Design the pass-band filter based on series resonance with the frequency response presented in Figure 1. The filter implementation presented in Figure 2. Given R=220 , B=24 2, fi =5000 Hz, f2=5500 Hz, Vin=1V. 0.707V " V = IV 20 hhh BW Figure 1. Required PBF frequency response a) Determine value of inductor L in mH (millihenry) b) Determine value of capacitor C in µF (microfarad) c) Find the magnitude of Vo in volt at frequency f= f. Note: suppose that your inductor has the quality factor Q, >10. R₁ www Figure 2. Filter network All answers L = C = Vo =
Design the pass-band filter based on series resonance with the frequency response presented in Figure 1. The filter implementation presented in Figure 2. Given R=220 , B=24 2, fi =5000 Hz, f2=5500 Hz, Vin=1V. 0.707V " V = IV 20 hhh BW Figure 1. Required PBF frequency response a) Determine value of inductor L in mH (millihenry) b) Determine value of capacitor C in µF (microfarad) c) Find the magnitude of Vo in volt at frequency f= f. Note: suppose that your inductor has the quality factor Q, >10. R₁ www Figure 2. Filter network All answers L = C = Vo =
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:Design the pass-band filter based on series resonance with the frequency response presented in
Figure 1. The filter implementation presented in Figure 2.
Given R=2202, R=24 02, fi-5000 Hz, f2=5500 Hz, Vin=1V.
0.707V
V₁ = IV 20°
BW
Figure 1. Required PBF frequency response
a) Determine value of inductor L in mH (millihenry)
b) Determine value of capacitor C in μF (microfarad)
c) Find the magnitude of Vo in volt at frequency f = f.
Note: suppose that your inductor has the quality factor Q, >10.
R₁
C
Figure 2. Filter network
C =
R
All answers
L =
V. =
www
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