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1) In the system shown, the load is 80 KVA with a p.f. 0.85 lagging at 480 V voltage. Line impedance is 0.35+10.55 Q. Transformer turns ratio is 12:1. Find the phasor voltage of the generator, the real and reactive powers delivered by the generator. Consider the ideal transformer. VG Z₁ Charge

1) In the system shown, the load is 80 KVA with a p.f. 0.85 lagging at 480 V voltage. Line impedance is 0.35+10.55 Q. Transformer turns ratio is 12:1. Find the phasor voltage of the generator, the real and reactive powers delivered by the generator. Consider the ideal transformer. VG Z₁ Charge

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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1) In the system shown, the load is 80 KVA with a p.f. 0.85 lagging at 480 V voltage. Line impedance is 0.35+ 10.55 Q. Transformer turns ratio is 12:1. Find the phasor voltage of the generator, the real and reactive powers delivered by the generator. Consider the ideal transformer. VG relller ooooo Z₁ Charge
Transcribed Image Text:1) In the system shown, the load is 80 KVA with a p.f. 0.85 lagging at 480 V voltage. Line impedance is 0.35+ 10.55 Q. Transformer turns ratio is 12:1. Find the phasor voltage of the generator, the real and reactive powers delivered by the generator. Consider the ideal transformer. VG relller ooooo Z₁ Charge
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We need to determine the real and reactive power delivered by the voltage source. 

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Complex power S= VI = P+jQ 

 

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