Lecture 12 time_domain_analysis_of_control_systems
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Transcript of Lecture 12 time_domain_analysis_of_control_systems
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Feedback Control Systems (FCS)
Dr. Imtiaz Hussainemail: [email protected]
URL :http://imtiazhussainkalwar.weebly.com/
Lecture-12 Time Domain Analysis of Control systems
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Introduction
• In time-domain analysis the response of a dynamic system to an input is expressed as a function of time.
• It is possible to compute the time response of a system if the nature of input and the mathematical model of the system are known.
• Usually, the input signals to control systems are not known fully ahead of time.
• For example, in a radar tracking system, the position and the speed of the target to be tracked may vary in a random fashion.
• It is therefore difficult to express the actual input signals mathematically by simple equations.
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Standard Test Signals
• The characteristics of actual input signals are a sudden shock, a sudden change, a constant velocity, and constant acceleration.
• The dynamic behavior of a system is therefore judged and compared under application of standard test signals – an impulse, a step, a constant velocity, and constant acceleration.
• Another standard signal of great importance is a sinusoidal signal.
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Standard Test Signals
• Impulse signal– The impulse signal imitate the
sudden shock characteristic of actual input signal.
– If A=1, the impulse signal is called unit impulse signal.
0 t
δ(t)
A
00
0
t
tAt
)(
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Standard Test Signals
• Impulse signal
Source: English Wikipedia. Iain. Original image: [1]
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Standard Test Signals
• Step signal– The step signal imitate
the sudden change characteristic of actual input signal.
– If A=1, the step signal is called unit step signal
00
0
t
tAtu
)( 0 t
u(t)
A
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Standard Test Signals
• Ramp signal– The ramp signal imitate
the constant velocity characteristic of actual input signal.
– If A=1, the ramp signal is called unit ramp signal
00
0
t
tAttr
)(
0 t
r(t)
r(t)
unit ramp signal
r(t)
ramp signal with slope A
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Standard Test Signals
• Parabolic signal– The parabolic signal
imitate the constant acceleration characteristic of actual input signal.
– If A=1, the parabolic signal is called unit parabolic signal.
00
02
2
t
tAt
tp
)(
0 t
p(t)
parabolic signal with slope A
p(t)
Unit parabolic signal
p(t)
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Relation between standard Test Signals
• Impulse
• Step
• Ramp
• Parabolic
00
0
t
tAt
)(
00
0
t
tAtu
)(
00
0
t
tAttr
)(
00
02
2
t
tAt
tp
)(
dt
d
dt
d
dt
d
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Laplace Transform of Test Signals
• Impulse
• Step
00
0
t
tAt
)(
AstL )()}({
00
0
t
tAtu
)(
S
AsUtuL )()}({
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Laplace Transform of Test Signals
• Ramp
• Parabolic
2s
AsRtrL )()}({
3
2
S
AsPtpL )()}({
00
0
t
tAttr
)(
00
02
2
t
tAt
tp
)(
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Time Response of Control Systems
System
• The time response of any system has two components
• Transient response
• Steady-state response.
• Time response of a dynamic system is response to an input expressed as a function of time.
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Time Response of Control Systems• When the response of the system is changed form rest or
equilibrium it takes some time to settle down.
• Transient response is the response of a system from rest or equilibrium to steady state.
0 2 4 6 8 10 12 14 16 18 200
1
2
3
4
5
6x 10
-3
Step Response
Time (sec)
Am
plitu
de
Response
Step Input
Transient Response
Stea
dy S
tate
Res
pons
e• The response of the system after the transient response is called steady state response.
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Time Response of Control Systems
• Transient response dependents upon the system poles only and not on the type of input.
• It is therefore sufficient to analyze the transient response using a step input.
• The steady-state response depends on system dynamics and the input quantity.
• It is then examined using different test signals by final value theorem.
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END OF LECTURE-12
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