Sir do you have any other videos about this suject?
@hermanusscholtz5 жыл бұрын
Good Preso Scott Hayes
@niceking83467 жыл бұрын
what is the meaning of siL
@empu4356 жыл бұрын
safety integrity level
@gaellesann59437 жыл бұрын
Great video. Easy to understand! Thanks!
@hiranthini17 жыл бұрын
Very nice explanation.
@mba2ceo7 жыл бұрын
Might U do an actual circuit - schematic ?
@freeengineeringtutorials79507 жыл бұрын
PID Controller 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. kzread.info/dash/bejne/oJ-fx7KYds3TZcY.html
@JimMorten7 жыл бұрын
Thank you for sharing you knowledge!
@OscarSotomayor7 жыл бұрын
helps me a lot
@GammaWraith7 жыл бұрын
mind blown ! thank you for the excellent video
@dineshshenoy59807 жыл бұрын
Terrific video, thanks very much for making it!
@27bri278 жыл бұрын
Did you say demystified?
@himanshutiwari2408 жыл бұрын
good job !!
@lalandleah8 жыл бұрын
Im still not understanding tau i when applied to code. Is it the change in time bewtween each cycle? or is it a cycle that adds up time until it equals 5 seconds or something?
@shalumail238 жыл бұрын
I struggled so hard with the integral part. You made it look so simple! Thanks mate! :)
@alexispietak82868 жыл бұрын
Fantastic explanation and video -- this helped so much -- thank you!!
@rklauco8 жыл бұрын
Excellent video! Thanks for it.
@toadiri8 жыл бұрын
great explaining thank you
@inneralpha8 жыл бұрын
Nice Video! I appreciate it. This makes the theory much more clear.
@xSampleXX8 жыл бұрын
Really quite excellent. Not for a total beginner, but good for someone who is relatively new to PID loops.
@arunraj52758 жыл бұрын
awesomeness for the beginner... really im so thankful to you
@noorahmedsamir2038 жыл бұрын
I've been struggling in understanding such conccept but after this videooo I really would love to thank you a lottt :D
@hudsonodwyer-flynn4468 жыл бұрын
nice one mate thanks
@mqrieck8 жыл бұрын
Well done! However, I quibble with this idea that gain is "unitless." I disagree. For instance, if the input is measured in miles per hour, and the output is measured in degrees, then change in output over change in input is measured in degrees per mph, or equivalently, degree-hours per mile, so the gain would be measured in degree-hours per mile. You could say that degree is not a physical unit, which is fine, but then you're still left with hours per mile.
@PavanSinghAneja8 жыл бұрын
Great video, wish there was a visual representation of PID together
@martinpesek83778 жыл бұрын
love it
@natewrye14548 жыл бұрын
People like you are awesome, thanks for taking the time to explain such a difficult concept in a simple way!
@udayantrivedi8 жыл бұрын
very well explained
@robbieninja8 жыл бұрын
Very helpful, but still seems like rocket science to me. More time to play around will help cement this in my aged brain, and control this F****** stabilized camera head
@iz11959 жыл бұрын
Such a good explanation thank you so much
@tsepollewellyn86319 жыл бұрын
Great video! Some people will complain about anything; I don't understand how anyone could dislike this...
@hansphilipp92219 жыл бұрын
Thank you so much, this is superb....
@Dan-sq6bz9 жыл бұрын
Excellente!
@wktodd9 жыл бұрын
Thanks the pseudo code really helps to clarify it in my (4 function) mind :-) Pity about the sound quality - as an ex-sound engineer, I suggest you use a pop-shield between you and the mic (this could be as simple a a piece of ladies stocking stretched over a wire loop ) it'll stop the popping sound as you pronounce the 'P's and 'B's and allow the recording level to be higher.
@bhuvi4419 жыл бұрын
Thank you so much !!!
@TheGta4you9 жыл бұрын
Thank you ! I love you !
@vamsichinta27009 жыл бұрын
great explanation, thanks.
@AhmadAlghannam9 жыл бұрын
Thanks
@Vidicon319 жыл бұрын
very good
@Ozzy33333339 жыл бұрын
If the P gain is to high (~2:40), it will oscillate, but it will be above and below the set point, not under it. At 7:45 your two bottom tables are not correct, the reset register would not be that high when the error is small and the P is way to high when there is little or no error left. Thanks for the video. Watch the Motec PID videos, they are pretty good, but long.
