Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN: 9780133923605
Author: Robert L. Boylestad
Publisher: PEARSON
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Explain :
a) the operation of 3AC Full-Wave Diode- Rectifier
b) how the pChannel MOSFET works
c) the Mosfet Switching Characteristics
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- what is the purpose of installing a filter capacitor in a bridge rectifier circuit? Why don't we install a zener diode which reduces the ripple voltage or to get a consistent voltage wave at Vout?arrow_forward1N4001, 1N4002, 1N4003, 1N4004, 1N4005, 1N4006 and 1N4007 For any of the diodes, describe with the aid of diagrams/illustrations its applications in an AC to DC Bridge rectifier power supply circuit. For your circuit show and describe how you are going to smooth out the ripple voltage that will be present.arrow_forward1. Fill in the gaps with appropriate words: (5x1=5) A. If the peak input voltage of a half wave rectifier is 28V then the diode used should have PIV rating of at least.... B. To prevent a DC return between source and load, it is necessary to use... . .between source and load. C. Common emitter transistor configuration has best D. In the breakdown region, a Zener diode behaves like a E. Introducing a resistor in the emitter of a common emitter amplifier stabilizes the de operating point against changes in.. ..gain. ....... Source. 2. Answer the following question in short: (5x2=10) A. Why 180 degree phase shift occur in CE configuration? B. Draw the input characteristics of CE configuration and explain the effect of VcE on it. C. A power supply A delivers 10 V de with a ripple of 0.5 V r.m.s. while the power supply B delivers 25 V de with a ripple of 1 mV r.m.s. Which is better power supply? D. The applied input A.C. power to a half-wave rectifier is 100 watts. The D.C. output power…arrow_forward
- b) Consider a full wave center tap rectifier circuit made up of silicon diodes, containing output ac voltage of 4.5V. I. Determ ine the output dc level; I. The required PIV of each diode; and III. If the applied input ac power is 90W, determine the output dc power.arrow_forwardA Full-wave bridge rectifier Circuit contains 4 Germanium diodes Cuse the Constant voltage drop model with VD = 0.30) driving ac a Load resistance of 10 kur. An Source with a Peak value of 4ou at bottz Vortage Source with a applied to the Circuit. a DIS 2 Determine the de value of the output wave form Determine the value of the Capacitor In uf needed to limit the output ripple vortage to 0.5 V if the Peak output voltage is equal to Upic -2VDarrow_forwardb. Calculate the following about the circuit in the figure (If silicon diodes are employed in the rectification);i. the peak value of the output voltage considering the drop across each diode, Vpk.ii. the average voltage, Vdc. iii. The current through the load resistor, IL.iv. The current diode, Id.v. The frequency of the output signal, Fout.vi. Calculate the efficiency of the full wave rectifier expressed in percentage. vii. Sketch a graph of the input and output voltage against time.arrow_forward
- answer b.arrow_forwardS-2) a) On the bridge type full wave rectifier circuit given in the figure Plot the current paths for each of the +/- alternans. b) The waveform of the Vç output voltage is given in the graphs on the side. Draw it in the blank and calculate the peak value and indicate it in the graph. c) Calculate the effective value of the output voltage. (Vç (eff) =… ..?). Note: Diodes are not ideal. VD = 0.7V.arrow_forwardP3.1 Consider the half-wave diode rectifier circuit shown in Figure 3.2. Assume a V value of 0.6V. Plot the output voltage of the circuit for an AC sinusoidal signal with the following amplitudes. a. 0.5V b. 2V C. 5V P3.2 Consider the signal conditioning op-amp circuit shown in Figure P3.2 with an ideal diode in the feedback loop. Show that, for the case V, >0 R,R, R(R, + R;) And V, <0, the input-outputrelationship is given by V. R3 V, R1 61arrow_forward
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