In case it is helpful, here are all my Control Theory videos in a single playlist ua-cam.com/play/PLxdnSsBqCrrF9KOQRB9ByfB0EUMwnLO9o.html. Please let me know what you think in the comments. Thanks for watching!
Thanks, there are several related videos on the channel. Please feel free to check them out and let me know what you think in the comments, thanks for watching!
I'm glad it was helpful. There are other similar videos on the channel, please feel free to check them out and let me know what you think. Thanks for watching!
AE511-Great clarification that despite the generic terminology of steady state "error" used in controls engineering, the input and output can be different units.
AE411: In the example of the prop controller, it seems like you're treating the DC gain like a unit conversion. Haven't watched the rest of the video yet, but curious if there are other examples of DC grain greater than 1 that are not unit conversions.
I perhaps muddied the waters when talking about the units. At the end of the day, the DC gain is simply the ratio of output/input at steady state when the input is constant. This effectively tells you how much the system amplifies or attenuates the input signal.
@@ChristopherLum I didn't mean it as too much of a criticism, more just an observation that DC gain could be used to account for unit conversions. But it would be interesting to think of other examples.
Hello, First let me say thank you for your generous support of the channel, it is very much appreciated! Do you have any particular interests in terms of videos or topics? I try to prioritize request made by interested parties as much as possible as I plan future videos. If you are interested, I interact personally with all Patreon members at www.patreon.com/christopherwlum. Given your interest in the topic, I'd love to have you as a Patron. It seems that you are interested in control theory, if you have any questions please let me know, I'd be happy to chat. In any event, I want to again say thank you for your contribution and for supporting the channel. I hope to hear from you at a future UA-cam video or on Patreon! -Chris
Hi Ha, Thanks for the kind words, I'm glad you enjoyed the video. I've noticed you viewing several of the controls videos. If you find these videos helpful, I hope you'll consider supporting the channel via Patreon at www.patreon.com/christopherwlum. Given your interest in this topic, I'd love to have you a as a Patron as I'm able to talk/interact personally with all Patrons. Thanks for watching! -Chris
In case it is helpful, here are all my Control Theory videos in a single playlist ua-cam.com/play/PLxdnSsBqCrrF9KOQRB9ByfB0EUMwnLO9o.html. Please let me know what you think in the comments. Thanks for watching!
they are the best in youtube i think, subscribed
AE 511 - Very helpful discussion on DC gain. Also thank you for the clarification around the term steady state error.
your pronunciation is very clear and nice. Thanks from South Korea
Thanks, there are several related videos on the channel. Please feel free to check them out and let me know what you think in the comments, thanks for watching!
Very clearly explained. Thank you, sir!
Glad it was helpful!
Thanks Chris for a great video on a introduction of DC Gains & Steady State Error
Good video on DC gain and steady state error. Thanks Chris!
Watching this as a crash course for Control Theory finals coming up in a week haha. Thanks from Singapore!
I'm glad it was helpful thanks for watching!
[AE 511]
Agree about the error nomenclature regarding steady state. It seems like it would be better to call it "steady state delta" or "difference".
Thank you for the very nice lecture! I'd recommend throwing out DC gain = Gain @ frequency zero = G(jw)|w=0 = G(0)
You are a genius teacher
I'm glad it was helpful. There are other similar videos on the channel, please feel free to check them out and let me know what you think. Thanks for watching!
Thank you for that great lecture.
AE511-Great clarification that despite the generic terminology of steady state "error" used in controls engineering, the input and output can be different units.
good intro and example, thanks.
Thank you for your clear explanation :-)
Very direct and easy to understand, thank you - AE511
Is the system G(s) close loop or open loop? I mean does it apply to systems with controller??
AE411: In the example of the prop controller, it seems like you're treating the DC gain like a unit conversion. Haven't watched the rest of the video yet, but curious if there are other examples of DC grain greater than 1 that are not unit conversions.
I perhaps muddied the waters when talking about the units. At the end of the day, the DC gain is simply the ratio of output/input at steady state when the input is constant. This effectively tells you how much the system amplifies or attenuates the input signal.
@@ChristopherLum I didn't mean it as too much of a criticism, more just an observation that DC gain could be used to account for unit conversions. But it would be interesting to think of other examples.
what if the input is ramp or parabolic
¡Gracias!
Hello,
First let me say thank you for your generous support of the channel, it is very much appreciated!
Do you have any particular interests in terms of videos or topics? I try to prioritize request made by interested parties as much as possible as I plan future videos.
If you are interested, I interact personally with all Patreon members at www.patreon.com/christopherwlum. Given your interest in the topic, I'd love to have you as a Patron. It seems that you are interested in control theory, if you have any questions please let me know, I'd be happy to chat.
In any event, I want to again say thank you for your contribution and for supporting the channel. I hope to hear from you at a future UA-cam video or on Patreon!
-Chris
Sir how can we perform the same analysis in matlab
Thanks professor.
AE511: Okay, so the DC gain is essentially how much you're boosting or attenuating the input signal.
Thank you so much
Hi Ha,
Thanks for the kind words, I'm glad you enjoyed the video. I've noticed you viewing several of the controls videos. If you find these videos helpful, I hope you'll consider supporting the channel via Patreon at www.patreon.com/christopherwlum. Given your interest in this topic, I'd love to have you a as a Patron as I'm able to talk/interact personally with all Patrons. Thanks for watching!
-Chris
You are great
Video explaining DC gain
Tq sir 💫
In the Mathematica portion of the video, the audio got really quiet.
ae511. good lecture
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