QS. Figure Q5 shows an AC source G having an effective voltage of 240 V, 60 Hz is connected to a single-phase full-wave rectifier. The resistance for R is 53 2 and ripple-to-ripple current is 15%. (a) Explain the consequences of removing the inductor and reversing Bị and B2 diodes. Sketch the output voltage waveform.

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Answer a,b,c,d

Figure Q5 shows an AC source G having an effective voltage of 240 V, 60 Hz is
connected to a single-phase full-wave rectifier. The resistance for R is 53 Q and
ripple-to-ripple current is 15%.
Explain the consequences of removing the inductor and reversing Bị and B2
diodes. Sketch the output voltage waveform.
(b)
Determine the DC voltage and DC current across the resistor. Hence, determine
the power absorbed by the load. Assuming all diodes are ideal.
(c)
Calculate the energy stored by the inductor. Hence, determine the inductance of
the inductor required.
A designer would like to improve the full-wave rectifier - reduce the peak-to-peak
current ripple by 5%. Determine the inductance required.
A,
B,
Figure Q5
Transcribed Image Text:Figure Q5 shows an AC source G having an effective voltage of 240 V, 60 Hz is connected to a single-phase full-wave rectifier. The resistance for R is 53 Q and ripple-to-ripple current is 15%. Explain the consequences of removing the inductor and reversing Bị and B2 diodes. Sketch the output voltage waveform. (b) Determine the DC voltage and DC current across the resistor. Hence, determine the power absorbed by the load. Assuming all diodes are ideal. (c) Calculate the energy stored by the inductor. Hence, determine the inductance of the inductor required. A designer would like to improve the full-wave rectifier - reduce the peak-to-peak current ripple by 5%. Determine the inductance required. A, B, Figure Q5
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