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Diffstat (limited to '2642/CH11/EX11.3')
| -rwxr-xr-x | 2642/CH11/EX11.3/Ex11_3.sce | 29 |
1 files changed, 29 insertions, 0 deletions
diff --git a/2642/CH11/EX11.3/Ex11_3.sce b/2642/CH11/EX11.3/Ex11_3.sce new file mode 100755 index 000000000..efe82fbac --- /dev/null +++ b/2642/CH11/EX11.3/Ex11_3.sce @@ -0,0 +1,29 @@ +// FUNDAMENTALS OF ELECTICAL MACHINES
+// M.A.SALAM
+// NAROSA PUBLISHING HOUSE
+// SECOND EDITION
+
+// Chapter 11 : SINGLE-PHASE MOTORS
+// Example : 11.3
+
+clc;clear; // clears the console and command history
+
+// Given data
+V_t = 220 // supply voltage in V
+f = 50 // frequency in Hz
+Z_m = 3+%i*5 // main winding impedance of motor in ohm
+Z_s = 5+%i*3 // starting impedance of motor in ohm
+
+// caclulations
+alpha_s = atand(imag(Z_s),real(Z_s)) // angle in degree from Z_s
+I_s = V_t/Z_s // starting current in A
+alpha_m = atand(imag(Z_m),real(Z_m)) // angle in degree from Z_m
+I_m = V_t/(Z_m) // main winding current in A
+alpha = alpha_m-alpha_s // angle of line current
+I = sqrt((abs(I_s))^2+(abs(I_m))^2+2*abs(I_s)*abs(I_m)*cosd(alpha)) // line current in A
+
+// display the result
+disp("Example 11.3 solution");
+printf(" \n Input current \n I_s = %.2f<%.2f A \n", abs(I_s),atand(imag(I_s),real(I_s)) );
+printf(" \n Main winding current \n I_m = %.2f<%.f A \n", abs(I_m),atand(imag(I_m),real(I_m)));
+printf(" \n Line current \n I = %.2f A \n", I );
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