Introductory Circuit Analysis (13th Edition)
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ISBN: 9780133923605
Author: Robert L. Boylestad
Publisher: PEARSON
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3. It is required to design a full-wave rectifier circuit using the circuit shown below to provide an average output vol tage of10 V. find the required turns ratio of the transformer. Assume that a conducting diode has a voltage drop of0.7 V. The ac line vol tage is120 Vrms.
Transcribed Image Text:3. It is required to design a full-wave rectifier circuit using the circuit shown below to provide
an average output voltage of 10 V. find the required turns ratio of the transformer. Assume that
a conducting diode has a voltage drop of 0.7 V. The ac line voltage is 120 V rms.
ac
line
voltage
+1
D₁
▷
Center
tap
KH
D₂
www
R
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- A bridge rectifier uses a step-down transformer and ideal diodes. If the rectifier delivers an average output voltage of 41.4 V to a 480 ohm load find (i) transformer turns ratio, (ii) the average power delivered to the load.arrow_forwardIt 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 Bridgearrow_forwardH.W4 The diode in the single-phase half wave rectifier has a reverse recovery time of tr frequency = 5 kHz. 150usec and the source voltage V₁ = 200V at Calculate the average output voltage. EParrow_forward
- Please find the correct answer by solving the problemarrow_forwardA semiconductor diode having ideal forward and reverse characteristics is used in a half-wave rectifier circuit supplying a resistive load of 500 ohm. If the r.m.s. value of the sinusoidal supply voltage is 230 V, determine (i) the r.m.s. diode current and (ii) power dissipated in the load.arrow_forwardConsider the half-wave rectifier shown below. It needs to deliver 0.1 A and an average of 15 V to a load. The source is 60 Hz and the diode has a 0.7 V drop. The allowable ripple is no more than 0.4 V (2.5%). Find: Peak AC voltage Vm of the source a) b) The minimum value of the smoothing capacitor(s) c) Comment on the type of capacitor and its/their values you would use for this amount of capacitance vs(t) K Load ULarrow_forward
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