Just some extra facts cause I couldn't fit it in the video: The 'ON' and 'OFF' states of transistors are used to represent 1s and 0s in computer chips. Theres BILLIONS of tiny transistors in em that are used for logic gates, memory and computational stuff 🦾😄
We need full length videos and tutorials man! You really have potential to grow on RUclips if you do that and keep doing what you’re doing now! Best of luck man and thanks for the awesome videos!
And he even explains many parts wrong in very single video. After semiconductor, every single thing he says is wrong or could confuse ppl who want to learn something. Short example for everyone without any knowledge: Why do you have to apply unipolar voltage on a "bipolar" transistor, instead of bipolar voltage? (because he gets his knowledge from Google where it "was" written wrongly but spread like wildfire from ppl like him) That's the sad reason you need to go through a trainee instead of RUclips to learn something...
@@Umusiagreed, this stupid channel make me angry. my friend said i was wrong about things i taught him about electronic, and he showed me this stupid channel😤. insulting my degree😕 in one of his video about resistor, he even said resistor is "slowing down electron", "it's like a speed bump". can you believe that? if it was true, then we all can replace an expensive delay pedal with a single or more resistor for our guitar😅
From a practical 30k foot perspective, yes you are right. But when teaching to a virgin audience, care should be taken to properly differentiate between a vagina vs an anus. Just say'n...
@@Alex-zs7vl Not quite correct. In a bipolar transistor its primary the current (= number of electrons flowing) driving the output. Of course there is a function (logarithmic in this case), but it's the voltage being dependent on the current not the other way around. FETs are voltage driven devices (like vacuum tubes), but BJTs aren't.
@@latinumbavariae you can control it in current or in voltage, if you apply a voltage between base and emitter the voltage will create a current and the bjt will work (obviously applying also voltage between collector and emitter), in all real components the voltage depends on the current and the current depends on the voltage
BJT transistors Are rarely used in computer chips anymore. Most computer chips are based on FETs (Field Effect Transistors) which are basically more comparable to ancient tubes.
@@polycrystallinecandy my semiconductors intro class had a single question on the final, told to us on day 1. How does a transistor work, bjt and mosfet? If you couldn't explain the operation and the maths of transistors at the end of the year, you fail. If you pass, you know far more than this video can teach you.
Doesn't really matter actually, every equation and rule we have is made with conventional current. Since the rules go both ways, you can just use them by multiplying them with (-1). It's mostly just a tradition at this point
It‘s a really great Video and I have never seen a Transistor explanation with the npn semiconductors in a short. I really like that. Small correction for the BJT: you don’t need a Voltage on the base you need a voltage between the base and emitter -> results in a CURRENT. The BJT is a current connected „gate“. The most transistors in computers today are MOSFETs. MOSFETs are voltage controlled „gates“ so they need only a voltage on gate (it’s called different here) to enable the source drain current. Hope this was helpful ❤
Used mostly to regulate voltage, doesn't anything trough until a specific voltage, you connect it parallel with something, voila, now your circuit is that same voltage as it the voltage must be equal in parallel circuit. Also use them as shunts
That's awesome. It's like _the most_ important non-basic part, and to be honest, i didn't know about them until i started subsribing to a bunch if electronics channels yesterday. I am not a pro (obviously) at this point, but these will really let me make a lot of cool projects in the future.
Yea, and by accident he explained it wrong - you can turn "on" BJP with current, not voltage. And yes, there is a difference. If u want to use transistors with voltage use UJT, for example MOSFETs.
I think this channel is one of the best for electronics, I only watched shorts from this channel and i can say is i am always happy to learn new electronics components every time
Bro your the only person to properly explain what it is or how it works. When I was studying electrical engineering in university the professors explanations were clear as mud. Like using a word to describe its own definition.
From a person who’s spent hours of their life researching this, this was one of the best, most concise explanation I have ever seen. If only I had this a year ago…
I have never been subjected to so much hype and excitement over one of the simplest electronic components ever created. Please do a series on logic gates, binary operations and digital memory.
