There is a single-phase bridge rectifier with an inductive corrector, where the source inductance is 12 mH, the load current is 18 A, and the supply voltage is 320 V (peak value) at 50 Hz. (Note: The resistance of the correction inductance is considered to be 0.8 ohms.) a) Draw the circuit in an open form and calculate the average voltage across the load. b) Calculate the value of the inductance used for correction when the current fluctuation in the load is 3 A. (Note: Waveforms will be drawn, and necessary calculations will be shown in detail. Only results will not be accepted.)
There is a single-phase bridge rectifier with an inductive corrector, where the source inductance is 12 mH, the load current is 18 A, and the supply voltage is 320 V (peak value) at 50 Hz. (Note: The resistance of the correction inductance is considered to be 0.8 ohms.) a) Draw the circuit in an open form and calculate the average voltage across the load. b) Calculate the value of the inductance used for correction when the current fluctuation in the load is 3 A. (Note: Waveforms will be drawn, and necessary calculations will be shown in detail. Only results will not be accepted.)
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There is a single-phase bridge rectifier with an inductive corrector, where the source inductance is 12 mH, the load current is 18 A, and the supply voltage is 320 V (peak value) at 50 Hz. (Note: The resistance of the correction inductance is considered to be 0.8 ohms.)
a) Draw the circuit in an open form and calculate the average voltage across the load.
b) Calculate the value of the inductance used for correction when the current fluctuation in the load is 3 A. (Note: Waveforms will be drawn, and necessary calculations will be shown in detail. Only results will not be accepted.)
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