@paulomoniz73269 жыл бұрын
Good video bro. I used these equations on a Arduino last year, made several PIDs to control the illumination of desks in a Lab. Controlled light dimming, fans of the lights, distance sensors(to check if there is someone in the desk). Really nice video man.
@TanmayMukim_dhab9 жыл бұрын
THNX
@vineetbotix9 жыл бұрын
Thnx to whom?
@TanmayMukim_dhab9 жыл бұрын
THNX to myself for watching this video. ;)
@achyuthan909 жыл бұрын
Thanks a bunch!
@prathamesh257939 жыл бұрын
Thanks
@laysauchoa75579 жыл бұрын
Is simple but I think is a good explanation! I hope you keep doing videos about it.
@sanketjhala15229 жыл бұрын
very usefull
@butterflywing619 жыл бұрын
Superb!
@agentfaffy9 жыл бұрын
For the PD control you start out using tau_d but change to tau_i. Is this a typo?
Пікірлер
Excellent 😊😊😊😊😊
very good
Sir do you have any other videos about this suject?
Good Preso Scott Hayes
what is the meaning of siL
safety integrity level
Great video. Easy to understand! Thanks!
Very nice explanation.
Might U do an actual circuit - schematic ?
PID Controller 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. kzread.info/dash/bejne/oJ-fx7KYds3TZcY.html
Thank you for sharing you knowledge!
helps me a lot
mind blown ! thank you for the excellent video
Terrific video, thanks very much for making it!
Did you say demystified?
good job !!
Im still not understanding tau i when applied to code. Is it the change in time bewtween each cycle? or is it a cycle that adds up time until it equals 5 seconds or something?
I struggled so hard with the integral part. You made it look so simple! Thanks mate! :)
Fantastic explanation and video -- this helped so much -- thank you!!
Excellent video! Thanks for it.
great explaining thank you
Nice Video! I appreciate it. This makes the theory much more clear.
Really quite excellent. Not for a total beginner, but good for someone who is relatively new to PID loops.
awesomeness for the beginner... really im so thankful to you
I've been struggling in understanding such conccept but after this videooo I really would love to thank you a lottt :D
nice one mate thanks
Well done! However, I quibble with this idea that gain is "unitless." I disagree. For instance, if the input is measured in miles per hour, and the output is measured in degrees, then change in output over change in input is measured in degrees per mph, or equivalently, degree-hours per mile, so the gain would be measured in degree-hours per mile. You could say that degree is not a physical unit, which is fine, but then you're still left with hours per mile.
Great video, wish there was a visual representation of PID together
love it
People like you are awesome, thanks for taking the time to explain such a difficult concept in a simple way!
very well explained
Very helpful, but still seems like rocket science to me. More time to play around will help cement this in my aged brain, and control this F****** stabilized camera head
Such a good explanation thank you so much
Great video! Some people will complain about anything; I don't understand how anyone could dislike this...
Thank you so much, this is superb....
Excellente!
Thanks the pseudo code really helps to clarify it in my (4 function) mind :-) Pity about the sound quality - as an ex-sound engineer, I suggest you use a pop-shield between you and the mic (this could be as simple a a piece of ladies stocking stretched over a wire loop ) it'll stop the popping sound as you pronounce the 'P's and 'B's and allow the recording level to be higher.
Thank you so much !!!
Thank you ! I love you !
great explanation, thanks.
Thanks
very good
If the P gain is to high (~2:40), it will oscillate, but it will be above and below the set point, not under it. At 7:45 your two bottom tables are not correct, the reset register would not be that high when the error is small and the P is way to high when there is little or no error left. Thanks for the video. Watch the Motec PID videos, they are pretty good, but long.
Good video bro. I used these equations on a Arduino last year, made several PIDs to control the illumination of desks in a Lab. Controlled light dimming, fans of the lights, distance sensors(to check if there is someone in the desk). Really nice video man.
THNX
Thnx to whom?
THNX to myself for watching this video. ;)
Thanks a bunch!
Thanks
Is simple but I think is a good explanation! I hope you keep doing videos about it.
very usefull
Superb!
For the PD control you start out using tau_d but change to tau_i. Is this a typo?