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An RC circuit is given in Figure Q1. vi(t) and vo(t) are the input and output voltages.  Note that XY are the last two digits of your student number.  X = 5, Y = 5 (i) Identify the order of the circuit and explain the functions of the circuit in practice. (ii) With a unit step change of vi(t) applied to the circuit, derive the time response of the circuit. (iii) Based on the results from (ii), sketch the response of the output voltage vo(t). Scale of sketched diagram should be carefully selected based on the values of X and Y to clearly show the response.

An RC circuit is given in Figure Q1. vi(t) and vo(t) are the input and output voltages.  Note that XY are the last two digits of your student number.  X = 5, Y = 5 (i) Identify the order of the circuit and explain the functions of the circuit in practice. (ii) With a unit step change of vi(t) applied to the circuit, derive the time response of the circuit. (iii) Based on the results from (ii), sketch the response of the output voltage vo(t). Scale of sketched diagram should be carefully selected based on the values of X and Y to clearly show the response.

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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An RC circuit is given in Figure Q1. vi(t) and vo(t) are the input and output
voltages.
 Note that XY are the last two digits of your student number.  X = 5, Y = 5

(i) Identify the order of the circuit and explain the functions of the circuit in
practice.
(ii) With a unit step change of vi(t) applied to the circuit, derive the time
response of the circuit.

(iii) Based on the results from (ii), sketch the response of the output voltage
vo(t). Scale of sketched diagram should be carefully selected based on
the values of X and Y to clearly show the response. 

R1 R2 Vit) Volt) R; |C, ]C R1= 50 k2 R,= (10+X) k2 R3= 100 kN C,=C;(10+Y) µF Figure Q1. RC circuit.
Transcribed Image Text:R1 R2 Vit) Volt) R; |C, ]C R1= 50 k2 R,= (10+X) k2 R3= 100 kN C,=C;(10+Y) µF Figure Q1. RC circuit.
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