9 years later and this video still is timeless. I cannot thank you enough for this. I was trying for so long to understand this and just when I thought I had given up I come accross this video and it vanquished all my doubts and uncertainity. Thank you so much!!
I guess im asking randomly but does any of you know a tool to log back into an Instagram account..? I was dumb lost the login password. I love any assistance you can offer me!
@Ellis Clark I really appreciate your reply. I found the site thru google and Im waiting for the hacking stuff atm. Looks like it's gonna take quite some time so I will reply here later when my account password hopefully is recovered.
Great video! I was really struggling with understanding how the transistors create the intended effect of logic gates. You explained it clearly and thoroughly, thanks!
I have been searching for the cmos logic gates tutorial for 3 days and have been watching many videos on RUclips but still have not mastered this knowledge until this video!!!! And I will have my midterm next Monday!!! Thank you so much!!!! you saved me!!!
First time working with these and I got the needed info and explanation needed to quickly understand how they work to act like logic gates! Great stuff!
Had problems in understanding the topic, so I opened RUclips and watched lots of videos, but couldnt understand any untill I saw your video. Thanks a lot.
i have a web test due in a few days, i've been to every lecture yet somehow when I saw the question involving Pmos and Nmos, I thought that I must have blacked out at the lectures, I had never (in my mind) heard of them. I thought now I'm fucked, I'll never be an engineer... This 10min video gave me an understanding of the principle of CMOS transistors and thecapability to solve the problem in the test in a few moments. Thank you so much and long live the internet
I am only 6 or 7 weeks learning programming languages and one week learning electronics. I find learning addictive and I cannot believe how quickly I am learning computer science plus electronics, when I find brilliant tutors like yourself. I learn faster from videos than from textbooks. I just subscribed and thumbed up.
While it should not be required that you have success of any kind for what you need. You did good and informed any that desire the knowledge you presented. May you find that special person and what's required to find yourselves happy and healthy.
this was the sweetest mistake I've made today 💚 I swear to God that I clicked on your video by mistake and it was the one I needed the most for my studies as I'm having an exam this Sunday ! thank you so much sir 🙏
This was a fantastic video. I am taking an internet of things course and apparently this stuff is necessary enough to put it on homework yet NOWHERE do they explain any of this. Thank you!
Exactly what I was looking for!! thanks a lot man.. :) Usually most of the videos on this topic have a longer duration!! You explained it the best in about 10 minutes.. great work..
A minor error ... 6:40 ... If B is zero, then the bottom-most NFET will be open. Thus if A is one, then B will *not* make the second NFET turn on. I've classified this as a minor error, because it does not change the final output of the circuit, it's just something you need to know when building your own gates and pulling outputs from strange places. This also applies to the NOR gate at 9:48 ... If A is 1, the first PFET will be off, resulting in source on the second PFET will be high impedance and that means no matter if the gate on this second PFET is 0 or 1, the second PFET will be off. Still, this is only a minor error, because it does not change the final output of the gate. It does not matter which order the series-connected FETs are placed in; sometimes it may be beneficial to swap the order (as one could re-use one FET's output instead of placing two FETs with the same source and gate. Those cases are rare, but they do exist. No, it doesn't really make much difference, unless you're duplicating the circuit thousands of times; if you're just making a breadboard-test using a few components, the difference is hardly noticable. But if you are making an ASIC through a foundry and have to pay from your own pocket, you'd definitely want to save a few transistors on just a single gate type, which is used many times.
Great theory, but if you really wanted to build one, how do you figure out which parts to use? Is there an example with real components I can duplicate?
Great explanation!!! I had seen a lot of videos about this and really you showed a complex thing with few words. Please make one about "Operational Amplifiers"
So charge carriers flow into the source terminal and leave via the drain terminal. When you denote the terminals as 1 and 2, which is which? Where does current flow (in which direction)?
this shows how to go from a transistor diagram to a truth table (does a great job btw). Is there a specific method to go from a truth table to a diagram or is the general way to just memorize the diagrams for functionally complete sets? Like if i was asked to build a NOR gate using pmos and nmos', would i just reproduce it from memory or is there a method to reason it out?
9 years later and this video still is timeless. I cannot thank you enough for this. I was trying for so long to understand this and just when I thought I had given up I come accross this video and it vanquished all my doubts and uncertainity. Thank you so much!!
10 years
I looked through quite a few videos on the subject, and this was the best. Very clearly explained.
I guess im asking randomly but does any of you know a tool to log back into an Instagram account..?
I was dumb lost the login password. I love any assistance you can offer me!
