ME369 Modeling,Analysis and System Control-A --Lecture 140922 Week 2# Laplace Transform-inverse, Ch2.4, Sep.22(M) solving equation,MATLAB 2.5(4h) Dynamic systems-mechanical Ch3.1~ HW1 due Sep.24(W) electrical system modeling 3.3 HW2 Week 3#Rest Week 4# 0ct.6M)) Rest Dynamic systems- Ch3.1~ Oct.8(W) mechanical/electrical system 3.3 modeling
ME369 Modeling, Analysis and System Control-A --Lecture_140922 Week 2# Sep.22(M) Laplace Transform – inverse, solving equation, MATLAB Ch2.4, 2.5 (4th ) Sep.24(W) Dynamic systems – mechanical / electrical system modeling Ch3.1 ~ 3.3 HW1 due HW2 Week 3# Rest Week 4# Oct.6(M) Rest Oct.8(W) Dynamic systems – mechanical/electrical system modeling Ch3.1 ~ 3.3
Definition of Laplace Transform Definition of Laplace Transform The Laplace Transform of f(t)is defined as F(s)=f(t)e-dt=[f() S=0+j0 Function ft)that satisfies 1.A time continuous function; 2.Real function; 3.t)=0,for0: 4 0f(t)eh<w→limf()e=0
• Definition of Laplace Transform • The Laplace Transform of f(t) is defined as 0 ( ) ( ) [ ( )] st F s f t e dt f t L lim ( ) 0 st t f te 0 ( ) st f t e dt Definition of Laplace Transform s j Function f(t) that satisfies 1. A time continuous function; 2. Real function; 3. f(t)=0, for t<0; 4
Laplace Transform of Typical Function Exponential Function f(t)=0 fort<0 F(S)=? f(t)=Ae-a for t≥0 [f(t)=0 for t<0 Step Function F(S)=? f(t)=A for t≥0 f(t)=0 fort<0 Ramp Function F(S)=? f(t)=At for t≥0
Laplace Transform of Typical Function Exponential Function ( ) for 0 ( ) 0 for 0 f t Ae t f t t t Step Function ( ) for 0 ( ) 0 for 0 f t A t f t t Ramp Function ( ) for 0 ( ) 0 for 0 f t At t f t t F s() ? F s() ? F s() ?
Laplace Transform of Typical Function Sinusoidal Function f(t)=0 fort<0 F(S)=? f(t)=Asin ot for t≥0 f(t)=0 for t<0 and t>to Impulse Function ()=lim for0 F(S)=? i0→0t0 6(t-to)=0fort≠to δ(t-to)=∞fort=to F(s)=? Unit Impulse Function [6(t-to)dt =1 Table A.1,by Ogata
Laplace Transform of Typical Function Impulse Function Unit Impulse Function 0 0 0 0 ( ) lim for 0 ( ) 0 for 0 and t t 0 t t t A f t f t t t ( ) 1 ( ) for t t ( ) 0 for t 0 0 0 0 0 t t dt t t t t t F s() ? F s() ? ( ) sin for 0 ( ) 0 for 0 f t A t t f t t Sinusoidal Function F s() ? Table A.1, by Ogata
Important properties of the Laplace Transform(1) 1.Multiplication of f(t)by e-at LeSe"f()e"d=F(+a) Translated Function (time delay) L[f(t-a).1(t-a)=eaF(s)
Important properties of the Laplace Transform(1) ( ) ( ) ( ) L e f t e f t e dt F s t t st 0 1.Multiplication of f(t) by e-αt Translated Function (time delay) ( ) 1( ) ( ) as L ft a t a e Fs