For the transmission line circuit above calculate the (do NOT use the Smith chart)
For the transmission line circuit above calculate the (do NOT use the Smith chart)
(a) reflection coefficient at load, Γ
(b) SWR, and
(c) return loss (dB)
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For the transmission line circuit above calculate the (do NOT use the Smith chart)
2.20 Use the Smith chart to find the following quantities for the transmission line circuit shown...
2.20 Use the Smith chart to find the following quantities for the transmission line circuit shown in the accompanying figure: (a) The SWR on the line. (b) The reflection coefficient at the load. (c) The load admittance. (d) The input impedance of the line (e) The distance from the load to the first voltage minimum. (f) The distance from the load to the first voltage maximum. ZL-60+)50 Ω
(f) the distance from the load to the first voltage maximum Use the Smith chart to...
(f) the distance from the load to the first
voltage maximum
Use the Smith chart to find the following quantities for the transmission line circuit shown in the accompanying figure: (a) The SWR on the line. (b) The reflection coefficient at the load. (c) The load admittance. (d) The input impedance of the line. (e) The distance from the load to the first voltage minimum. — 1= 0.41 OY "z V os = 'z Z1 = 60 + j502
Really appreciate any help. Thank you in advance! 1. Use the Smith chart to find the...
Really appreciate any help. Thank you in advance! 1. Use the Smith chart to find the reflection coefficient corresponding to the load impedance ZL =30−j80Ω. 2. Use the Smith chart to find the impedance corresponding to a reflection coefficient of Γ = ◦ 0.5̸ −45. 3. A transmission line is terminated with a load ZL = 80 + j120 Ω. Use the Smith chart to find (a) the load reflection coefficient, (b) the standing wave ratio, (c) the input impedance...
Quiz #3 Question 1. You have printed a Smith chart on a piece of paper. The radius of the chart i...
Quiz #3 Question 1. You have printed a Smith chart on a piece of paper. The radius of the chart is 8 cm. You find an impedance 21 on the chart which is point A. If the distance from origin to point A is 4 cm, what is the SWR value for impedance zL? Question 2. Scattering matrix of a 2-port network is given as: -13 + j 2+j What is the transmission loss? Question 3. A one port network...
A transmission line with characteristic impedance of 100 ? is connected to a 200+j400 ? load....
A transmission line with characteristic impedance of 100 ? is connected to a 200+j400 ? load. Use Smith chart to calculate (i) standing wave ratio (ii) reflection coefficient (iii) lengths and locations of a short circuited shunt stub to match the load to the transmission line.
A 75 coaxial transmission line has a length of 2.0 cm and is terminated with a...
A 75 coaxial transmission line has a length of 2.0 cm and is terminated with a load impedance of 37.575 If the relative permittivity of the line is 2.56 and the frequency is 3.0 GHz, find the input impedance to the line, the reflection coefficient at the load, the reflection coefficient at the input, and the SWR on the line.
2.2 A lossless transmission line of length 0.3A is terminated with a load impedance as shown...
2.2 A lossless transmission line of length 0.3A is terminated with a load impedance as shown below. Find the reflection cocfficient at the load, the SWR on the line, the return loss, and the input impedance to the linc. に0.3A ス14-40+/20 Ω
3, A lossless transmission line of length 1 = 1.57λ and characteristic 17 +j60Ω. impedance Z,...
3, A lossless transmission line of length 1 = 1.57λ and characteristic 17 +j60Ω. impedance Z, = 50Ω is loaded with an impedance of ZL Compute the following: (a) Reflection coefficient at the load in both rectangular and polar form. (b) SWR, and RL (c) Input impedance at the generator. (d) Reflection coefficient at the input to the transmission line in both rectangular and polar form
(3) A 500 air transmission line is 260.87A long at the frequency of operation. If the...
(3) A 500 air transmission line is 260.87A long at the frequency of operation. If the voltage reflection coefficient at the input plane is lie - 0.6 30°, find using & Smith Chart the impedance Zin seen looking into the input plane of the line i) the load impedance Z terminating the line it) the voltage reflection coefficient at the load plane the # of voltage maxima and the # of voltage minima that are present between the input plane...
Question 1 2.5 pts Use the following circuit for the 3 questions below. A 50-2 lossless...
Question 1 2.5 pts Use the following circuit for the 3 questions below. A 50-2 lossless transmission line 0. 284A long is terminated in a load with Z (50+ /25) Zin Zo 50 Z Z4 (50+ j25) Use the Smith chart to find the magnitude of the reflection coefficient I' at the load. Enter only numerical value with two decimal values (x.xx) into the box below Use the Smith chart to find the phase of the reflection coefficient I at...
2.20 Use the Smith chart to find the following quantities for the transmission line circuit shown in the accompanying figure: (a) The SWR on the line. (b) The reflection coefficient at the load. (c) The load admittance. (d) The input impedance of the line (e) The distance from the load to the first voltage minimum. (f) The distance from the load to the first voltage maximum. ZL-60+)50 Ω
(f) the distance from the load to the first
voltage maximum
Use the Smith chart to find the following quantities for the transmission line circuit shown in the accompanying figure: (a) The SWR on the line. (b) The reflection coefficient at the load. (c) The load admittance. (d) The input impedance of the line. (e) The distance from the load to the first voltage minimum. — 1= 0.41 OY "z V os = 'z Z1 = 60 + j502
Quiz #3 Question 1. You have printed a Smith chart on a piece of paper. The radius of the chart is 8 cm. You find an impedance 21 on the chart which is point A. If the distance from origin to point A is 4 cm, what is the SWR value for impedance zL? Question 2. Scattering matrix of a 2-port network is given as: -13 + j 2+j What is the transmission loss? Question 3. A one port network...
A 75 coaxial transmission line has a length of 2.0 cm and is terminated with a load impedance of 37.575 If the relative permittivity of the line is 2.56 and the frequency is 3.0 GHz, find the input impedance to the line, the reflection coefficient at the load, the reflection coefficient at the input, and the SWR on the line.
2.2 A lossless transmission line of length 0.3A is terminated with a load impedance as shown below. Find the reflection cocfficient at the load, the SWR on the line, the return loss, and the input impedance to the linc. に0.3A ス14-40+/20 Ω
3, A lossless transmission line of length 1 = 1.57λ and characteristic 17 +j60Ω. impedance Z, = 50Ω is loaded with an impedance of ZL Compute the following: (a) Reflection coefficient at the load in both rectangular and polar form. (b) SWR, and RL (c) Input impedance at the generator. (d) Reflection coefficient at the input to the transmission line in both rectangular and polar form
(3) A 500 air transmission line is 260.87A long at the frequency of operation. If the voltage reflection coefficient at the input plane is lie - 0.6 30°, find using & Smith Chart the impedance Zin seen looking into the input plane of the line i) the load impedance Z terminating the line it) the voltage reflection coefficient at the load plane the # of voltage maxima and the # of voltage minima that are present between the input plane...
Question 1 2.5 pts Use the following circuit for the 3 questions below. A 50-2 lossless transmission line 0. 284A long is terminated in a load with Z (50+ /25) Zin Zo 50 Z Z4 (50+ j25) Use the Smith chart to find the magnitude of the reflection coefficient I' at the load. Enter only numerical value with two decimal values (x.xx) into the box below Use the Smith chart to find the phase of the reflection coefficient I at...
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