Consider the voltage acrorss a load and the impedance of the load is given by V...

We have a load with an impedance given by Z = 30 + j 70 Ω....

We have a load with an impedance given by Z = 30 + j 70 Ω. The voltage across this load is V = 15002√ ∠ 30∘ V. A. IS the load inductive or capacitive B. Determine the power factor C. Determine the power D. Determine the reactive power E. Determine the apparent power delivered to the load  V = 1500√(2) ∠ 30∘ V

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

Problem 3 The Y-Y system in Figure below has a balanced load and a line impedance...

Problem 3 The Y-Y system in Figure below has a balanced load and a line impedance Zline = 3 Ω + j 15 Ω. If the line voltage at the generator is 12 kV and the total power delivered to the load is 900 kW at 60 A, determine each of the following: a) The magnitude of each phase voltage of the generator. b) The magnitude of the line currents. c) The total power delivered by the source d) The...

(a) The voltage and current in an AC circuit are given by: vt  20cos100t 10V...

(a) The voltage and current in an AC circuit are given by: vt  20cos100t 10V it 10cos100t  20A (i) Determine the average power and power factor. (ii) Determine the apparent power and reactive power. (iii) Sketch the instantaneous power, pt , ensuring you label the units of the axes. Explain every step of your working. (b) Given: F  A.B C  Draw a logic circuit with inputs A, B and C and output F that is implemented...

An electrical load of 20kVA with a power factor of 0.82 inductive operates with a voltage...

An electrical load of 20kVA with a power factor of 0.82 inductive operates with a voltage of 440 V and a frequency of 60 Hz. The impedance between the power supply and the load is (10 + j50) mΩ. The voltage on that load is 440V, under these conditions determine (a) the voltage at the circuit's power supply; (b) what are the losses in the feeder/power supply; (c) what is the capacitance value that, when placed in parallel with the...

A balanced positive-sequence, Y-connected generator has an impedance of 0.3+j0.6 Ω/Φ, the terminal RMS voltage of...

A balanced positive-sequence, Y-connected generator has an impedance of 0.3+j0.6 Ω/Φ, the terminal RMS voltage of the source is 380V. The generator feeds a balanced, three-phase, Δ-connected load having an impedance of 27 + j42 Ω/Φ. The impedance of the line connecting the generator to the load is 0.6+j1.2 Ω/Φ. 1. Calculate the three line currents. 2. Calculate the line voltages at the terminals of the load. 3. Calculate the phase load currents. 4. Calculate the line voltage at the...

2. Three phase loads are in Y connection. Each load has a 20 Ω resistor and...

2. Three phase loads are in Y connection. Each load has a 20 Ω resistor and a 12 Ω reactor series. If the line voltage is 440 V, calculate the following: a. The total active power, reactive power, and apparent power supplied to the three-phase load. b. The voltage across each resistor.

A 11.5kVA, 480-V, 50-Hz, Y-connected 3-φgenerator withan impedance of 20Ωper phase.a.Draw the generator circuit component. [1...

A 11.5kVA, 480-V, 50-Hz, Y-connected 3-φgenerator withan impedance of 20Ωper phase.a.Draw the generator circuit component. [1 Mark]b.Determine the phase voltage and line-linevoltage. [1 Mark]c.Determine the phase current and line current. [1 Mark]d.Determine the active power and reactive powercomponents at full load. [2Marks]

A full-wave rectifier has a 120 V rms, 60 Hz ac source. The load is a...

A full-wave rectifier has a 120 V rms, 60 Hz ac source. The load is a series inductance, resistance and dc voltage source, with L = 100 mH, R = 10 Ω, and Vdc = 50 V. a). Determine an expression for load current. b). Determine the power absorbed by the dc voltage source. c). Determine the power absorbed by the resistance. d). Determine the power factor of the source.

The ac voltage controller is used for heating a resistive load of R= 5 ohms and...

The ac voltage controller is used for heating a resistive load of R= 5 ohms and input voltage is V=120V (rms), 60Hz. The thristor switch is on for n=125cycles and is off for m=75 cycles. Determine the rms output voltage, the input power factor and the average as well as rms currents of the thyristor