A 350 km transmission line has the following parameters: z = 0.0195 +j0.35 Ω/km y = j4.5 μS/km If the load served by the line is 300 MVA, with an fp of 0.8(-), at a voltage of 100√3KV say: 6. The value of the incident and reflected wave, as well as the total voltage, at a point 200 km from the end of the load. 7. The voltage and current at the emitting end. 8. What would be the percentage error in the magnitude of the voltage VS if it is calculated with the lossless line model? lossless line model? Note that the accurate value is the one that takes losses into account.
A 350 km transmission line has the following parameters: z = 0.0195 +j0.35 Ω/km y = j4.5 μS/km If the load served by the line is 300 MVA, with an fp of 0.8(-), at a voltage of 100√3KV say: 6. The value of the incident and reflected wave, as well as the total voltage, at a point 200 km from the end of the load. 7. The voltage and current at the emitting end. 8. What would be the percentage error in the magnitude of the voltage VS if it is calculated with the lossless line model? lossless line model? Note that the accurate value is the one that takes losses into account.
Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
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A 350 km transmission line has the following parameters:
z = 0.0195 +j0.35 Ω/km
y = j4.5 μS/km
If the load served by the line is 300 MVA, with an fp of 0.8(-), at a voltage
of 100√3KV say:
6. The value of the incident and reflected wave, as well as the total voltage, at a point 200 km from the end of the
load.
7. The voltage and current at the emitting end.
8. What would be the percentage error in the magnitude of the voltage VS if it is calculated with the lossless line model?
lossless line model? Note that the accurate value is the one that takes losses into account.
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