A three phase balanced resistive load has a line voltage VL = 381.05 V and line...

A balanced three-phase Y-? system has Vab = 380 V rms and Z?=? If the line...

A balanced three-phase Y-? system has Vab = 380 V rms and Z?=? If the line impedance per phase is (0.1 + j0.4)? and total complex power delivered to the load (8+7j)KVA a) find line current b) find the voltage load c) find the current load d) find Z? f) simulation for this circuit on the MULTISIM

A 70.7 (line voltage) three phase star connected source is connected to a balanced delta load...

A 70.7 (line voltage) three phase star connected source is connected to a balanced delta load having impedance of 14.14 + j14.14 ohms for each phase. Assuming abc sequence, find a) Line currents b) Total 3 phase power

The magnitude of the phase voltage of an ideal balanced three-phase Y-connected source is 110 V...

The magnitude of the phase voltage of an ideal balanced three-phase Y-connected source is 110 V . The source is connected to a balanced Y-connected load by a distribution line that has an impedance of 0.1+0.8i Ω/ϕ . The load impedance is 20.2+14.8i Ω/ϕ . The phase sequence of the source is acb. Use the a-phase voltage of the source as the reference. Part A: Specify the magnitude and phase angle of the line current IaA. Part B: Specify the...

A balanced wye-connected three-phase source has line-to-neutral voltages of 400 V rms. - Find the rms...

A balanced wye-connected three-phase source has line-to-neutral voltages of 400 V rms. - Find the rms line-to-line voltage magnitude. - If this source is applied to a wye-connected load composed of three 33 Ω resistances, find the rms line-current magnitude. - If this source is applied to a wye-connected load composed of three 33 Ω resistances, find the total power delivered.

A three-phase six-step inverter delivers power to a resistive load from a 450 V dc source....

A three-phase six-step inverter delivers power to a resistive load from a 450 V dc source. For a star-connected load of 10 ? per phase, determine: (i) rms value of load current (ii) rms value of IGBT current (iii) Load power.

A balanced Y-connected 50Hz three-phase source has phase voltage ? ?=400V. Each phase of the load...

A balanced Y-connected 50Hz three-phase source has phase voltage ? ?=400V. Each phase of the load consists of a 0.1-farad capacitance series with a 50-Ω Find the line currents, and the line voltages. Assuming that the phase angle of ??? is 5.

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 wye connected three-phase source is delivering a line voltage of 480 V at a line...

A wye connected three-phase source is delivering a line voltage of 480 V at a line current of 25 amperes. Find a) the phase voltage b) the phase current c) the line voltage d) the line current e) the total power delivered.

A balanced ?-connected load has an impedance of 60+ j45 ? per phase. The load is...

A balanced ?-connected load has an impedance of 60+ j45 ? per phase. The load is fed through a line having an impedance of 0.8+ j0.6 ? per line. The phase voltage at the terminals of the load is ???????? = 480 ?? . The sequence is positive. Use AB v as the reference at the load. The source is required to be calculated for either Wye or Delta connection. a) Draw the 3-phase system b) Draw the a-phase equivalent...

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...