Answer:
Delta star transformer
Secondary side
[tex]V_L[/tex] = 415 V
[tex]V_P[/tex] = 239.6 V
[tex]I_P[/tex] = Line current, [tex]I_L[/tex] = 800 A
Primary side
[tex]V_L[/tex] = Phase voltage, [tex]V_P[/tex] = 3300 V
Primary phase current = 58.08 A
[tex]I_L[/tex] = 100.6 A
Turns ratio = 83/(660·√3)
Star-star transformer
Secondary side
[tex]V_L[/tex] = 3300 V
[tex]V_P[/tex] = 1905.26 V
[tex]I_P[/tex] = Line current, [tex]I_L[/tex] = 100.6 A
Primary side
[tex]V_L[/tex] = 11000 V
[tex]V_P[/tex] = 6350.9 V
Line current, [tex]I_L[/tex] = Phase current, [tex]I_P[/tex] = 3.018 A
Turns ratio = 3/100.
Explanation:
Delta star transformer
For the star Connection to the 3-Phase load,
Secondary line voltage, [tex]V_L[/tex] = 415 V
Secondary phase voltage, [tex]V_P[/tex] = [tex]V_L[/tex] ÷ √3 = 415 ÷ √3 = 239.6 V
Secondary phase current, [tex]I_P[/tex] = Line current, [tex]I_L[/tex] = 800 A
For the primary side of the delta star transformer
Line voltage, [tex]V_L[/tex] = Phase voltage, [tex]V_P[/tex] = 3300 V
K = 415/(3300×√3) = 83/(660·√3)
Primary phase current = 83/(660·√3)× 800 A = 58.08 A
Line current, [tex]I_L[/tex] = Phase current, [tex]I_P[/tex] × √3 = 100.6 A
The turns ratio = 83/(660·√3)
For the star-star transformer, we have;
Secondary line voltage, [tex]V_L[/tex] = 3300 V
Secondary phase voltage, [tex]V_P[/tex] = [tex]V_L[/tex] ÷ √3 = 3300 ÷ √3 = 1905.26 V
Secondary phase current, [tex]I_P[/tex] = Line current, [tex]I_L[/tex] = 100.6 A
For the primary side of the star-star transformer
Line voltage, [tex]V_L[/tex] = 11000 V
Phase voltage, [tex]V_P[/tex] = 11000 V ÷ √3 = 6350.9 V
K = 3300/11000 = 3/100
Primary phase current = 3/100× 100.6 = 3.018 A
Line current, [tex]I_L[/tex] = Phase current, [tex]I_P[/tex] = 3.018 A
The turns ratio = k = 3/100.