@Jaxxon Vivaan instablaster :)
@Ellis Clark I really appreciate your reply. I found the site thru google and Im waiting for the hacking stuff atm.
Looks like it's gonna take quite some time so I will reply here later when my account password hopefully is recovered.
@Ellis Clark It did the trick and I actually got access to my account again. I am so happy:D
Thank you so much, you saved my account!
@Jaxxon Vivaan Happy to help xD
i've been on this for 5 hours trying to understand what happens. thank you so much!!!! understood in 5 minutes!!
same!
Same
The video takes 10 minutes and 48 seconds.
lol same !!!
same!
Over a Decade later, this is still among the best explanation of Complementary MOSFET Functions
Great video! I was really struggling with understanding how the transistors create the intended effect of logic gates. You explained it clearly and thoroughly, thanks!
cannot believe this is the only video that truly explains what is really going on. Thank you so much
I have been searching for the cmos logic gates tutorial for 3 days and have been watching many videos on RUclips but still have not mastered this knowledge until this video!!!! And I will have my midterm next Monday!!! Thank you so much!!!! you saved me!!!
First time working with these and I got the needed info and explanation needed to quickly understand how they work to act like logic gates! Great stuff!
Had problems in understanding the topic, so I opened RUclips and watched lots of videos, but couldnt understand any untill I saw your video. Thanks a lot.
You are the unsung hero of us computer science people. 10-minute video explained more clearly and precisely than any compOrg professor
Best video I've ever watch about basic Mosfet transistors. Tanks a lot!
finally, someone who explains properly! electronic final is tomorrow! thanks bro!
i have a web test due in a few days, i've been to every lecture yet somehow when I saw the question involving Pmos and Nmos, I thought that I must have blacked out at the lectures, I had never (in my mind) heard of them. I thought now I'm fucked, I'll never be an engineer...
This 10min video gave me an understanding of the principle of CMOS transistors and thecapability to solve the problem in the test in a few moments.
Thank you so much and long live the internet
+Daski69 me, 11 mins ago
This one is the best explained among any other. Cleared my concepts. Thank you sooo much...
After 6-7hours learning these things, you help me understand in only 10 min...thank you Sir
I think this is the best video on the internet explaining that. helped a lot , thank you!
Learned more in 10 minutes than from my entire intro to computer systems course. Thanks!
I am only 6 or 7 weeks learning programming languages and one week learning electronics. I find learning addictive and I cannot believe how quickly I am learning computer science plus electronics, when I find brilliant tutors like yourself. I learn faster from videos than from textbooks. I just subscribed and thumbed up.
Such a great vid! Me and Joey learned so much. Understood 3 weeks worth of lectures in this one video.
While it should not be required that you have success of any kind for what you need. You did good and informed any that desire the knowledge you presented. May you find that special person and what's required to find yourselves happy and healthy.
this was the sweetest mistake I've made today 💚 I swear to God that I clicked on your video by mistake and it was the one I needed the most for my studies as I'm having an exam this Sunday ! thank you so much sir 🙏
This is life saving, thank you sooooooooo much😭.May God always bless you happiness
This was a fantastic video. I am taking an internet of things course and apparently this stuff is necessary enough to put it on homework yet NOWHERE do they explain any of this. Thank you!
Just had to say a huge thank you, really REALLY helped me out!
Wow... this connect the pmos and nmos to the logoc gate.!!!
Thank you sir
This guy is genius, cuz he explained everything in simple words that even a toddler could understand. Thank you man !!
I am a toddler and I confirm.
One of the best videos i have ever seen ... Thanks a lot ...
Great and Simple Explanation...keep making this type of videos
Thank you so much! This video really helped me understand transistors!
Exactly what I was looking for!! thanks a lot man.. :)
Usually most of the videos on this topic have a longer duration!!
You explained it the best in about 10 minutes..
great work..
Thank you so much !! 10 Minutes and everything is clear !
Just what i needed. Well done mate!
Just helped me again today.
This video is simply amazing. Thank you! You really have a gift for explaining difficult concepts.
Thanks Man!! Explained so brilliantly!👌
I wish i had seen this before. Thank you so much for your truly clear explanation!
Thank you so much, this is the best video with clear and great explanations.
Hey guy, you're awesome, after 10 seconds, all our problems were solved :D. Thanks a bunch :D
videonun üzerinden 10 yıl geçmiş ve hala bunun kadar kaliteli bir video piyasada yok . this masterpiece will never get old
valla helal olsun tum prefesorlerden daha saglam
Thank you. You saved my midterm
superbly explained man!
