Figure 4.1 below shows a series RLC circuit. Q4.1 Given the input and output voltages, determine the transfer function of the circuit. Q4.2 Qualitatively show that this circuit can be considered as a band reject filter. Vi Vi + (+ L Vo Figure 4.1 Circuit diagram for Questions Q4.1 and Q4.2. The same series RLC circuit is again used but this time the voltage across the resistor is taken as the output. See Figure 4.2 below. L C HE Q4.3 Determine the transfer function of the circuit. R{ C HE R + Vo WITH Figure 4.2 Circuit diagram for Questions Q4.3 and Q4.4.

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Figure 4.1 below shows a series RLC circuit.
Q4.1 Given the input and output voltages, determine the transfer function of the circuit.
Q4.2 Qualitatively show that this circuit can be considered as a band reject filter.
C
Vi
+
Vi
+
+1
L
Figure 4.1 Circuit diagram for Questions Q4.1 and Q4.2.
The same series RLC circuit is again used but this time the voltage across the resistor is taken as the
output. See Figure 4.2 below.
Vo
L
R$
C
Ht
+
R≤ Vo
Figure 4.2 Circuit diagram for Questions Q4.3 and Q4.4.
Q4.3 Determine the transfer function of the circuit.
Q4.4 Qualitatively, show that this circuit can be considered as a band pass filter.
Transcribed Image Text:Figure 4.1 below shows a series RLC circuit. Q4.1 Given the input and output voltages, determine the transfer function of the circuit. Q4.2 Qualitatively show that this circuit can be considered as a band reject filter. C Vi + Vi + +1 L Figure 4.1 Circuit diagram for Questions Q4.1 and Q4.2. The same series RLC circuit is again used but this time the voltage across the resistor is taken as the output. See Figure 4.2 below. Vo L R$ C Ht + R≤ Vo Figure 4.2 Circuit diagram for Questions Q4.3 and Q4.4. Q4.3 Determine the transfer function of the circuit. Q4.4 Qualitatively, show that this circuit can be considered as a band pass filter.
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