Thats awesome dude, each and every detail is crystal clear, we need more info about every single component (like resistor, capacitor, vlsi and so on) in electronics please....
Man hats up for u much respect Gave you a big subscribe Cause i finally found a channel that explains the components job with a clear picture and good explanation thank you Now we want you to explain all the components each component make a short video for it Plus a full video giving us an example how to put it or use it in a circuit link the full video to the short one plzzzz and thank you man
For those of you confused. When he said electrons flow from emittor to collector , it means current flows fron collector to emmitor , which is what we consider when doing our textbook calculations coz we go with direction of conventional current ❤
Indeed, great presentation. Just a small mention that worth to be said, the BJTs are being driven by current on the base. Indeed, we are applying a small voltage to the base but they are amplifying the current on the base by a factor and that is its main mission. Big like from me! Cheers!
Just some extra facts cause I couldn't fit it in the video:
The 'ON' and 'OFF' states of transistors are used to represent 1s and 0s in computer chips. Theres BILLIONS of tiny transistors in em that are used for logic gates, memory and computational stuff 🦾😄
Maybe a 555 timer next?
Operational amplifier in the next video
How do transistors work as an amplifier? 🙏🙏
Plss explain diodes 🙏🙏
We need full length videos and tutorials man! You really have potential to grow on RUclips if you do that and keep doing what you’re doing now! Best of luck man and thanks for the awesome videos!
this channel is sooo underrated. The explaination is crystal clear. Hope it grow really fast.
And he even explains many parts wrong in very single video.
After semiconductor, every single thing he says is wrong or could confuse ppl who want to learn something.
Short example for everyone without any knowledge:
Why do you have to apply unipolar voltage on a "bipolar" transistor, instead of bipolar voltage?
(because he gets his knowledge from Google where it "was" written wrongly but spread like wildfire from ppl like him)
That's the sad reason you need to go through a trainee instead of RUclips to learn something...
Too many errors in it.
@@Umusihe ain’t wrong lol don’t trip
@@Umusiagreed, this stupid channel make me angry. my friend said i was wrong about things i taught him about electronic, and he showed me this stupid channel😤. insulting my degree😕
in one of his video about resistor, he even said resistor is "slowing down electron", "it's like a speed bump". can you believe that? if it was true, then we all can replace an expensive delay pedal with a single or more resistor for our guitar😅
That is incredible true
BJT's are current devices, not voltage. (ie. the current in/out of the base is what controls the current between the emitter and collector)
I wanted to write the same thing! finally someone with a bit of education
The current is a function of the voltage applied, so you can control it either in voltage or in current
From a practical 30k foot perspective, yes you are right. But when teaching to a virgin audience, care should be taken to properly differentiate between a vagina vs an anus. Just say'n...
@@Alex-zs7vl Not quite correct. In a bipolar transistor its primary the current (= number of electrons flowing) driving the output. Of course there is a function (logarithmic in this case), but it's the voltage being dependent on the current not the other way around.
FETs are voltage driven devices (like vacuum tubes), but BJTs aren't.
@@latinumbavariae you can control it in current or in voltage, if you apply a voltage between base and emitter the voltage will create a current and the bjt will work (obviously applying also voltage between collector and emitter), in all real components the voltage depends on the current and the current depends on the voltage
BJT transistors Are rarely used in computer chips anymore. Most computer chips are based on FETs (Field Effect Transistors) which are basically more comparable to ancient tubes.
TTL (BJTs) vs CMOS (FETs) logic, right?
Your information is so clear to understand. Definitely make more shorts of those extra facts so you can get more views.
clear to understand but false
This 30 second better than my teacher's several hours of teaching
Nice information, i was just studying about semiconductors in school, the content you make is very good
Thank you! 😄
Same 😅
Fr😂
Exactly and I wanna know about the IC next!
best explanation so far
This taught me more about transistors and semiconductors than a college course did
Idk what college you went to, but this is usually a single slide of a single class on electronics 101
@@polycrystallinecandy my semiconductors intro class had a single question on the final, told to us on day 1. How does a transistor work, bjt and mosfet?
