Q3) Define the return loss of a microwave circuit in terms of the reflection coefficient and the voltage standing wave ratio VSWR. If the return loss for a load is 18 dB, calculate: A. The reflection coefficient I B. The voltage standing wave ratio VSWR. C. The load impedance Z₁, if the line impedance Z₁-100 2.

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Characteristic impedance (Ohms)
200
180
160
140
120
100
80
60
40
20
0
6
8
10
Wide strip approximation (W/h > 1.0)
E₁ = 1
2
3
15
20
0.1 .2 .3
1.0
W/h
2
Characteristic impedance vs.
Wh for parametric values of Er
5
10.0 20 50 100.0
Transcribed Image Text:Characteristic impedance (Ohms) 200 180 160 140 120 100 80 60 40 20 0 6 8 10 Wide strip approximation (W/h > 1.0) E₁ = 1 2 3 15 20 0.1 .2 .3 1.0 W/h 2 Characteristic impedance vs. Wh for parametric values of Er 5 10.0 20 50 100.0
Q3) Define the return loss of a microwave circuit in terms of the reflection
coefficient and the voltage standing wave ratio VSWR.
If the return loss for a load is 18 dB, calculate:
A. The reflection coefficient I
B. The voltage standing wave ratio VSWR.
C. The load impedance Z₁, if the line impedance Z=100 2.
Transcribed Image Text:Q3) Define the return loss of a microwave circuit in terms of the reflection coefficient and the voltage standing wave ratio VSWR. If the return loss for a load is 18 dB, calculate: A. The reflection coefficient I B. The voltage standing wave ratio VSWR. C. The load impedance Z₁, if the line impedance Z=100 2.
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