?? chap1_20.m
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%PID Controler with Partial differential
clear all;
close all;
ts=20;
sys=tf([1],[60,1],'inputdelay',80);
dsys=c2d(sys,ts,'zoh');
[num,den]=tfdata(dsys,'v');
u_1=0;u_2=0;u_3=0;u_4=0;u_5=0;
ud_1=0;
y_1=0;y_2=0;y_3=0;
error_1=0;
ei=0;
for k=1:1:100
time(k)=k*ts;
rin(k)=1.0;
%Linear model
yout(k)=-den(2)*y_1+num(2)*u_5;
D(k)=0.01*rands(1);
yout(k)=yout(k)+D(k);
error(k)=rin(k)-yout(k);
%PID Controller with partly differential
ei=ei+error(k)*ts;
kc=0.30;
ki=0.0055;
TD=140;
kd=kc*TD/ts;
Tf=180;
Q=tf([1],[Tf,1]); %Low Freq Signal Filter
M=2;
if M==1 %Using PID with Partial differential
alfa=Tf/(ts+Tf);
ud(k)=kd*(1-alfa)*(error(k)-error_1)+alfa*ud_1;
u(k)=kc*error(k)+ud(k)+ki*ei;
ud_1=ud(k);
elseif M==2 %Using Simple PID
u(k)=kc*error(k)+kd*(error(k)-error_1)+ki*ei;
end
%Restricting the output of controller
if u(k)>=10
u(k)=10;
end
if u(k)<=-10
u(k)=-10;
end
u_5=u_4;u_4=u_3;u_3=u_2;u_2=u_1;u_1=u(k);
y_3=y_2;y_2=y_1;y_1=yout(k);
error_1=error(k);
end
figure(1);
plot(time,rin,'b',time,yout,'r');
xlabel('time(s)');ylabel('rin,yout');
figure(2);
plot(time,u,'r');
xlabel('time(s)');ylabel('u');
figure(3);
plot(time,rin-yout,'r');
xlabel('time(s)');ylabel('error');
figure(4);
bode(Q,'r');
dcgain(Q);?? 快捷鍵說明
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