The circuit in Figure 1 represents the circuit model of an interference path from source vin to the 10 MQ load resistance at vout- С1 C2 H 1 pF 1000 pF R in 10 MQ out Figure 1. Interference modeling а) Determine the transfer function H(f) =vout/Vin from vin to vout- b) Determine the output magnitude vou when vin is a 170V pk sine wave at 60HZ c) Determine the output magnitude vour when vin is a 1V pk sine wave at 1 MHz
The circuit in Figure 1 represents the circuit model of an interference path from source vin to the 10 MQ load resistance at vout- С1 C2 H 1 pF 1000 pF R in 10 MQ out Figure 1. Interference modeling а) Determine the transfer function H(f) =vout/Vin from vin to vout- b) Determine the output magnitude vou when vin is a 170V pk sine wave at 60HZ c) Determine the output magnitude vour when vin is a 1V pk sine wave at 1 MHz
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:The circuit in Figure 1 represents the circuit model of an interference path from
source vin to the 10 MQ load resistance at vout-
C1
C2
1 pF
1000 pF
R
V
in
out
10 MQ
Figure 1. Interference modeling
a)
Determine the transfer function H(f) = vou/Vin from vin to vout-
b)
Determine the output magnitude vout when Vin is a 170V pk sine wave at 60HZ
c)
Determine the output magnitude vou when vin is a 1V pk sine wave at 1 MHz
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