1. LTI system stability Time domain analysis
Lecture #08
LTI system stability
Time domain analysis
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2. System representations
Continuous-time LTI system
Ordinary differential equation
Transfer function (Laplace transform)
Dynamic equation (Simultaneous first-order ODE)
Discrete-time LTI system
Ordinary difference equation
Transfer function (Z-transform)
Dynamic equation (Simultaneous first-order ordinary difference equation)
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3. Continuous-time LTI system
Laplace transform
Ordinary differential equation
Transfer function
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4. State equation (Simultaneous first-order ODE) Dynamic equation
output equation
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5. Stability Internal behavior External behavior
The effect of all characteristic roots.
External behavior
The effect by cancellation of some transfer function poles.
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6. Definition :
A system is internal (asymptotic) stable, if the zero-input response decays to zero, as time approaches infinity, for all possible initial conditions.
Asymptotic stable =>All the characteristic polynomial roots are located in the LHP (left-half-plane)
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7. Asymptotic stable => BIBO stable BIBO stable=> Asymptotic stable
Definition :
A system is external (bounded-input, bounded-output) stable, if the zero-state response is bounded, as time approaches infinity, for all bounded inputs..
bounded-input, bounded-output stable =>All the poles of transfer function are located in the LHP (left-half-plane)
Asymptotic stable => BIBO stable
BIBO stable=> Asymptotic stable
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8. System response First order system response
Second order system response
High order system response
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9. First order
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10. Second order Two characteristic roots are real and distinct.
Three cases :
Two characteristic roots are real and distinct.
Two characteristic roots are equal.
Two characteristic roots are complex numbers.
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11. Two characteristic roots are real and distinct.
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12. Two characteristic roots are equal
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13. Two characteristic roots are complex numbers
Undamped natural frequency
Damping ratio
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17. Higher-order system Dominant root nondominant root meiling chen
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19. meiling chen
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20. meiling chen
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21. = natural response + forced response
Part I :
Characteristic roots
Part II :
Input function
Steady state error
Sensitivity …etc.
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22. = transient response + steady state response
rising time
delay time
maximum overshoot
settling time
…etc.
Steady state error
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