1 files changed, 31 insertions, 0 deletions

diff --git a/3760/CH6/EX6.41/Ex6_41.sce b/3760/CH6/EX6.41/Ex6_41.sce
new file mode 100644
index 000000000..1dcdd6c94
--- /dev/null
+++ b/3760/CH6/EX6.41/Ex6_41.sce
@@ -0,0 +1,31 @@
+clc;

+P=10000; // rated power of squirrel cage induction motor

+V=400; // rated voltage of motor

+m=3; // number of phases

+// no load test results

+Vo=400; // applied voltage

+io=8; // no load current

+Po=250; // no load power

+// blocked rotor test

+vb=90; // applied voltage

+ib=35; // current

+pb=1350; // input power

+// ac resistance is 1.2 times dc resistance

+rs=0.6; // per phase dc resistance of stator winding 

+pr=Po-m*(io/sqrt(3))^2*(1.2*rs); // no load rotational losses

+znl=Vo/(io/sqrt(3)); // no load impedance

+rnl=Po/(m*(io/sqrt(3))^2); // no load resistance

+xnl=sqrt(znl^2-rnl^2); // no load reactance

+zbr=vb/(ib/sqrt(3)); // block rotor test impedance

+Rbr=pb/(m*(ib/sqrt(3))^2); // block rotor resistance 

+xbr=sqrt(zbr^2-Rbr^2); // block rotor reactance

+x1=xbr/2;

+xm=xnl-x1;

+X2=xm+x1; 

+r2=(Rbr-1.2*rs)*(X2/xm)^2;

+printf('Rotational losses are %f watts\n',pr);

+printf('Stator resistance is %f ohms\n',1.2*rs);

+printf('Rotor resistance is %f ohms\n',r2);

+printf('Magnetising reactance is %f ohms\n',xm);

+printf('Stator reactance is %f ohms\n',x1);

+printf('Rotor reactance is %f ohms',x1);