ball blasters, since the motors I used have a 28 A stall current.
thanks
Nice info, thanks :)
@eeapplications
Жыл бұрын
Thank you so much ☺️🙏
Thank you for this explication
@eeapplications
Жыл бұрын
I'm so glad it was useful. Thank you 🙏
best video simple way explain 😉
@eeapplications
Жыл бұрын
Thank you so much ☺️
Good stuff....was better when EE were specialists back then.
i like it.
Super materiał bracie!
@eeapplications
Жыл бұрын
Thank you so much ☺️
thanks. i liked this video
@eeapplications
7 ай бұрын
Thank you so much ☺️
thank you alot
This is we ll explained and understandable
@eeapplications
Жыл бұрын
Thank you so much 😊
Hello, what studies are required to master the operation of this electrical board with its components?
If there's JFET and MOSFET, what about BOBAFET? Kidding aside, I love your explanation between these two. Thank you.
Nice video!! Subscribed!
@eeapplications
Жыл бұрын
Thank you so much ☺️
@conmcgrath7174
Жыл бұрын
I couldn't agree more, simple and practical knowledge. Add another sub for sure. Edit; It's really annoying me that I can't remember the term for power control using this method.....oh, hang on, the lazy little hamster that powers my brain just had a run on the wheel, Pulse Width Modulation, I feel so very much better now! Pax.
Thank you
Using the pot to variable polarize the gate is same to control the speed of your car with a valve from fuel tank to the carb or injection pump .Did you heard pulse with modulation sometimes?
afters weeks of searching for a video that easily explains mosfets , I came across your video . Thanks a lot !! but can you make a video about mosfets with more than 3 pins , especially 8 pins mosfets ?
@eeapplications
Жыл бұрын
Hi. I am so glad you liked the video ☺️ I will try to do research and make a video.
excellent tutorials! very informative and easy to follow and understand! thanks!
@eeapplications
Жыл бұрын
Thank you very much ☺️🙏
Still nfi on my quest 2 build a deathstar, cheers anyhoo :-)
What a great technology ❣️❣️❣️❣️ your so smart
@eeapplications
Жыл бұрын
Thank you so much.
@oldtimer2192
Жыл бұрын
You’re
This is fing cool!
@eeapplications
Жыл бұрын
😅 Thanks 🙏
Wouldn't it be better to have a diode on the output of the uController to prevent reverse current?
I have often used the IRFzed44N.
One thing that was drummed into me, working with them, was how fragile MOSFETs are in relation to high voltage. This why, when handling them, you should wear an earthing strap to short out static which may be many thousands of volts; no power or danger to humans but deadly to these devices and their packaging is conductive carbon foam.
Thanks
Nice
Thanks.
Great mosfet introduction
@eeapplications
7 ай бұрын
Thank you so much ☺️
P channel arrow going in n channel arrow going out. Thank you I have learned a lot.
@MonoChorMe
5 ай бұрын
Here's an easy way to memorize: NPN = "Never Points iN" ( ⬅⭕) PNP = "Points iN Proudly" ( ➡⭕)
good books on Electronic circuit design recommendation. Thanks for video.
Tuyệt quá, bấm đăng ký kênh luôn rồi bạn.
So when you turn on a tap, water flows from the drain to the source of the water?? That's where I switched off....
@prestonbecker8784
Жыл бұрын
In an N-type MOSFET, electrons flow internally from the source to the drain, but conventional current flows opposite, from the drain to the source. So, if we choose to have water flowing in the direction of conventional current (as opposed to having it represent the flow of electrons) then that diagram would be correct, with water flowing from drain to source. It may be confusing, but that is the fault of 1980's electrical engineers, not the channel author.
@ChadDoebelin
Жыл бұрын
@@prestonbecker8784 the channel author should have used an Pchannel then, or used a diagram that was different, this is absolutely the choice of the channel author. This choice made it confusing for their viewers. Not the "1980's electrical engineers" you are attempting to misdirect the problem at.
@aries6776
Жыл бұрын
That's because there are two types of MOSFET, a P channel would go like you think from Source to Drain, a N channel (far more common) goes from Drain to Source. I agree not the best analogy.
