In a laboratory, we found that the static wavelength ratio was 2.0 as a result of an experiment performed on a lossless transmission line 50(2) ending in an unknown load impedance. Consecutive voltage minimums are 25 cm apart and the first minimum occurs at 5 cm load. A) Load impedance B) Find the load reflectance.
In a laboratory, we found that the static wavelength ratio was 2.0 as a result of an experiment performed on a lossless transmission line 50(2) ending in an unknown load impedance. Consecutive voltage minimums are 25 cm apart and the first minimum occurs at 5 cm load. A) Load impedance B) Find the load reflectance.
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Author:Robert L. Boylestad
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Transcribed Image Text:In a laboratory, we found that the static wavelength ratio was 2.0 as a
result of an experiment performed on a lossless transmission line 50(2)
ending in an unknown load impedance. Consecutive voltage minimums
are 25 cm apart and the first minimum occurs at 5 cm load.
A) Load impedance
B) Find the load reflectance.
C) If the load was replaced by a short circuit, where would the first
minimum voltage occur?
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