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- Опубліковано 27 вер 2024
- A closed loop control system for position control is comprised of proportional, integral, and derivative circuits and is often referred to as a PID. Watch this video to learn more.
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It's simply the best explanation I've ever seen.
Best explanation of PID for now.Finally I understood the point of Integrator or "past value"
Agree !
It's the best video to explain PID controller I've ever seen.
Very good illustration of processes
Very Nice explanation. Integral action derivative action have on a system. Most explanation system dont show load on a system compared to open load.
Best explanation of PID for me thank you very much
thank you !
for this crucial video tutorial
Wonderful . Very nice animation and explanation.
nicely explained through use of electronics hardware. this way it was must easy to comprehend..thnx.
To make the simulation complete, you can use an Op Amp wired as an Integrator. Then feed this back to the error detector.
Best explanation! Thank you.
wow what wonderful way to explain pıd controller thanks
crystal clear concept sir
Muito boa a sua explicação. Parabéns.
very nice presentation. thanks for sharing it.
Thank you very much Sir very informative video and
sir plz make more videos
Thank you very much Sir very informative video
man ...you are the GOAT ;) 👍👍
Hi, how do you know the Vout of the D/A converter is true?
I'm designing a flyback converter with PID feedback for my graduation project. I think the same way will work for voltage control. But fixing the converted voltage using another voltage doesn"t make sense.
Wow. I get it. !!!! 😊🙏 thank you and blessings upon you.
I FINALLY GOT IT !!!
Thanks
The information presented in this video is not entirely correct. Especially the part with the Integral action of the controller.
I love when people point out errors and dont explain them.
thanks for the clear explanation god bless you
So cool
it is very nice video
ty
Thx!
🔥🔥
what the fuck does this mean
The steady state error is inherent to the proportional control itself, not due to external causes such as friction and load. You can demonstrate this using a simulation.
I agree.
39k views, zero dislikes. That's saying something.
Fantastic video, sir. I don't even need to learn PID controlling this precisely, but I watched the entire video anyway because it was pretty damn interesting.
hi im looking for a derivation of the two op amp pid implementation pls help
Beautiful explanation and animation, thank you so much.
Can I get a like from all my drone pilots
is it over yet. I fell asleep. there are so many well done videos, don't waste your time with this one. it even is is ambiguous, confusing, and potentially wrong. move on, find one of the well done PID videos.
plz share the good ones
Easy to criticise something is wrong without stating your 'perceived' errors, otherwise you have no integrity. State the error so you can be peer reviewed also..
Your wrong or stupid you choose