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| − | <math>Pinf = \lim_{N \to \infty} | + | <math>Pinf = \lim_{N \to \infty}(1/(2N+1))\sum_{n=-inf}^\infty |x[n]|^2 </math> |
Revision as of 18:52, 5 September 2008
<math>x[n]={[e^(jπ/17) ]/2j}u(-n)
|x[n] |=u[-n] (1/2)^n
E_∞=∑_(n=-∞)^∞▒〖|x[n]|^2〗=∑_(n=-∞)^0▒〖[(1/2)^n ]^2=∑_(n=-∞)^0▒〖(1/4)^n=〗〗 ∞
P_∞=lim┬(N→∞)〖1/(2N+1)〗 ∑_(n=-N)^N▒|x[n] |^2=lim┬(N→∞)〖1/(2N+1)〗 ∑_(n=-N)^N▒〖(1/4)^n=〗 lim┬(N→∞)〖1/(2N+1)〗 ∑_(k=0)^∞▒〖4^k=〗 lim┬(N→∞)〖[1/(2N+1)]〗 [(1-4^(N+1))/(1-4))]=∞
</math>
$ x[n]=\left ( \frac{exp(jpi/17)}{2j} \right )^n * u[-n] $
$ Einf = \sum_{n=-inf}^\infty |x[n]|^2 = \sum_{k=0}^\infty (1/4)^k = inf $
$ Pinf = \lim_{N \to \infty}(1/(2N+1))\sum_{n=-inf}^\infty |x[n]|^2 $
