1 files changed, 47 insertions, 0 deletions

diff --git a/1092/CH2/EX2.7/Example2_7.sce b/1092/CH2/EX2.7/Example2_7.sce
new file mode 100755
index 000000000..937306a41
--- /dev/null
+++ b/1092/CH2/EX2.7/Example2_7.sce
@@ -0,0 +1,47 @@
+// Electric Machinery and Transformers

+// Irving L kosow 

+// Prentice Hall of India

+// 2nd editiom

+

+// Chapter 2: Dynamo Construction and Windings

+// Example 2-7

+

+clear; clc; close; // Clear the work space and console.

+

+// Given data

+slots = 72; // No. of slots

+P = 6; // No. of poles

+phase =3; // three phase stator armature

+N_c = 20; // Number of turns per coil

+pitch = 5 / 6;

+phi = 4.8e+6; // flux per pole in lines

+S = 1200; // Rotor speed

+

+// Calculations

+f = ( P * S )/ 120; // Frequency of rotor

+

+E_g_percoil = 4.44 * phi * N_c * f *10 ^ -8; // Generated effective voltage

+// per coil of a full pitch coil

+

+N_p = ( slots / phase ) * N_c; // Total number of turns per phase

+

+n = slots / ( phase * P ); // No. os slots per pole per phase

+

+alpha = ( P * 180 ) / slots; // No. of electrical degrees between adjacent slots

+

+k_d = sind( n * alpha / 2 ) / ( n * sind( alpha / 2 ) ); // Distribution factor

+

+span = pitch * 180; // Span of the coil in electrical degrees

+

+k_p = sind( span / 2 ); // Pitch factor

+

+E_gp = 4.44 * phi * N_p * f * k_p * k_d * 10 ^ -8; // Total generated voltage

+// per phase considering kp and kd

+

+// Display the result

+disp("Example 2-7 Solution : ")

+printf("\n a: Eg/coil = %.2f V/coil", E_g_percoil );

+printf("\n b: Np = %d turns/phase ", N_p );

+printf("\n c: kd = %.3f ", k_d );

+printf("\n d: kp = %.3f ", k_p );

+printf("\n e: Egp = %.2f V/phase ", E_gp );