Zz 1=0 ^1 Zu 4 z = 0 ==l Figure shows a transmission line system. The effective dielectric constant of the transmission line is 4 and its length is 3 m. The source is a DC voltage source. The other parameters are as follows: with Vg = VG Volts, Zg = 20 Ohms, Zo = 40 Ohms, Z₁ = 60 Ohms. The switch is closed at t=0. a) Calculate and plot the voltage at the center of the transmission line as a function of time between 0 ns and 80 ns. b) Calculate and plot the current at the center of the transmission line as a function of time between 0 ns and 80 ns.
Zz 1=0 ^1 Zu 4 z = 0 ==l Figure shows a transmission line system. The effective dielectric constant of the transmission line is 4 and its length is 3 m. The source is a DC voltage source. The other parameters are as follows: with Vg = VG Volts, Zg = 20 Ohms, Zo = 40 Ohms, Z₁ = 60 Ohms. The switch is closed at t=0. a) Calculate and plot the voltage at the center of the transmission line as a function of time between 0 ns and 80 ns. b) Calculate and plot the current at the center of the transmission line as a function of time between 0 ns and 80 ns.
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VG=50
Transcribed Image Text:Z 1 = 0
if
Zo
4
z = 0
==l
Figure shows a transmission line system. The effective dielectric constant of the transmission
line is 4 and its length is 3 m. The source is a DC voltage source. The other parameters are as
follows: with V = VG Volts, Zg = 20 Ohms, Zo = 40 Ohms, Z₁ = 60 Ohms.
The switch is closed at t=0.
a) Calculate and plot the voltage at the center of the transmission line as a function of time
between 0 ns and 80 ns.
b)
Calculate and plot the current at the center of the transmission line as a function of time
between 0 ns and 80 ns.
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Step 1: Determine the question pl
a) Calculate and plot the voltage at the center of the transmission line as a function of time between 0ns and 80 ns
b) Calculate and plot the voltage at the center of the transmission line as a function of time between 0ns and 80 ns
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