It is required to design full-wave rectifier circuits. Consider the rectifier circuits shown in figures (a) center-tapped rectifier, (b) bridge rectifier. Assume the input voltage is from 120V(rms), 60HZ ac source. The desired peak output voltage vo is 10V. A conducting diode has a voltage drop of 0.7V. In each case, (i) Determine the required turns ratio of the transformer; (ii) Determine the required peak inverse voltage (PIV) of the diodes. D. Center tap line line voltage R voltage
It is required to design full-wave rectifier circuits. Consider the rectifier circuits shown in figures (a) center-tapped rectifier, (b) bridge rectifier. Assume the input voltage is from 120V(rms), 60HZ ac source. The desired peak output voltage vo is 10V. A conducting diode has a voltage drop of 0.7V. In each case, (i) Determine the required turns ratio of the transformer; (ii) Determine the required peak inverse voltage (PIV) of the diodes. D. Center tap line line voltage R voltage
Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Transcribed Image Text:It is required to design full-wave rectifier circuits. Consider the rectifier circuits shown in figures
(a) center-tapped rectifier, (b) bridge rectifier. Assume the input voltage is from 120V(rms), 60HZ
ac source. The desired peak output voltage vo is 10V. A conducting diode has a voltage drop of
0.7V. In each case,
(i)
Determine the required turns ratio of the transformer;
(ii)
Determine the required peak inverse voltage (PIV) of the diodes.
D,
Center
tap
R.
D.
ac
line
line
voltage
R
voltage
D
(b)
(a)
Ans:
(1)
Turns Ratio
(ii) PIV
Center tapped
Center tapped_
Bridge
Bridge
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