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

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...

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.

Three loads are connected in parallel across a 1500 Vrms - 60 hz. Load 1 absorbs...

Three loads are connected in parallel across a 1500 Vrms - 60 hz. Load 1 absorbs 23 kW and 14 kVAr capacitive. Load 2 absorbs 70 kVA with power factor 0.7 lagging. Load 3 absorbs 22kW with power factor = 1. Find: a) Complex impedance, seen from power source b) Power Factor of the setup and module of Rms current supplied by the source c) Complex impedance of Load 2 d) Value of capacitor to be connected to the combination...

A series RLC circuit has resistance R = 18.0 Ω, inductive reactance XL = 34.0 Ω,...

A series RLC circuit has resistance R = 18.0 Ω, inductive reactance XL = 34.0 Ω, and capacitive reactance XC = 22.0 Ω. If the maximum voltage across the resistor is ΔVR = 115 V, find the maximum voltage across the inductor and the capacitor. (Due to the nature of this problem, do not use rounded intermediate values in your calculations—including answers submitted in WebAssign.) HINT (a) the maximum voltage across the inductor (in V) V (b) the maximum voltage...

1. A circuit has a 400 resistance in one branch, a 50 inductive reactance in the...

1. A circuit has a 400 resistance in one branch, a 50 inductive reactance in the second and 40 capacitive reactance in the third. It is fed from a 240 V, 50 Hz supply. Find (a) Current in all branches (b) Total current (c) Circuit impedance (d) Circuit admittance (e) Power factor (f) Apparent power (g) Active power (h) Reactive power (i) Parameters of equivalent series circuit

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 series circuit consisted of R= 150 Ω, L= 120 mH , C= 4700 µF is...

A series circuit consisted of R= 150 Ω, L= 120 mH , C= 4700 µF is connected to an alternative voltage of V rms = 12 V and frequency of 60 Hz. Find the following quantities in questions a thorough I. You are required to show the formula with the correct symbols - substitute- calculate- answer and the unit for each question. HINT: The first one has been done as an example of how you need to do the problem...

An LRC series circuit has with R = 105 Ω, L = 76 mH, and C...

An LRC series circuit has with R = 105 Ω, L = 76 mH, and C = 22 μF, is attached to a 120-V (rms) AC power supply with frequency 60 Hz. (a) What is the impedance of the circuit? (b) What is the peak current in the circuit? (c) What is the peak voltage across the resistor? (d) What is the peak voltage across the inductor? (e) What is the peak voltage across the capacitor? (f) What is the...

A 2.2 KVA, 440---220 V, 60 Hz, step-down transformer has the following parameters: Rp= 3.0 Ω,...

A 2.2 KVA, 440---220 V, 60 Hz, step-down transformer has the following parameters: Rp= 3.0 Ω, Xp= 4.0 Ω, Rs= 2.5 Ω, Xs= 2.0 Ω, Rc= 60 KΩ, and Xm = 15 KΩ. The transformer is operating at full load with a power factor of 0.707 lagging. The magnetizing branch impedance can be ignored. a) Draw the transformer’s equivalent T-circuit, b) Find the equivalent winding impedance referred to the high side, c) Calculate the primary and secondary currents, d) Determine...

A 2.2 KVA, 440---220 V, 60 Hz, step-down transformer has the following parameters: Rp= 3.0 Ω,...

A 2.2 KVA, 440---220 V, 60 Hz, step-down transformer has the following parameters: Rp= 3.0 Ω, Xp= 4.0 Ω, Rs= 2.5 Ω, Xs= 2.0 Ω, Rc= 60 KΩ, and Xm = 15 KΩ. The transformer is operating at full load with a power factor of 0.707 lagging. The magnetizing branch impedance can be ignored. a) Draw the transformer’s equivalent T-circuit, b) Find the equivalent winding impedance referred to the high side, c) Calculate the primary and secondary currents, d) Determine...