A 3 phase system is defined as follows: The source transformer: 30 Y-Y conected 10000/3000V equivalent circuit impedances as referred to the low voltage side is Z, = 1.5+j1.80 per phase. %3D Feeder Line: it is connected between the low voltage side of the source transformer and the high voltage side of the load transformer, where the impedance is Z= 0.8+j1.20 per phase. Load transformer: 30 Y-Y connected 3000/50OV. Equivalent impedance circuit impedance as referred to the low voltage side is Z=0.3+ j0.40 per phase. A three phase Y connected load with Z =8+j6N per phase is connected to the low voltage side of the load transformer which is supplied by 485VLL a) Draw the system schematically. b) Find the voltages and currents on primary and secondary side of the load and source transformer. c) What is the total power drawn by the load from the system

Electrical Engineering - Convargion Please solve the question quickly

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A 3 phase system is defined as follows: The source transformer: 30 Y-Y conected 10000/3000V equivalent circuit impedances as referred to the low voltage side is Z, = 1.5+j1.80 per phase. Feeder Line: it is connected between the low voltage side of the source transformer and the high voltage side of the load transformer, where the impedance is Z=0.8+j1.20 per phase. Load transformer: 30 Y-Y connected 3000/500V. Equivalent impedance circuit impedance as referred to the low voltage side is Z2=0.3+ j0.4Q per phase. A three phase Y connected load with Z =8+j6N per phase is connected to the low voltage side of the load transformer which is supplied by 485VLL a) Draw the system schematically. b) Find the voltages and currents on primary and secondary side of the load and source transformer. What is the total power drawn by the load from the system