circuit with a resistor and capacitor in series is subjected to a number of different input voltages as shown in attached image: 1. Derive the transfer function, G(s) of the system using v(s) as the input and vc(s) as the output.
circuit with a resistor and capacitor in series is subjected to a number of different input voltages as shown in attached image: 1. Derive the transfer function, G(s) of the system using v(s) as the input and vc(s) as the output.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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A circuit with a resistor and capacitor in series is subjected to a number of different input voltages as shown in attached image:
1. Derive the transfer function, G(s) of the system using v(s) as the input and vc(s) as the output.
Transcribed Image Text:R
vRt)
v(t)
vc(t)
i(t)
v(t)
i(t)
VR(t)
vc(t)
C
Input voltage to the circuit
Current flowing in the circuit
Voltage across the resistor
Output voltage across the capacitor
Capacitance of the capacitor
Resistance of the resistor
R
%3D
Using Kichhoff's voltage law we can derive a model of the circuit operation
For a series resistor and capacitor circuit:
v(t) = vR(t) + vc(t)
I| || || ||||
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