Sir, what about control signal? You got a very nice response but when i did the simulation of it, i saw that it is not applicable because of huge control signal. Then i added integral anti wind up and saturation block but this time my response got harmed. What do you think?
please why did you not take the lag/dead time from the x-axis but rather from the curve? From the power point, i thought L was supposed to be on the x-axis?
That's a Matlab plot functionality where it shows you the x,y coordinates for any point on the curve. If you observe closely he picks up the Time value which is nothing but the x-coordinate.
Thankyou soo much for uploading!🙌🏽
My pleasure!!
Indeed u presented very well... Really appreciate 👍
Thanks a ton
Awesome bro
Thanks for the visit
What will be the value of L and T(tau..) for system (1/(s-1)) for this method?
Sir, what about control signal? You got a very nice response but when i did the simulation of it, i saw that it is not applicable because of huge control signal. Then i added integral anti wind up and saturation block but this time my response got harmed. What do you think?
Thank you so much bro
Welcome
please why did you not take the lag/dead time from the x-axis but rather from the curve? From the power point, i thought L was supposed to be on the x-axis?
That's a Matlab plot functionality where it shows you the x,y coordinates for any point on the curve. If you observe closely he picks up the Time value which is nothing but the x-coordinate.
In this code is that 2=tf('2') or what it's not visible
s=tf('s') is to create continous time function in s
Legend