A loss less transmission line of length 3.125m with characteristic impedance 502, is operating on 100MHZ and terminated with a complex load 50+j1002. Use Smith Chart to calculate: 1. The complex value of the reflection coefficient at the load. 2. The voltage standing wave ratio (S). 3. Transmission line length in terms of

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A loss less transmission line of length 3.125m with characteristic
impedance 502, is operating on 100MHZ and terminated with a complex
load 50+j100n. Use Smith Chart to calculate:
1. The complex value of the reflection coefficient at the load.
2. The voltage standing wave ratio (S).
3. Transmission line length in terms of
4. The input impedance of the T.L.
5. If a quarter wavelength transformer having Za < Zais used to match
the load to the T.L, at what distance (d) from the load should you
put the transformer?
6. What is the value of Z,?
Transcribed Image Text:A loss less transmission line of length 3.125m with characteristic impedance 502, is operating on 100MHZ and terminated with a complex load 50+j100n. Use Smith Chart to calculate: 1. The complex value of the reflection coefficient at the load. 2. The voltage standing wave ratio (S). 3. Transmission line length in terms of 4. The input impedance of the T.L. 5. If a quarter wavelength transformer having Za < Zais used to match the load to the T.L, at what distance (d) from the load should you put the transformer? 6. What is the value of Z,?
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