(→solution) |
(→solution) |
||
| Line 28: | Line 28: | ||
0, else | 0, else | ||
| + | |||
| + | <math> y[n] =2(1-(1/2)^{-n+1))u[-n] </math> | ||
| + | |||
| + | <math> (2-2^{n})u[-n]</math> | ||
Revision as of 09:54, 15 October 2008
question
3. An LTI system has unit impulse response $ h[n]=u[-n] $ Compute the system's response to the input $ x[n]=2^{n}u[-n]. $(Simplify your answer until all \sum signs disappear.)
solution
$ y[n]=x[n]*h[n] $
$ y[n]=\sum^{\infty}_{k=-\infty}x[n]*h[n-k] $
$ y[n]=\sum^{\infty}_{k=-\infty}2^{k}u[-k]u[n-k] $
n[-k] = 1 ,-k>=0
k<=0
$ y[n]=\sum^{0}_{k=-\infty}2^{k}u[n-k] $
$ \sum^{0}_{k=n}2^{k}, n<=0 $
0, else
let r=-k, k=-r
$ \sum^{-n}_{r=0}2^{-r}, n<=0 $
0, else
$ \sum^{-n}_{r=0}(1/2)^{r}, n<=0 $
0, else
$ y[n] =2(1-(1/2)^{-n+1))u[-n] $
$ (2-2^{n})u[-n] $