You are awesome! I will write a 10 in Superman's course (who also hears and sees everything) because of you! Viva la MOSFET!
thank you, very well explained for people without basic knowledge on electronics like me
I'm building a computer at the transistor level, and I decided to use cmos logic to build it because of this video!
I didn't feel that I'm studying .. this video like watching a movie...LOL
Well done Sir! 😁.... Really really clear explanation. Thanks
Finally an explanation that I get. Thank you! :D
Thanks for your detailed explaination first. Now I've understand it.
Best explanation to this topic ★★★★★
Thank you Sir, you just explained how to build any logic gate in any functionality.
Such a great vid. Very simple to understand
Pleasant voice and good explanation, thanks :)
Thanks for the very well explained video. I finally understand how it works. :)
Undoubtedly to the point, what everyone needs in logic family, rather than going in detail to AE
Explains the best. Thanks.
Really helpful to understand mosfet, thanks
i cannot tell you how long it took to find one decent explanation of what physical components make logic gates. i cannot tell you.
best video I watched about this topic
Очень крутое видео, автор, спасибо! Стик крутой!!!!
ИПСА ИПСА УУУУ!!!!!
this is clear explanation of the CMOS
thank you
Excellent job,well done sir!
Thanks a lot..you saved my time..best explanation !
best helpful videeo
i like it best among some videos. Very very clear !
Saving my life. 😢
Only problem is that the circuits don't look the same from My textbook 😂
Explains very clearly. Thank you su much for the video.
Took a digital circuits course. Didn't understand
Took a circuit devices course. Didn't understand
Watched 3 minutes of this video. Finally understand
bro you made so much sense to me
A minor error ...
6:40 ... If B is zero, then the bottom-most NFET will be open. Thus if A is one, then B will *not* make the second NFET turn on. I've classified this as a minor error, because it does not change the final output of the circuit, it's just something you need to know when building your own gates and pulling outputs from strange places.
This also applies to the NOR gate at 9:48 ... If A is 1, the first PFET will be off, resulting in source on the second PFET will be high impedance and that means no matter if the gate on this second PFET is 0 or 1, the second PFET will be off. Still, this is only a minor error, because it does not change the final output of the gate.
It does not matter which order the series-connected FETs are placed in; sometimes it may be beneficial to swap the order (as one could re-use one FET's output instead of placing two FETs with the same source and gate.
Those cases are rare, but they do exist.
No, it doesn't really make much difference, unless you're duplicating the circuit thousands of times; if you're just making a breadboard-test using a few components, the difference is hardly noticable. But if you are making an ASIC through a foundry and have to pay from your own pocket, you'd definitely want to save a few transistors on just a single gate type, which is used many times.
Great viedo....Well explained
Thank you so much understandable and perfect explanation !! definitely grateful thank you so much.
Thank you kind sir for speaking the language of human beings!
Great theory, but if you really wanted to build one, how do you figure out which parts to use? Is there an example with real components I can duplicate?
Finally, I understand it! Thank you!
Thank you so MUCH! I finally understand this subject
good job clear explanation nice walk through.
thank you very much, amazing video with crystal clear explanations!
You actually saved me thank you!!!
Awesome Explanation!
That was a very helpful video, thank you very much.
great video. Clearly explained...thanks......
Why did you decide to put pmos in series and nmos in parallel for the NOR gate? I'm guessing it would work the same if it was the other way round?
so would an OR gate just be the NOR gate flipped? like the bottom circuit on top and the top circuit on the bottom?
Great video pal! Thanks!
2023 and this vidoe still usefull af ! thanks alot
Oh my god thanks for this ! I was sooo confused !
thank you!
so using double MOSFET sets instead of transister-resister sets is in order to save energy?
Great demo!
Quick question : Why dont we just use either single transistor as a not gate since they give an output that is opposite of input?
Great explanation!!! I had seen a lot of videos about this and really you showed a complex thing with few words. Please make one about "Operational Amplifiers"
finally understanding how to do these, thanks!
So charge carriers flow into the source terminal and leave via the drain terminal. When you denote the terminals as 1 and 2, which is which? Where does current flow (in which direction)?
phenomenal video
11 years later, Still Delivers!!!
Thank you! It really helped me.
I'm so happy I stumbled upon this.
Nice video mate!
Awesome video!!
Which specific mosfets would you use for this application? (I want to try to build some gates)
this shows how to go from a transistor diagram to a truth table (does a great job btw). Is there a specific method to go from a truth table to a diagram or is the general way to just memorize the diagrams for functionally complete sets? Like if i was asked to build a NOR gate using pmos and nmos', would i just reproduce it from memory or is there a method to reason it out?
Did you find the answer? I'm trying to figure it out.
saved my life. thank you so much.