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diff --git a/Working_Examples/3885/CH6/EX6.4/Ex6_4.sci b/Working_Examples/3885/CH6/EX6.4/Ex6_4.sci new file mode 100755 index 0000000..c67536b --- /dev/null +++ b/Working_Examples/3885/CH6/EX6.4/Ex6_4.sci @@ -0,0 +1,39 @@ +//control systems by Nagoor Kani A
+//Edition 3
+//Year of publication 2015
+//Scilab version 6.0.0
+//operating systems windows 10
+// Example 6.4
+
+clc;
+clear;
+s=poly(0,'s')
+K=240//the value of K
+h=syslin('c',240/(s*(s+10)^2))
+evans(h)
+xtitle("uncompensated system")
+kvd=20//given desired velocity error constant
+// transfer function of un compessated system G(s)=20/s*(s+2)*(s+8)
+//by definition of velocity error constant applying limit s=0 in G(s)
+kvu=2.4
+disp(kvu,'The velocity error constant of un compensated system is')
+disp(kvd,'desired velocity error constant')
+A=kvd/kvu//A is the factor by which velocity error constant increases
+betaa=A*1.2
+disp(betaa,'the value of betaa is')
+zc=0.1*(-10)//zero of lag compensator=0.1* second pole
+t=(-1/zc)
+disp(t,'the value for t is')
+pc=(-1)/(betaa*t)//pole of lag compensator
+//transfer function of lag compensation is (s+1/t)/(s+1/betaa*t))
+hc=syslin('c',(s+1)/(s+0.1))
+disp(hc,'transfer function of lag compensation is')
+//open loop transfer function of compensated system is h*hc
+hcmp=syslin('c', h*hc)
+disp(hcmp,'open loop transfer function of compensated system is')
+figure()
+evans(hcmp)
+xtitle("compensated system")
+//by definition of velocity error constant applying limit s=0 in hcmp
+kvc=24//velocity error constant of compensated system
+disp('since the velocity error constant of compensated system is greater than specified value the design is acceptable')
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