A M For the circuit shown in Figure 3: A O V1 9V $1 B ocal backup on First Line Indent: 0 R1 1kQ2 HH C1 470μF Figure 3: The circuit in Figure 3 shows the circuit set up to charge and discharge a capacitor. a) Calculate the time constant (T) for the circuit. Exit b) Draw the detailed current waveform through the circuit and voltage waveform across capacitor for the Capacitor charge cycle when the switch is at position A. (Consider the initial capacitor voltage to be OV). c) Draw the detailed current waveform through the circuit and voltage waveform across capacitor for the Capacitor discharge cycle when the switch position is changed to position B. (Consider the capacitor to be fully charged just before the switch position is changed). The waveforms should be labelled, showing the capacitor voltage, currents and time constant. The figures should show as much details as possible, including the time constant and voltage levels. Also write a brief description, explaining the behaviour of the capacitor under the two mentioned cycles. H B00 回上

A M For the circuit shown in Figure 3: A O V1 9V $1 B ocal backup on First Line Indent: 0 R1 1kQ2 HH C1 470μF Figure 3: The circuit in Figure 3 shows the circuit set up to charge and discharge a capacitor. a) Calculate the time constant (T) for the circuit. Exit b) Draw the detailed current waveform through the circuit and voltage waveform across capacitor for the Capacitor charge cycle when the switch is at position A. (Consider the initial capacitor voltage to be OV). c) Draw the detailed current waveform through the circuit and voltage waveform across capacitor for the Capacitor discharge cycle when the switch position is changed to position B. (Consider the capacitor to be fully charged just before the switch position is changed). The waveforms should be labelled, showing the capacitor voltage, currents and time constant. The figures should show as much details as possible, including the time constant and voltage levels. Also write a brief description, explaining the behaviour of the capacitor under the two mentioned cycles. H B00 回上

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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Concept explainers

HVDC

HVDC stands for high voltage direct current in the electric power transmission system. The high voltage direct current system uses direct current (DC) for the transmission of electrical power through transmission lines in contrast with the alternating current that is the AC system. The HVDC is used to transmit bulk power point-to-point through long distances transmission lines. Power is rapidly transferred because the efficiency of transmission lines is greatly increased over long distances due to HVDC lines.

Question

100%

X₂ A & E
D
A A & Line Spacing: 1
£
For the circuit shown in Figure 3:
F3
80
Local backup on
V1
9V
$
Q
A
F4
Figure 3:
The circuit in Figure 3 shows the circuit set up to charge and discharge a capacitor.
a) Calculate the time constant (T) for the circuit.
$1
B
%
b) Draw the detailed current waveform through the circuit and voltage waveform
across capacitor for the Capacitor charge cycle when the switch is at position A.
(Consider the initial capacitor voltage to be OV).
Character Spacing: 0
First Line Indent: 0
c) Draw the detailed current waveform through the circuit and voltage waveform
across capacitor for the Capacitor discharge cycle when the switch position is
changed to position B. (Consider the capacitor to be fully charged just before the
switch position is changed).
The waveforms should be labelled, showing the capacitor voltage, currents and time
constant. The figures should show as much details as possible, including the time
constant and voltage levels. Also write a brief description, explaining the behaviour of the
capacitor under the two mentioned cycles.
0
F5
R1
1k92
C1
470μF
C
F6
&
F7
X
Exit
DII
F8
HD88
F9
HDD
F10

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