If you couldn't explain the operation and the maths of transistors at the end of the year, you fail. If you pass, you know far more than this video can teach you.
Wtf are you talking about. And how tf did you get 8 likes 🤦♂️
Quite the college you went in if this video seemed informative to an Electrical college graduate😂
i am studying this at school😂
The First best explanation! Thanks 1000x
Gotta applaud the correct electron flow direction bro 👏👏
YEs
Doesn't really matter actually, every equation and rule we have is made with conventional current. Since the rules go both ways, you can just use them by multiplying them with (-1). It's mostly just a tradition at this point
@@sinanaydn7907it does matter based on which way the elctrons actually flow tho
A short video that really gave me knowledge, mad respect bro
It‘s a really great Video and I have never seen a Transistor explanation with the npn semiconductors in a short. I really like that.
Small correction for the BJT: you don’t need a Voltage on the base you need a voltage between the base and emitter -> results in a CURRENT. The BJT is a current connected „gate“. The most transistors in computers today are MOSFETs. MOSFETs are voltage controlled „gates“ so they need only a voltage on gate (it’s called different here) to enable the source drain current. Hope this was helpful ❤
I was going to say this, well said :)
I like informative comments ❤
By far the best explanation!
Please explain about zenar diode
Used mostly to regulate voltage, doesn't anything trough until a specific voltage, you connect it parallel with something, voila, now your circuit is that same voltage as it the voltage must be equal in parallel circuit. Also use them as shunts
That's awesome. It's like _the most_ important non-basic part, and to be honest, i didn't know about them until i started subsribing to a bunch if electronics channels yesterday. I am not a pro (obviously) at this point, but these will really let me make a lot of cool projects in the future.
Dude explained in the same density what lecturers do in 4 hours!
It barely scratch the surface, what about beta variating between bjt, what about temperature there's so much to transistor that we need to learn
You didnt hear shit during your lecture then, if you actually think this short was the same density
Yea, and by accident he explained it wrong - you can turn "on" BJP with current, not voltage. And yes, there is a difference.
If u want to use transistors with voltage use UJT, for example MOSFETs.
Yo this was in my 1st year engineering from Electronics and Telecommunications Major. Thanks for the Video❤
So basically, a locked minecraft repeater 😂
You mean a comparator?
@@memevel no a comparator blocks flow when the side redstone signal is stronger the transistor allows flow.
This Channel deserves subs and view 🚀🚀🚀
I think this channel is one of the best for electronics, I only watched shorts from this channel and i can say is i am always happy to learn new electronics components every time
Bro your the only person to properly explain what it is or how it works. When I was studying electrical engineering in university the professors explanations were clear as mud. Like using a word to describe its own definition.
Very well explained! Thank you!
Inductors and reactance. What they mean. Keep up the amazing work!
One of the best explanations, I have heard so far, thank you so much
I appreciate your help!
Thank you man first time to clearly understand transistor even after I graduated biomedical engineering 10 years ago.
this helped me understand transistors for my technology project
Wow, great explanation!
Wow i was kinda confused on how it worked but the final explanation with the holes made it EASY
one of the best explanation I see
Your channel is one of my favorite. Keep it uplove you fam
One of the best exploration i ever heard
Old nostalgia kicked in with this video.
It's been a while since I studied BJT transistor in engineering.
❤❤❤❤❤
I have been doing electronics for years. This is one of the greatest explanations on how transistors work.
Thank you for crystal clear guidance with crystal understanding. Kindly talk about Gates and Resistance.
absolutely incomprehensive
thank you
Yes,yes. Love it. Keep'em comin'
wow i actually understood that thanks
Omg i wish i could like more than once for this video! Thank you for education!
