3. Given the LPF circuit shown, the output voltage at cutofffrequency is2 knww(a) 16.97 V(b) 18.42 V24 V10 mf(c) OV(d) 24 V4. Given the prototype HPF circuit shown, if the design impedanceis 600 a and cutoff frequency is 150 Hz, then the value of C isapproximately(a) 0.62 µF(b) 0.69 µF(c) 0.88 uF(d) 0.92 uF5. Given the symmetrical T-network shown, the characteristicimpedance is20 a20 0(a) 100(b) 20 030 a(다 40 Ω(d) 60 n

Answered: Image /qna-images/answer/7da18534-c9bc-4af7-8293-01c99cf66109.jpg

Answered: 3. Given the LPF circuit shown, the…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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19. A biased clamper is connected to a rectangular AC input with 20V on the positive half cycle and -10V on the negative half cycle. The orientation of the Si diode is the same with Vo while the 5V biasing voltage is in opposite connection. The value of R is 100K ohms while the capacitor is 1 microFarad.
A boost converter has an input voltage Vb=5V. The average load current is lo=0.5A. The switching frequency is 25 kHz. Suppose that a regulator is added (L=0.15 mH and C=0.22 mF) and that the current is continuous. If the average output voltage is Vo =15V, then the ripple current of the inductor delta() is equal to: Select one: a. 1.41A b. 0.56A O c. None of these d. 0.89A
Parts D and E only please, thank you!
A 3 ph F.W. 1/2 controlled converter with highly inductive load ,R=10, V=400 RMS and Out=15A.Find alpha.
p3. A biased parallel clipper is connected to a squarewave 20VAC input.The biasing voltage of 5V has the same polarity with the Vo while the Si diode is connected in reverse and will conduct only during negative half cycle. In P3, what is the output voltage (Vo) during the positive half cycle? a. -4.3V b. 20V c. 4.3V d. -12.15V
A full-wave rectifier produces a 32V peak rectified voltage from a 50Hz ac source. Determine the filter capacitor needed to provide a DC output voltage 24V across a 500 ohm load.
The circuit is shown below, Vin is the sinusoidal waveform with magnitude 5V and frequency is 100 Hz, R = 1 k, C = 1 uE, the chip is supplied by + 12 V source. a) What is the waveform of Yout? b) Calculate the magnitude of Vo c) If Vin is triangle waveform, what is the output waveform? -Vout , if Vin is triangle waveform with magnitude of 5 V (peak-to-peak value is 10 V) and frequency is 10 kHz, calculate waveform of you and the magnitude of I/?
An RL load (R=0.2 Ohms, L=10 mH) is controlled by a converter. The supply voltage Vs is 600V and the chopper frequency is 200 Hz. The maximum peak to peak ripple current is equal to: Select one: a. 30A b. 55A c. 90A d. 75A
a2/a-Design Circint as the following peseripton: A. the positive cycle of the vout signal is 3.2 and Neyatine cycle is 4.3 (Note: we must used preetical Diodes aned vin is tov) B- the pesitive cycles of vout is s-3 od Negative cycle is (5 4) [te:Comsider vin = 1ovavd we must used Capaetor with praeticul Didde)
b) A Buck-Boost converter has an output of 24 V from a 5 V input with diode ripple current of 2.4 A and switching frequency of 100 kHz. Find the duty cycle and the inductance of the converter.
A full-wave rectifier produces a 32V peak rectified voltage from a 50Hz ac source. Determine the filter capacitor needed to provide a DC output voltage 24V across a 500 ohm load.
20. A biased clamper is connected to a rectangular AC input with 20V on the positive half cycle and -10V on the negative half cycle. The orientation of the Si diode is the same with Vo while the 5V biasing voltage is in opposite connection. The value of R is 100K ohms while the capacitor is 1 microFarad.

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