For a one port network, explain the effect on the admittance frequency characteristics when it has a series (i) inductor path (i) capacitor path (Hint poles and zeros) el
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![For a one port network, explain the effect on the admittance frequency characteristics
when it has a series (i) inductor path (i) capacitor path (Hint: poles and zeros)
al
+]
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- The parameters of a certain transmission line operating at ω = 6×108 rad/s are L = 0.35μH/m, C = 40 pF/m, G = 75 μS/m, and R = 17 Ω/m. Find α, β, λ, and Z0.Explain Transmitted power (dBm) and Optical link length (km) in Optical Communication Link analysis.The primary constants of a uniform line 67.19 meters long, have the following values at 171.31 MHz: R = 5215.2491 mΩ / m, L = 1017.7428 nH / m, C = 69.8857 pF / m and G = 43.2532 µS / m. Decide: a) How much the characteristic impedance and the attenuation coefficient are worth per unit length (in mdB / m) of the same, at said frequency.
- Use DFT method to compute the circular convolution of x(n)={4,4} and h(n)={2, 6}.True or False 1) Connecting a capacitor bank in parallel to an inductive load leads to a reduction in the total current consumed. 2) Voltage levels of 33kV, 11kV and 0.4kV are in operation within Iraqi transmission system. 3) The two-port ABCD parameters for a short transmission line are (A= D= 1 per unit, B=Z Ω and C=0). 4) The efficiency of a transmission line is defined as the ratio of received to sent apparat powers. 5) In a series dc motor, the armature current, the field current, and the line current are all the same. 6) The PID attempts to maximize the error by adjusting the process through use of a manipulated variable. 7) In the shunt connected DC motor, the equation that calculate electromagnetic torque is ??= ??????aA 500 kV, 60 Hz, 360 km long transmission line has following parameters: X = j0.375 Ω/km; Y = j5.65x10-6 S/km. i. Calculate the characteristic impedance and the propagation constant of the line. ii. Determine A, B, C, D parameters of the line.
- Calculate the charecterictics impedance, propagation constant and velocity of propagation at 600 KHz for a transmission line having L=0.5Mh/km and C=.08microfarad/km,and and negligible R and G.A three phase, 60 Hz transposed transmission line is arranged horizontally with distances D12 = 5 ft; D23 = 5 ft; D13 = 10 ft. The outside diameter of the conductors is 0.721 inch and with GMR of 0.0243 ft. Determine the capacitance per phase of the line in microfarad per km.20. Calculate A,B,C,D constants of a 3phase, 50Hz transmission line 160km long having the following distributed parameters R=0.15Ω/km; L= 1.20 x10-3 H/km; C=8x10-9 F/km; G=0
- A (medium) single phase transmission line 100 km long has the following constants : Resistance/km = 0-25 N; Reactance/km = 0-8 2 Susceptance/km = 14 x 10-6 siemens ; Receiving end line voltage = 66,000 V Assuming that the total capacitance of the line is localised at the receiving end alone, determine the sending end current Select one: a. 240 A b. None of The above c. 320 A d. 50 AThe shunt admittance and series impedance of a long transmission line are given with respect to length as follows: y =j3.5x10-6S/km z = (0.1 + j0.5)ohms/km The length of the transmission line is 400km. It wheels 150MW at 220kV and 0.85 pf lagging. Calculate the following: a) the A and B constants of the transmission line. b)the Cand D constants of the transmission line. c) the sending end voltage. d)the sending end current.An optical fiber link with a distance of 30km long has a loss of 0.3dB/km. a) Calculate the minimum optical power level that must be launched into the fiber to maintain an optical power level of 3.0W at the receiving end.b) Estimate the required input power if the fiber has a loss of 0.6dB/km.c) Differentiate, with the aid of diagrams, the types of these dispersions and its effect on the transmission distance. (i) Modal Dispersion(ii) Chromatic Dispersion(iii) Polarization Mode Dispersion