You earned a like for the best explanation of a transistor ever.
I haven’t understood it after 2 hours with my Physics teacher, but within 30 seconds with your video. Thank you so much ❤!
A very easy tutorial and very good in explaining about the topics...
Thanks...
I found the best video in RUclips that explains about Transistor❤
From a person who’s spent hours of their life researching this, this was one of the best, most concise explanation I have ever seen. If only I had this a year ago…
Wow, good explanation; simple and exactly what you need to learn
I like that you used the real flow of electron in the circuit representation.
damn, your explanation is so wholesome, def a worthy sub
Thanks to you. Keep going. It is a great explanation of Electronic components. Please make a video of Mosfet and OPAMPS, Diodes.
Great video! MOSFET next please. Thanks!
Wonderfully explained also do for FET please😊
straight to the point!
Thanks for the example.
This is the dopest channel ever😍
This channel is soooooo goooooood. This channel must be known by anyone.
Simplest but informative short. This video shall prevent our circuit from getting short.
this would help me in future endeavors
You just got yourself a new subscriber, what an awesome explanation
Beautiful video, good job!
I have never been subjected to so much hype and excitement over one of the simplest electronic components ever created.
Please do a series on logic gates, binary operations and digital memory.
That's a good explanation! Expand what you explained here by showing how they work in amplifier circuits.
Wonderful explanation ❤
Thank for the info it's helpful ❤
Thats awesome dude, each and every detail is crystal clear, we need more info about every single component (like resistor, capacitor, vlsi and so on) in electronics please....
It's very easy explanation,just awesome,🙂
Seriously good u can start online classes or a website where u can explain every thing it was very useful to me thanks
Darun darun hoyeche ganta
Im a new sub.. I love this channel
Best short ever ❤
Even with 3 jobs, my ex still managed to take me to the Depletion Region.
Amé este vídeo
Preciso, y corto pero no por ello menos riguroso
No perdió mi atención en ningún momento
Excelente vídeo ❤️
Nice idea...to share knowledge.......
best explanation ever
Wow excellent explanation
What is learnt by analysing your channel is, creating short videos can give you the most subscribers but it takes longer to monetize the channel
Great! You earned yourself a subscriber
Omg best transistor video on yt
Best explanation I never heard
Clear information about multimeter and how to use it!
Man hats up for u much respect
Gave you a big subscribe
Cause i finally found a channel that explains the components job with a clear picture and good explanation thank you
Now we want you to explain all the components each component make a short video for it
Plus a full video giving us an example how to put it or use it in a circuit
link the full video to the short one plzzzz and thank you man
Dammmn a whole topic which took us 2 days in college in a single short
Damn u explained so easily 😍
I im learning this in school now and i can confirm that this guy explained it better in 60s than my teacher in 2 hours
A transistor is a solid state vacuum tube.
Good knowledge brother🤜
This channel is my addiction. Probably too specific but I'd love to learn about EC keyboard switches
This might be the hardest transistor explanation ever 🔥
Old good days of my college when i was enjoying studies for the first time.
Thanks for reminding me 😄
For those of you confused. When he said electrons flow from emittor to collector , it means current flows fron collector to emmitor , which is what we consider when doing our textbook calculations coz we go with direction of conventional current ❤
Very good explanation thanks
Hope this YT was there 25 years ago.
This 30 seconds is better than what i learned in 3 years
Indeed, great presentation. Just a small mention that worth to be said, the BJTs are being driven by current on the base. Indeed, we are applying a small voltage to the base but they are amplifying the current on the base by a factor and that is its main mission. Big like from me! Cheers!
Great stuff!
I didn't understand this stuff for 2 years straight in college and this dude explained it in 15 seconds.
Thank you. I didn't understand a thing but it's very informative
Awesome explanation
Op amp as integral differentiator.
Awesome video 👍
Bro where was this channel when I was taking electrical fundamentals 😭😭😭
Wow. Finally I understand this.