Sir. Think. for. a. nice. explaination
@eeapplications
Жыл бұрын
Thank you so much 😊🙏
So good.
@eeapplications
Жыл бұрын
Thank you so much 😊🙏
So good
@eeapplications
Жыл бұрын
Thank you so much 🙏🏼
wow bro u explained it so simple make more video make video on how to use it in circuit
@eeapplications
Жыл бұрын
Thank you so much 😊 I try to produce as much content as I can 🤙
THANKS
What semiconductors are used for higher-power applications, e. g. electric vehicles and hybrids, locomotives, and DC power transmission between AC grids?
@endurofan9854
Жыл бұрын
now this is an interesting query 😁 hope someone answers
@Alacritous
Жыл бұрын
IGBT are used for higher power applications.
In the last schematic of the DC MOTOR controller DRIVER module. If driving LEDS the schematic is correct. But if used as a motor controller there should be a Shottkey Diode over the motor to prevent spikes from the coil blowing up mosfet. ??
@peterduxbury927
Жыл бұрын
Yes, I agree that a diode (as substituted for the resistor) would be better at controlling the back-EMF as developed by the Motor - when the Motor is turned-off
Well explained 👏 👌 👍.
@eeapplications
Жыл бұрын
Thank you so much ☺️🙏🏼
You are super explainer. I hope you make more videos for us better understand. Thank you.
@eeapplications
Жыл бұрын
Thank you very much ☺️ I will always try to make new videos 🙏🏼
I'd like to see a simple bare-bones MOSFET configuration like this for audio. There are 10s of thousands of "audio amplifier" designs, but I'm curious about the absolute minimum to pass an audio signal by MOSFET. If there is already such a video, my apologies for not looking first. :-)
I'd like to see some vids on reverse polarity and short protection. Also latching.
@snakezdewiggle6084
11 ай бұрын
This is how a MOSFET works, Not how to build a spce craft... Don't just buy the book, read the words... ;)
At 6:37 with the PWM you don't show any positive leads to micro controller. I don't know maybe it has a separate power source. You show 2 negative leads going to it.
It sounds like a mosfet is a like a bypass valve. Access to full power ( source ) but if only a partial speed is wanted it sends the unwanted current to drain thereby bypassing the unwanted voltage / current to a different loop and circulating it not wasting in in heat like a potentiometer.
I'm not an electrician or an engineer (that will probably become obvious in a moment) but it sounds to me like they got the drain and source mixed up. In the faucet analogy, why wouldn't the pipe leading into the spigot be the source? Is that not where the water flow is coming from?
@laysleal13
Жыл бұрын
You're right, they mixed up
@RobDuarte
Жыл бұрын
@@laysleal13 It's not mixed up. This is called "conventional current". See the comment below about Ben Franklin.
@prattacaster
Жыл бұрын
People it's not right or wrong, you can connect a p channel MOSFET source to a positive voltage and have the drain on negative, so then which way is current flowing? Well, drain to source right? So without more context to the application you can't say whether it's wrong or right. It's just a rough visual of how the device generally works, don't try to hook your FET up to the water spigot.
@Talltrees1235
11 ай бұрын
You are right about the water tap.
2N3055s have 15A continuous and Vceo of 60 volts. First used well over 50 years ago
@bunkie2100
Жыл бұрын
I was going to mention this. Back when I was building power amplifiers in the late 1970s I had a large range of both NPN and PNP BJT transistors from which to choose with collector current ratings over 15 amps.
@alexjenner1108
Жыл бұрын
@@bunkie2100 I was working on VHF and UHF mobile network transmitters in the 1980s, no mosfets there either.
5:15 "If we talk about this circuit, since there's no damage to the potentiometer, this circuit will work smoothly even if there's no resistor." First the resistor is there to protect the MOSFET - Now it's ok to run w/o it since the potentiometer's still good.🤔
@jakejoyride
Жыл бұрын
Yeah it seems teacher had no idea what he is talking about
@IMelkor42
Жыл бұрын
I still don't understand why a resistor needs to be there.
