Design an active band pass filter with Gain= -20 and cutoff frequencies at 100 Hz and 10 kHz using the following circuits. (Must show your math, including the formula used in your calculations) Gain = -R2/R1, Gain (dB) = 20log(|Gain|) Determine R1= C1= R2= C2= Draw the simulated frequency response of the circuit dB Gain vs f (three straight lines) on the graph paper.
Design an active band pass filter with Gain= -20 and cutoff frequencies at 100 Hz and 10 kHz using the following circuits. (Must show your math, including the formula used in your calculations) Gain = -R2/R1, Gain (dB) = 20log(|Gain|) Determine R1= C1= R2= C2= Draw the simulated frequency response of the circuit dB Gain vs f (three straight lines) on the graph paper.
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 an active band pass filter with Gain= -20 and cutoff frequencies at 100 Hz and 10 kHz using the following
circuits. (Must show your math, including the formula used in your calculations)
Gain = -R2/R1,
Gain (dB) = 20log(|Gain|)
Determine R1=
C1=
R2=
C2=
Draw the simulated frequency response of the circuit dB Gain vs f (three straight lines) on the graph paper.
20 -
C2
HH
0-
R2
R1
C1
-20 -
Av
Vin
Vout
40 -
-60 -
R
fe =
R,
fc, =
2rR,C2
Voltage Gain =
2rR,C
10
10
Hz
10°
10
10
10"
(gp) ujeg
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