ENG3043 Tutorial I A DC voltage source (V=10 V) is connected to a load (Z= 100 2) via a lossless transmission line (TML) as shown below. The voltage source has an internal impedance Z-50 2 and the TML has a characteristic impedance Z- 75 2. i. Calculate the phase velocity of the TML if its effective permittivity c is 2.56; ii. Calculate the source and load refection coefficients; is the time taken traveling from one end of the TML to the other and z refers to any position on the TML iv. Draw the voltage waveform at z-31/4 from the source for the time period between 0 and 37; v. If the switch was open at =1.57, draw the voltage waveform at =12 from the source for the time period between 0 and 37

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ENG3043 Tutorial I
A DC voltage source (Vs=10 V) is connected to a load (Z= 100 2) via a lossless transmission line
(TML) as shown below. The voltage source has an internal impedance Zg–50 £2 and the TML has a
characteristic impedance Z- 75 2.
i. Calculate the phase velocity of the TML if its effective permittivity c is 2.56;
ii. Calculate the source and load refection coefficients;
iii. At t-0, the switch is closed. Draw the voltage waveform V(z.1) on the TML at t=2.5T where T
is the time taken traveling from one end of the TML to the other and z refers to any position on
the TML
iv. Draw the voltage waveform at z=3/4 from the source for the time period between 0 and 37;
v. If the switch was open at =1.57, draw the voltage waveform at z=l/2 from the source for the
time period between 0 and 37
Transcribed Image Text:ENG3043 Tutorial I A DC voltage source (Vs=10 V) is connected to a load (Z= 100 2) via a lossless transmission line (TML) as shown below. The voltage source has an internal impedance Zg–50 £2 and the TML has a characteristic impedance Z- 75 2. i. Calculate the phase velocity of the TML if its effective permittivity c is 2.56; ii. Calculate the source and load refection coefficients; iii. At t-0, the switch is closed. Draw the voltage waveform V(z.1) on the TML at t=2.5T where T is the time taken traveling from one end of the TML to the other and z refers to any position on the TML iv. Draw the voltage waveform at z=3/4 from the source for the time period between 0 and 37; v. If the switch was open at =1.57, draw the voltage waveform at z=l/2 from the source for the time period between 0 and 37
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