For a 208-V three-phase ideally balanced system shown below, Find: a) The magnitude of the line current I b) The magnitude of the load's line and phase voltages VLL and V c) The real, reactive, and the apparent powers consumed by the load; d) The power factor of the load. Vcn = 1202-240° Von 1202-120° V = 120/0° an 0.06 Ω ww 0.06 Ω ww 208 V 0.06 Ω www j0.12 Ω 10.12 Ω j0.12 Ω N Zo Zo 20 2+152 Z = 12 + j9 Ω VL 208 √√3 120 V
For a 208-V three-phase ideally balanced system shown below, Find: a) The magnitude of the line current I b) The magnitude of the load's line and phase voltages VLL and V c) The real, reactive, and the apparent powers consumed by the load; d) The power factor of the load. Vcn = 1202-240° Von 1202-120° V = 120/0° an 0.06 Ω ww 0.06 Ω ww 208 V 0.06 Ω www j0.12 Ω 10.12 Ω j0.12 Ω N Zo Zo 20 2+152 Z = 12 + j9 Ω VL 208 √√3 120 V
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:For a 208-V three-phase ideally balanced system shown below,
Find:
a) The magnitude of the line current I
b) The magnitude of the load's line and phase voltages VLL and V
c) The real, reactive, and the apparent powers consumed by the load;
d) The power factor of the load.
Vcn = 1202-240°
Von 1202-120°
V = 120/0°
an
0.06 Ω
ww
0.06 Ω
ww
208 V
0.06 Ω
www
j0.12 Ω
10.12 Ω
j0.12 Ω
N
Zo
Zo
20
2+152
Z = 12 + j9 Ω
VL 208
√√3
120 V
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