3.4 Inverse Laplace Transform 211is obtained by first considering the term 1/s, which hasu(t)as inverse, and then using the information
in the numerator to get the final response,
x(t)=u(t+ 1 )−u(t− 1 )The two sums
∑∞k= 0e−αsk=1
1 −e−αs∑∞k= 0(−e−αs)k=1
1 +e−αscan be easily verified by cross-multiplying. So when the function is
X 1 (s)=N(s)
D(s)( 1 −e−αs)=
N(s)
D(s)∑∞
k= 0e−αsk=
N(s)
D(s)+
N(s)e−αs
D(s)+
N(s)e−^2 αs
D(s)+···
and iff(t)is the inverse ofN(s)/D(s), we then have
x 1 (t)=f(t)+f(t−α)+f(t− 2 α)+···Likewise, when
X 2 (s)=N(s)
D(s)( 1 +e−αs)=
N(s)
D(s)∑∞
k= 0(− 1 )ke−αsk=
N(s)
D(s)−
N(s)e−αs
D(s)+
N(s)e−^2 αs
D(s)−···
iff(t)is the inverse ofN(s)/D(s), we then have
x 2 (t)=f(t)−f(t−α)+f(t− 2 α)−···nExample 3.19
We wish to find the causal inverse ofX(s)=1 −e−s
(s+ 1 )( 1 −e−^2 s)Solution
We letX(s)=F(s)∑∞
k= 0(e−^2 s)k