A full wave rectifier circuit is constructed using a bridge rectifier configuration consisting of four diodes and connected to an AC voltage source. The AC voltage source has a peak voltage of 120 V and operates at a frequency of 60 Hz. The load resistor connected to the output terminals of the rectifier has a resistance of 1 k. Each diode in the bridge has a forward voltage drop of 0.6 V. Calculate: The peak voltage of the rectified output. The average output voltage. The peak inverse voltage (PIV) of the diodes. The ripple voltage (peak-to-peak) of the output.
A full wave rectifier circuit is constructed using a bridge rectifier configuration consisting of four diodes and connected to an AC voltage source. The AC voltage source has a peak voltage of 120 V and operates at a frequency of 60 Hz. The load resistor connected to the output terminals of the rectifier has a resistance of 1 k. Each diode in the bridge has a forward voltage drop of 0.6 V. Calculate: The peak voltage of the rectified output. The average output voltage. The peak inverse voltage (PIV) of the diodes. The ripple voltage (peak-to-peak) of the output.
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Transcribed Image Text:Full Wave Rectifier Numerical Question:
A full wave rectifier circuit is constructed using a bridge rectifier configuration consisting of
four diodes and connected to an AC voltage source. The AC voltage source has a peak
voltage of 120 V and operates at a frequency of 60 Hz. The load resistor connected to the
output terminals of the rectifier has a resistance of 1 k. Each diode in the bridge has a
forward voltage drop of 0.6 V.
Calculate:
1. The peak voltage of the rectified output.
2. The average output voltage.
3. The peak inverse voltage (PIV) of the diodes.
4. The ripple voltage (peak-to-peak) of the output.
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