of 0.1+j0.2 Ω, connected through transmission lines with the impedance of 0.5+j1 Ω to a load with phase impedance of 15+j10 Ω. Assume the “a” phase of the generator is at 0°. Use single-phase analysis where appropriate. a)What are the current phasors through the transmission lines? 6.2486<-35.6764 degrees A b)What is the voltage phasor across each of the generator impedances? 1.3972<27.7585 degrees v c)What is the voltage phasor across each of the transmission line impedances? 6.9861<27.7585 degrees v d)What is the voltage phasor across each of the phases of the load? e)What is the power factor of the load?
I want help with D) AND E), I ALREADY HAVE ANSWERS FOR A, B, AND C. THANKS
Using the more complete model on slide 24 of the 3-phase systems ppt, assume we have a Y-Y system with generator phase voltages of 120Vac and generator phase impedance of 0.1+j0.2 Ω, connected through transmission lines with the impedance of 0.5+j1 Ω to a load with phase impedance of 15+j10 Ω. Assume the “a” phase of the generator is at 0°. Use single-phase analysis where appropriate.
a)What are the current phasors through the transmission lines?
6.2486<-35.6764 degrees A
b)What is the voltage phasor across each of the generator impedances?
1.3972<27.7585 degrees v
c)What is the voltage phasor across each of the transmission line impedances?
6.9861<27.7585 degrees v
d)What is the voltage phasor across each of the phases of the load?
e)What is the power factor of the load?
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