Electro Magnetic waves : Derive the input impedance of the transmission line of Z0, length ‘L’...

1. A lossless transmission line of length l = 0.3λ is terminated with complex load impedance...

1. A lossless transmission line of length l = 0.3λ is terminated with complex load impedance ZL = 30+ j20 Ω and characteristic impedance Z0 = 75 Ω. Calculate: a. The input impedance to the line Zin in Ω; b. The input admittance to the line Yin in S; c. The distance to first minimum from the load; d. Use Smith Chart to all above parameters

Assume a transmission line with ZL = 100 + j25 Ω Ω and Z0 = 50...

Assume a transmission line with ZL = 100 + j25 Ω Ω and Z0 = 50 Ω. Using the smith chart, find i) the normalised load impedance; ii) the corresponding reflection coefficient; iii) the standing wave ratio; iv) the distance between the load and the first voltage maximum; v) the distance between the load and the first voltage minimum; vi) the normalised admittance; vii) the input impedance at 0.2λ from the load. (Show all steps on the Smith chart).

3). Consider a transmission line of length l made of conductor with resistance per unit length...

3). Consider a transmission line of length l made of conductor with resistance per unit length R, inductance per unit length L, between the two lines is dielectric material with conductance per unit length Gand capacitance per unit length C. (a) Check that the general solution of the transmission line equations is correct by substituting it back to the equations. (b) Given that the load has impedance ZL, and the generator has impedance Zg and voltage Vg(t), solve the voltage...

A lossy transmission line of length 2.1 m has a characteristic impedance of 80 Ω. When...

A lossy transmission line of length 2.1 m has a characteristic impedance of 80 Ω. When the line is short-circuited, the input impedance is − j12 Ω. (a) Is the line lossless? b) Find the propagation constant, β. c) Find the input impedance when the short circuit is replaced by an open circuit.

The coaxial cable used in a transmission line has an impedance of 50 ohm and the...

The coaxial cable used in a transmission line has an impedance of 50 ohm and the input signal frequency used is 39 MHz. The inductance of the cable is 0.15 uH/m and the VF is 0.67. Determine a) the length required to be considered a transmission line b) the dielectric constant c) the actual length for a half of wavelength d) time delay for 0.21 km coaxial cable, and e) the phase induced by the transmission line.

4. A short three phase transmission line with length of 10km and the line impedance is...

4. A short three phase transmission line with length of 10km and the line impedance is given as 0.25 +j0.433 ohms per km per conductor. This line supplies a 237.6 KVAR of power at a 0.8 power factor leading. Compute for the regulation of this line. Also draw and label the corresponding phasor diagram. (20 pts)

A terminated transmission line with Zo = 50 Ohms has a reflection coefficient at the load...

A terminated transmission line with Zo = 50 Ohms has a reflection coefficient at the load of 0.6 at an angle of 80 degrees. The load impedance is 27.77 + j51.3 and the reflection coefficient 0.3 * lamda away from the load is -0.432 - j0.418. What is the input impedance at this point?

3) A transmission line is terminated in a normalized load impedance of ZLN = 2.0 –...

3) A transmission line is terminated in a normalized load impedance of ZLN = 2.0 – j (1.5). a) Indicate this position on the Smith chart with an “A”. Find the normalized load admittance and mark it with a “B”.   What is the normalized load admittance? b) Use the Smith chart to find the reflection coefficient at the load (both magnitude and phase). What percent of the incident power is reflected back from the load?    Please Include Smith Chart with...

The velocity of propagation on a certain lossless transmission line is v=250m/µs. if C=30pF/m, find (a)...

The velocity of propagation on a certain lossless transmission line is v=250m/µs. if C=30pF/m, find (a) L; (b) Z0; (c) β at 100Mhz. (d) The line terminated by 50 Ω resistor. Find Γ.

A lossless transmission line has a generator voltage peak amplitude of 100 V. The internal resistance...

A lossless transmission line has a generator voltage peak amplitude of 100 V. The internal resistance of the generator is 10 Ohms. This transmission line is ended by a load of 20 Ohms.The characteristic impedance of the transmission line is 50 Ohms. Let the length of this tranmsion line be one third of the wavelength. Calculate the input impedance.