Code only - step disturbance at 40 seconds
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Hi All,
Can anyone help me with pure code for a step disturbace at 40 seconds? I dont want to use symulink for this project and i am interested in the fundamentals.
I need to test the tuning by applying a step disturbance at 40 seconds to see how the controller responds in each case.
Help very much appreiciated!!
Question:
what is the code to implement a step disturbance in the system at 40 seconds that would test the disturbance rejection of the controller and allow the system to return to 1?
Disturbance is defined as G_Disturbance in the below code.
matlab version R2018b
load time.dat
load response.dat
plot (time,response,'g');
title ('Actual response')
xlabel ('Time')
ylabel ('Amplitude')
hold on
s=tf('s')
K = 2;
tau = 3;
sysmod = exp(-s)*(K/(tau*s+1))
plot (time,response,'g');
hold on
step (sysmod,'k')
title ('System Model Step Response')
hold off
Applying the Hagglund-Astrom Tuning
theta = 0.1; % Defines the dead time in the process
kp = (0.14/K)+((0.28*tau)/(theta*K)) % Defines the Proportional element CORRECT
ki = ((0.33*theta) + ((6.8*theta*tau)/(10*theta+tau))) % Defines the Integral element CORRECT
G_disturbance = (exp(-40*s)*(1)) % Function for the disturbance
%haggast1 = feedback ((kp + (ki/s)) * sysmod,1); % Applying the Hagglund-Astrom tuning
haggast1 = feedback ((K*(1+(ki/kp)/s)) * sysmod,1);
step (haggast1,'g')
hold on
step (sysmod,'k')
title ('Haggland-Astrom Tuning')
%step (G_disturbance + haggast1,'r',60) % Applying Disturbance
legend ('haggast1','sysmod','disturbance')
hold off
Applying the Cohen and coon PI Tuning
theta1 = 0.1;
kp1 = (1/K)*(tau/theta1)*(0.9+(theta1/(12*tau))) % Defines the Proportional element CORRECT
ki1 = (theta1*(30+(3*(theta1/tau))) / (9+(20*(theta1/tau)))) % Defines the Integral element CORRECT
%CC = feedback ((kp1 + ki1/s) * sysmod,1); % Applying the Cohen Coon tuning
CC = feedback ((K*(1+(ki1/kp1)/s)) * sysmod,1);
step (CC,'g',100)
hold on
step (sysmod,'k')
title ('Cohen Coon Tuning')
legend ('CC','sysmod')
hold off
Ziegler-Nichols Reaction curve PID settings
RN = 13;
L = 0.1;
Kp_P = 1/(RN*L);
Kp_PI = 0.9/(RN*L);
Kp_PID = 1.2/(RN*L);
Ki_PI = 3*L;
Ki_PID = 2*L;
Kd_PID = 0.5*L;
ZN_P = feedback ((Kp_P)*sysmod,1);
ZN_PI = feedback ((Kp_PI + Ki_PI/s) * sysmod,1);
ZN_PID = feedback ((Kp_PID + Ki_PID/s + s*Kd_PID) * sysmod,1);
step (ZN_PID,'b')
hold on
step (ZN_PI,'y')
step (ZN_P,'g')
title ('Ziegler Nichols')
legend ('PID','PI','P')
hold off
2 Commenti
Image Analyst
il 24 Ago 2020
Probably but you forgot to ask a specific question and forgot to attach your data files.
Risposte (0)
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