Can you tell me what does that Zener diode mean in the MOSFET symbol? I've seen MOSFET symbols with and without it. Does it represent some side effect of a MOSFET, or do they literally put a Zener diode in a a MOSFET for some purpose?
@Big74Mike2012
5 ай бұрын
I haven't looked it up in a while, so maybe double check my info, but if I'm not mistaken the zener symbol is used to symbolize that this particular MOSFET is "Repetitive Avalanche Rated". The ones you see with just the diode symbol means it's NOT Repetitive Avalanche rated, so avalanches will result in a catastrophic failure, just like a typical diode. That's how it was described to me long ago... hopefully that helps.
@IcRDlayout
4 ай бұрын
@@Big74Mike2012 Sir ,i am stupid ! My q is that the diode = rds?
@IcRDlayout
4 ай бұрын
Zener 🤭
6:00 That circuit would blow the MOSFET easily if it doesn't have protection against back EMF from the motors. Anytime the motor is shut off, the collapse of the magnetic fields generate a current in the reverse direction. Typically, you need to add a diode from drain to source wired in reverse to prevent the the MOSFET from blowing. The only time you don't need it is when the MOSFET has internal protection. Some MOSFET circuits that requires an external PWM signal to switch the MOSFET include optoisolators to prevent damage to the MOSFET. Who knows what type of signal people may use as an input. By putting in optoisolators, you decouple the two circuits and prevent external signals from damaging the FET. Its another layer of protection that is used in robust designs. Its common for MOSFETs to blow if its not designed properly. Its almost job security as soon as I look at some of the schematics.
@eeapplications
Жыл бұрын
Thank you for the additional information.
@d614gakadoug9
7 ай бұрын
All power MOSFETs have in inverse diode between drain and source. It is there because of the way FETs are fabricated. In the early days of FETs they were just sort of there. Now they are generally carefully characterized and can be used to advantage. The current in an inductor does not change direction when the field collapses. The polarity of the voltage changes but the direction of current flow stays the same. An inverse diode across the FET doesn't cope with that, however the internal body diode behaves similar to a zener and _may_ be able to handle the current.
Electrons flow from the negative to the positive round a DC circuit
@jamesslick4790
Жыл бұрын
Absolutely true, but to this day, diagrams are STILL made using "conventional flow"🤔. I don't know why this tradition persists. 🤷♂️
@Toxxxic_
Жыл бұрын
@@jamesslick4790 too much literture too change so easier and less confusing to keep using conventional
@Dorfapoligetik
Жыл бұрын
They don't change it because they will not that to many people think about it. when you think deeper about the true direction of the flow, that will show that everything they teach about electron movement is false and in reality they know nothing about they have only theories! about how electricity works.
@Drozerix
Жыл бұрын
@@Toxxxic_ Just have a program change the literature. Going forward it doesn't make sense -- to me -- to keep the traditional concept of current flow when electron flow makes more sense.
You can find the whole acronym MOSFET in the mosfet symbol. That's crazy.
Nice video but I am wondering why you didn’t use a diode to protect the circuit instead of the resistor.
@eeapplications
Жыл бұрын
Thank you so much ☺️🙏 Unfortunately, when I was preparing the script of the video, I didn't think of it 😔
Long life and prosperity
Power green wire use poline and pour oil and pound blue silver to light medal that heals near over and wait about three weeks
As someone with a VERY basic knowledge of electronics, why is the MOSFET needed for the fan circuit? If the POT is used to change the voltage to the fan, won't it change the speed of the fan without the MOSFET anyway?
@audunskilbrei8279
Жыл бұрын
Without the MOSFET all the current would run through the POT which would probably burn it up. At leat that is how I understand it but my knowledge is also pretty basic.
@Alacritous
Жыл бұрын
@@audunskilbrei8279 This is true for most higher power circuits. POTs aren't meant to switch much current. The one shown here could probably handle the current for that motor but the purpose was to show the usage as a speed controller input to the MOSFET.
Baba Mosfet. Wasn't he a bounty hunter in Star Wars?
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