-pot the series RC circuit in Fig. 14.7: a) Find the transfer function between the source voltage and the output voltage. b) Determine an equation for the cutoff frequency in the series RC circuit. c) Choose values for R and C that will yield a low- pass filter with a cutoff frequency of 3 kHz. Solution a) To derive an expression for the transfer function, we first construct the s-domain equivalent of the Figure 14.7 AA series RC low-pass filter. R w V/s) ( Figure 14.8 A The s-domain equivalent for the circuit in Fig. 14

-pot the series RC circuit in Fig. 14.7: a) Find the transfer function between the source voltage and the output voltage. b) Determine an equation for the cutoff frequency in the series RC circuit. c) Choose values for R and C that will yield a low- pass filter with a cutoff frequency of 3 kHz. Solution a) To derive an expression for the transfer function, we first construct the s-domain equivalent of the Figure 14.7 AA series RC low-pass filter. R w V/s) ( Figure 14.8 A The s-domain equivalent for the circuit in Fig. 14

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

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Pass Fitter
For the series RC circuit in Fig. 14.7:
a) Find the transfer function between the source
voltage and the output voltage.
b) Determine an equation for the cutoff frequency
in the series RC circuit.
e) Choose values for R and C that will yield a low-
pass filter with a cutoff frequency of 3 kHz.
Solution
a) To derive an expression for the transfer function,
we first construct the s-domain equivalent of the
eirenit in Fis 147 as shown in Fio 148
+
22
Vo
Figure 14.7 AA series RC low-pass filter.
R
V(s)
(16)
Figure 14.8A The s-domain equivalent for the circuit in Fig. 14.7

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