3. For the system shown below, determine the following (a) the reflection coefficient at the load end (b) the reflection coefficient at the source end (c) the VSWR (d) the phasor voltage at the load...
3. For the system shown below, determine the following (a) the reflection coefficient at the load end (b) the reflection coefficient at the source end (c) the VSWR (d) the phasor voltage at the load end of the line (e) the phasor voltage at the center of the line 7-7=15Ω 0 3. For the system shown below, determine the following (a) the reflection coefficient at the load end (b) the reflection coefficient at the source end (c) the VSWR (d)...
3. A system of two transmission lines connected in series are driven by a voltage source fi(t) Vou(t) and terminated by a resistive load of 60S2 as shown in the figure below. A switch is closed at t 0 and the positive voltages are measured for 5 μs giving the bounce diagram shown in the figure-the voltage values indicated in the diagram correspond to delta function weights times the source voltage products such as VOTg, VOTg(1 +「2), etc. 400 m...
#3. For the 3-phase power system shown in Fig. 3, the load is 30 kVA at a p.f. of 0.94 lagging. If the phasor load voltage, V. = 480/0 Compute: (i)The phasor line current, I. Ia Fig. 3 (ii) The phasor voltage Vec of the source. A . Contjo. 6). Ba [Zunet (0.1+30.6). 30 kVA hase/p. f. 0.94 las I ho o.1tjo. 652 ů 2
please answer all questions and show all steps 5) The voltage source V, below has a frequency of 60Hz. The load is operating at 10kVA with 0.8pf leading. The angle of the voltage across the load is 0 degrees. Assume all values are RMS. Is 0.12 500uH - 120V V eterm: Please determine the following a) The phasor Is b) The power loss in the transmission line. c) The phasor Vs d) The component (inductor or capacitor) that must be...
(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
(30) In the circuit with a voltage source and two loads below, find the following: 2. The complex power of each load a. b. The total complex power for the two loads - note units of power in the figure c. Sketch the triangle for the total complex power e total current from the source as a phasor assuming the line voltage at the load is 20820 VRMS The value of the parallel capacitance in parallel with the two loads...
Problem: (1) For the single phase AC circuit shown below, calculate voltage phasor across the load showing amplitude and phase angle for a (reference) source voltage of 220 V and 0 degree. Also, attach your MultiSIM simulation showing the voltage amplitude across the load. Compare simulated and calculated values. Load Bus of an Industrial Facility (equivalent of Electrical Motors and power factor correction Cap in parallel). R1 L1 Vload-? 1 3.0ohm 2 10mH 3 4.7mH 4 20ohm R2 +220V, 60...
1. (50 Points) angle phase voltage source supplies an RL load connected in parallel configuration throu given below: Load: R 500 and X j50 Ω. The voltage across the load is 20 kV. wire impedance : 2.5 +j20 Ω. Answer the following questions: (a) Represent the circuit in phasor domain. (b) Calculate the phasor current through the wire. (c) Calculate the voltage across the source. (d) Calculate the phasor current through the load resistance. (e) Calculate the complex power supplied...
In the system shown below, thr line has a one-way transit delay of T seconds. The line is completely discharged for t ≤ 0. For the following source and component values, construct a reflection diagram for the system and plot the input voltage Vin and the load voltage VL for the time interval 0 < t < 6T. 3.6 In the system shown below, the line has a one-way transit delay of T seconds. The line is completely discharged for...
A 60-Hz single-phase AC power network is shown in the figure below with four different loads. The source voltage ES-320 0. Prior to adding the capacitor load for power factor correction, the source current IS-135 30 . Determine the capacitance (in μF) of the capacitive load that will make the power factor unity (pf 1.0) of the system. Enter the one best answer (as a number without the units) from the following choices: Sync 74 % 6 15 kVA 10...