Discussion1- Sketch the magnitude and phase response of the filter on a semi-log paper.2- From the sketch of insertion loss, determine the cut-off frequency of thefilter. Estimate also the slope of the low pass filter's roll-off part of thestop-band region in dB/octave.3- What is the effect of disconnecting the load resistance from the output ofthe filter?4- Design a Butterworth low pass passive filter with a cut-off frequency of50 kHz and a stop-band attenuation of 30 dB at a frequency of 150 kHz.Assume the terminating resistance Ro 600 2. Use Fig. 4 and Fig. 6 tocalculate the element values.=5- What is the main reason behind some considerable insertion loss in thepass-band region of the practical filter?6- Determine the transfer function Vo(jo)/Vi(jo) of the second-order lowpass filter circuit shown in the figure below.L-0000-C

import numpy as np import matplotlib.pyplot as plt from scipy import signal # Butterworth filter…

Answered: Discussion 1- Sketch the magnitude and…

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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For the filter: a) Determine type of filter and the cut-off frequency (Fc). Determine the peak voltage at the cut-off frequency (Fc). b) Find GAIN (Vo/Vi) at f = .1*Fc . Find GAIN (Vo/Vi) at f = 10*Fc . c) Determine the frequency at which GAIN = .4 (i.e., Vo = .4*Vi) . Draw the “Frequency Response Plot” in “Log-Log” format .
filter specification a. What kind of filter is this? b. What is the transition band of the filter is given as ₂ = 0.4, , = 0.5, ₁ = 0.01, &₂ = 0.00001, c. Draw the absolute specification d. What is the specification in relative? e. Draw the relative specification. f. If the filter is applied on a signal sampled at 100 kHz, what are the frequency edges in Hz?
An ideal bandpass filter has cutoff frequencies of 9 and 11 kHz and a gain magnitude of two in the passband. Sketch the transfer-function magnitude to scale versus frequency. Repeat for an ideal band-reject filter.
What is a bandpass filter? How is its bandwidth defined?
2. a) Consider the circuit shown in figure 3. i) Determine what type of filter is shown in Figure 3 i) Calculate the corner or cutoff frequency. Take R = 4 k &, L= 2 H, and C= 1 uF. R Figure 3 b) Describe the possibility of building a second order filter with only resistors and capacitors? and design the cutoff frequency of second order filter for low pass filter (Expected: Describe the possibility , design the second order filter for low pass filter circuit and design the cutoff frequency as equation only).
What is the transfer function of a filter? Describe how the transfer function of a filter can be determined using laboratory methods.
What are the advantages and disadvantages of capacitor filter?
Design and construct/draw a low-pass Butterworth filter with a roll-off of rate of -60 dB/decade and a cutoff frequency of 10 kHz.
Using the window design method, it is desired to design an FIR Low Pass Filter with a minimum stop-band attenuation of 40 dB, and to have a transition width of (0.17 ). Determine: a) The most suitable window to be used for the design. b) The size (M) of the filter.
# 3o
-3dB point in frequency response of an active filter corresponds to A. absolute value negative 3dB of gain B. decrement of 3dB from maximum gain C. minimum gain attained D. minus 3dB of average gain value
Sketch a low pass filter circuit

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