How to get the output of a controller from MATLAB codes not simulink

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ojonugwa adukwu
ojonugwa adukwu 2022 年 9 月 16 日
コメント済み: ojonugwa adukwu 2022 年 9 月 22 日
In simulink, it is easy to get the control output (or input to the actuator) by connecting a scope to the controller output. How do you get the output of the controller in MATLAB codes? I need the output to apply to another system as well as the plant infront of the controller.
Thanks.

採用された回答

Sam Chak
Sam Chak 2022 年 9 月 16 日
Since a sample plant is not provided, we will use a 1st-order plant as an example:
Gp = tf(1, [1 2])
Gp = 1 ----- s + 2 Continuous-time transfer function.
step(Gp, 5)
If we want to improve the settling time at 1 second and to eliminate the steady-state error, we can try:
kp = 5;
ki = 10;
Gc = pid(kp, ki)
Gc = 1 Kp + Ki * --- s with Kp = 5, Ki = 10 Continuous-time PI controller in parallel form.
The closed-loop system is given by
Gcl = feedback(Gc*Gp, 1)
Gcl = 5 s + 10 -------------- s^2 + 7 s + 10 Continuous-time transfer function.
step(Gcl, 5)
And the output of the PI controller, is given by
Gu = feedback(Gc, Gp)
Gu = 5 s^2 + 20 s + 20 ----------------- s^2 + 7 s + 10 Continuous-time transfer function.
step(Gu, 5)
  1 件のコメント
Sam Chak
Sam Chak 2022 年 9 月 16 日
For the controller output, or in s-domain, we know the compensator transfer function,
... or .
To find the closed-loop transfer function relating the controller output to the input
we start from , and we need to find the error :
.
From the plant transfer function , we know that
.
Substituiting it back to , we get
.
Similarly, substituiting it back to , we get
Separating at one side and on another side
.
Rearranging that yields
This implies that is on the feedback loop, and thus, it can be obtained with the following syntax:
Gu = feedback(Gc, Gp)

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その他の回答 (2 件)

Paul
Paul 2022 年 9 月 17 日
I suggest using interconnection functions to build a single system model that has the control input to the plant as one of the outputs from the overall system model
One approach, for example:
Define the plant
sysp = tf(1,[1 0],'InputName','u','OutputName','y');
Define the controller
sysc = tf(1,1,'InputName','e','OutputName','u');
Unitfy feedback to form the closed loop system. Specify the outputs from the closed loop system as the output and input to the plant
sysclosed = connect(sysc,sysp,sumblk('e = r - y'),'r',{'y' 'u'});
Now we can plot the step (or any other response)
step(sysclosed)
Also, sysclosed can then be connected to other systems to build a large model if desired.

ojonugwa adukwu
ojonugwa adukwu 2022 年 9 月 16 日
Oh really? Many thanks.
But why is it the transfer function (tf) of Gu and not GC? Because for simulink, it is the transfer function of the controller.
Many thanks
  1 件のコメント
Sam Chak
Sam Chak 2022 年 9 月 16 日
You are welcome, @ojonugwa adukwu. If you find the solution in MATLAB code is helpful, please consider accepting ✔ and voting 👍 the Answer. Thanks!
I have added an explanation in the comment under my Answer. It's almost the same argument of why use to get the system output , but not the plant itself.

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