How to extract values of Kp, Ki, Kd and D of a PID transfer functio

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Baldav Baldav
Baldav Baldav on 5 Nov 2017
Commented: N/A on 19 Jan 2023
Hi, I have a transfer function of PID controller, I need to add it to simulink to calculate the anti-windup and other parameters, but I do not find kp, ki and kd. the transfer function is show in the picture, simplifying it:
(29.24) + (15.51/s) - (840.334/(s+35)
Thanks

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Accepted Answer

Birdman
Birdman on 6 Nov 2017
s=tf('s');
PID=(29.24)+(15.51/s)-(840.334/(s+35))
syms Kp Kd Ki N
NPID_num=[Kp+N*Kd Kp*N+Ki N*Ki];
NPID_den=[1 N 0];
eqn1=PID.Numerator{1}(1)==NPID_num(1);
eqn2=PID.Numerator{1}(2)==NPID_num(2);
eqn3=PID.Numerator{1}(3)==NPID_num(3);
eqn4=PID.Denominator{1}(2)==NPID_den(2);
solx=vpasolve([eqn1 eqn2 eqn3 eqn4]);
Kp=subs(Kp,solx.Kp)
Kd=subs(Kd,solx.Kd)
Ki=subs(Ki,solx.Ki)
N=subs(N,solx.N)
What I did is a simple equation solving. I defined the unknown parameters as symbolic and then obtain the numerical values with the vpasolve function. Note that at the end, the symbolic controller parameters are replaced with their numerical values. After that, in the PID Controller block in Simulink, write Kp, Ki, Kd and N to the parameters repsectively. Hope this helps.

More Answers (1)

Issah Olamilekan Nasirullahi
Design and discuss P, PD, PI and PID controllers to improve the closed-loop system response. If it is possible, design the P, PD, PI and PID controller to achieve fast rise time, minimal overshoot, and zero steady-state error. Plot and compare the step responses in Matlab. 0.5/S^2 + 0.5S +2.

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