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diff --git a/3888/CH16/EX16.1/Ex16_1.JPG b/3888/CH16/EX16.1/Ex16_1.JPG
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diff --git a/3888/CH16/EX16.1/Ex16_1.sce b/3888/CH16/EX16.1/Ex16_1.sce
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+//Electric Power Generation, Transmission and Distribution by S.N.Singh

+//Publisher:PHI Learning Private Limited

+//Year: 2012 ; Edition - 2 

+//Example 16.1

+//Scilab Version : 6.0.0    ; OS : Windows

+

+clc;

+clear;

+

+

+V=238;                                            //Transformer primary voltage in kV

+Em=110;                                           //Transformer secondary voltage in kV

+f=50;                                             //Supply frequency in Hz

+u=20;                                             //Commutation angle in degree

+alpha1=30;                                        //Delay angle 1 in degree

+alpha2=90;                                        //Delay angle 2 in degree

+alpha3=150;                                       //Delay angle 3 in degree

+Vdo=3*sqrt(3*2)*Em/(%pi*sqrt(3));                 //Direct output voltage in kV

+Vd1=Vdo/2*(cosd(alpha1)+cosd(alpha1+u));          //Direct output voltage when commutation angle 20 and delay angle is 30 degree in kV

+Vd2=Vdo/2*(cosd(alpha2)+cosd(alpha2+u));          //Direct output voltage when commutation angle 20 and delay angle is 90 degree in kV

+Vd3=Vdo/2*(cosd(alpha3)+cosd(alpha3+u));          //Direct output voltage when commutation angle 20 and delay angle is 150 degree in kV

+

+printf("\nThe direct voltage output is %.2f kV",Vdo);

+printf("\nThe direct voltage output when commutation angle 20 and delay angle is 30 degree is %.2f kV",Vd1);

+printf("\nThe direct voltage output when commutation angle 20 and delay angle is 90 degree is %.2f kV",Vd2);

+printf("\nThe direct voltage output when commutation angle 20 and delay angle is 150 degree is %.2f kV",Vd3);

diff --git a/3888/CH16/EX16.2/Ex16_2.JPG b/3888/CH16/EX16.2/Ex16_2.JPG
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diff --git a/3888/CH16/EX16.2/Ex16_2.sce b/3888/CH16/EX16.2/Ex16_2.sce
new file mode 100644
index 000000000..af204cfe4
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+//Electric Power Generation, Transmission and Distribution by S.N.Singh

+//Publisher:PHI Learning Private Limited

+//Year: 2012 ; Edition - 2 

+//Example 16.2

+//Scilab Version : 6.0.0    ; OS : Windows

+

+clc;

+clear;

+

+

+Em=400;                                  //Ac supply voltage in kV

+Vd=500;                                  //Dc supply voltage in kV

+Id=1;                                    //Dc current in A

+alpha=20;                                //Firing angle in degree

+Vdo=3*sqrt(3*2)*Em/(%pi*sqrt(3));        //Direct output voltage in kV

+Rc=-(Vd-(Vdo*cosd(alpha))/Id);           //Effective Commutation resistance in Ohm

+

+

+printf("\nThe effective commutation resistance is %.2f Ohm",Rc);

+

+

+

+

+

+

+

diff --git a/3888/CH16/EX16.3/Ex16_3.JPG b/3888/CH16/EX16.3/Ex16_3.JPG
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index 000000000..313454df4
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+++ b/3888/CH16/EX16.3/Ex16_3.JPG
diff --git a/3888/CH16/EX16.3/Ex16_3.sce b/3888/CH16/EX16.3/Ex16_3.sce
new file mode 100644
index 000000000..008d5c64c
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+//Electric Power Generation, Transmission and Distribution by S.N.Singh

+//Publisher:PHI Learning Private Limited

+//Year: 2012 ; Edition - 2 

+//Example 16.3

+//Scilab Version : 6.0.0    ; OS : Windows

+

+clc;

+clear;

+

+

+V=500;                            //Dc supply voltage in kV

+ang1=20;                          //Advance angle in degree

+ang2=10;                          //Extinction angle in degree

+Vdi=1/2*(cosd(20)+cosd(10));      //Dc voltage in kV

+Em=(V*%pi)/(Vdi*3*sqrt(3));       //Ac output voltage in kV

+

+

+printf("\nThe ac voltage output of the inverter is %.2f kV",Em);

+

+

+

+

+

+

+

+