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+

+// ELECTRICAL MACHINES

+// R.K.Srivastava

+// First Impression 2011

+// CENGAGE LEARNING INDIA PVT. LTD

+

+// CHAPTER : 3 : TRANSFORMERS 

+

+// EXAMPLE : 3.21

+

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

+

+

+// GIVEN DATA

+// Refer figures 3.31(a), 3.31(b) and 3.31(c):- Page no. 121

+

+VaH = 220;                   // HV side Voltage of the two winding Transformer in volts for case(a)

+VaL = 110;                   // LV side Voltage of the two winding Transformer in volts for case(a)

+VbH = 330;                   // HV side Voltage of the two winding Transformer in volts for case(b)

+VbL = 220;                    // LV side Voltage of the two winding Transformer in volts for case(b)

+VcH = 330;                    // HV side Voltage of the two winding Transformer in volts for case(c) 

+VcL = 110;                    // LV side Voltage of the two winding Transformer in volts for case(c)

+S = 1.5;                      // Ratings of the the two winding Transformer in kVA

+I1 = 6.8;                     // Rated current in HV side in Amphere 

+I2 = 13.6;                    // Rated current in LV side in Amphere 

+

+

+// CALCULATIONS

+// for case(a):- figure 3.31(b) page no. 121

+

+IbH = I2;                        // Current of Auto-Transformer in HV side in Amphere

+IbL = I1 + I2;                   // Current of Auto-Transformer in LV side in Amphere

+KVA_b_L = (VbL*IbL)/1000;        // LV side kVA rating of the Auto-Transformer in kVA

+KVA_b_H = (VbH*IbH)/1000;        // HV side kVA rating of the Auto-Transformer in kVA

+

+// for case(b):- figure 3.31(c) page no. 121

+

+IcH = I1;                         // Current of Auto-Transformer in HV side in Amphere

+IcL = I1 + I2;                    // Current of Auto-Transformer in LV side in Amphere

+KVA_c_L = (VcL*IcL)/1000;         // LV side kVA rating of the Auto-Transformer in kVA

+KVA_c_H = (VcH*IcH)/1000;         // HV side kVA rating of the Auto-Transformer in kVA

+

+

+// DISPLAY RESULTS

+

+disp("EXAMPLE : 3.21 : SOLUTION :-") ;

+printf("\n (a.1) Current of Auto-Transformer in HV side for case (b) , IH = %.1f A \n ",IbH);

+printf("\n       Current of Auto-Transformer in LV side for case (b), IL= % .1f A \n",IbL);

+printf("\n (a.2) LV side kVA rating of the Auto-Transformer for case (b), KVAL = % .3f kVA \n ",KVA_b_L);

+printf("\n       HV side kVA rating of the Auto-Transformer for case (b), KVAH= % .3f kVA \n",KVA_b_H);

+printf("\n (b.1) Current of Auto-Transformer in HV side for case (c) , IH = %.1f A \n ",IcH);

+printf("\n       Current of Auto-Transformer in LV side for case (c) , IL= % .1f A \n",IcL);

+printf("\n (b.2) LV side kVA rating of the Auto-Transformer for case (c), KVAL = % .3f kVA \n ",KVA_c_L);

+printf("\n       HV side kVA rating of the Auto-Transformer for case (c) , KVAH= % .3f kVA \n",KVA_c_H);