for PI feedback controller with un-unity feedback, final values is off

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Abdulaziz Abutunis
Abdulaziz Abutunis on 17 Oct 2023
Commented: Sam Chak on 19 Oct 2023
I have a second-order transfer function, and I am using integral control, but the final value will not settle at the input level (step).
My attempt is below
--------------------------------------------------
s = tf('s');
G = tf(1, [1, 1.4, 1]);
>> ki=1; % I-gain
Dc=ki/s; % I-control with integral gain ki
step(feedback(Dc*G,0.5,-1)); % the 0.5 is what I have in the feedback path and G*Dc is the gain in the forward path.
------------------------------------------------------------
The output will not settle at 1. Any suggestions

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Accepted Answer

Sam Chak
Sam Chak on 18 Oct 2023
Ran in:
Hi @Abdulaziz Abutunis
You can fix the issue by scaling the step input to match the gain in the feedback path (H) in order to eliminate the steady-state error.
s = tf('s');
Gp = tf(1, [1, 1.4, 1]);
ki = 1;
Gc = ki/s;
H = 0.5;
Gcl = feedback(Gc*Gp, H)
Gcl = 1 ----------------------- s^3 + 1.4 s^2 + s + 0.5 Continuous-time transfer function.
scaledIn = H; % scale the step input to match H
tFinal = 30;
step(scaledIn*Gcl, tFinal)
  2 Comments
Abdulaziz Abutunis
Abdulaziz Abutunis on 18 Oct 2023
Moved: Sam Chak on 19 Oct 2023
Thank yo Sam for your response.
I thought there will be some command used to account for that rather than simply scaliing the input.
Thank you again
Aziz
Sam Chak
Sam Chak on 19 Oct 2023
You are welcome, @Abdulaziz Abutunis. Don't forget to 'click-accept' the answer, and feel free to post new questions related to transfer function design problems.

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