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+//Chapter 6:Induction Motor Drives
+//Example 4
+clc;
+
+//Variable Initialization
+
+//Ratings of the motor are same as that in Ex-6.3
+f=50 // frequency in HZ
+Vl=400 //line voltage in V
+P=6 // number of poles
+
+//Parameters referred to the stator
+Xr_=2 // rotor winding reactance in ohm
+Xs=Xr_ // stator winding reactance in ohm
+Rr_=1 // resistance of the rotor windings in ohm
+Rs=Rr_ // resistance of the stator windings in ohm
+N=950 //full load speed in rpm
+SR=2.3 //stator to rotor turns ratio
+
+//Solution
+Ns=120*f/P //synchronous speed in rpm
+Wms=2*%pi*Ns/60
+s=(Ns-N)/Ns //full load slip
+x=sqrt((Rs+Rr_/s)**2+(Xs+Xr_)**2)
+Irf_=(Vl/sqrt(3))/x //full load current
+Tf=(1/Wms)*3*Irf_**2*Rr_/s //full load torque
+
+//(i)initial braking current and torque
+S=2-s //during plugging at 950rpm
+y=sqrt((Rs+Rr_/S)**2+(Xs+Xr_)**2)
+Ir_=(Vl/sqrt(3))/y //initial braking current
+ratio1=Ir_/Irf_
+T=(1/Wms)*3*Ir_**2*Rr_/S //initial braking torque
+ratio2=T/Tf
+
+//(ii)when an external resistance is connected such
+//that maximum braking current is 1.5 times the full load current
+Ir_=1.5*Irf_
+x=(Vl/sqrt(3))/Ir_ //x=sqrt((Rs+(Rr_+Re_)/S)**2+(Xs+Xr_)**2)
+y=x**2 //y=(Rs+(Rr_+Re_)/S)**2+(Xs+Xr_)**2
+z=y-(Xs+Xr_)**2 //z=(Rs+(Rr_+Re_)/S)**2
+a=sqrt(z) //a=(Rs+(Rr_+Re_)/S)
+b=(a-Rs)*S //b=(Rr_+Re_)
+Re_=b-Rs
+Re=Re_/SR**2
+T=(1/Wms)*3*Ir_**2*(Rr_+Re_)/S //initial braking torque
+ratio=T/Tf
+
+
+//Results
+mprintf("(i)Ratio of initial braking current to full load current is:%.1f",ratio1)
+mprintf("\nRatio of initial braking torque to full load torque is:%.2f\n",ratio2)
+mprintf("\n(ii)Ratio of initial braking torque to full load torque when the resistance is added is:%.3f",ratio)