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<math>F[z]=\sum_{m= - \infty}^{\infty}\delta{[m-5]}e^{-mjk\omega_o}</math>
 
<math>F[z]=\sum_{m= - \infty}^{\infty}\delta{[m-5]}e^{-mjk\omega_o}</math>
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Revision as of 09:24, 25 September 2008

Define a DT LTI System

Let the DT LTI system be: $ y[n]=u[n-5] $

Obtain the Unit Impulse Response h[n] and the System Function F[z] of the system

First to obtain the unit impulse response h[n] we plug in $ \delta{[n]} $ into our y[n].

$ h[n]=\delta{[n-5]} $

Then the system function F[z] is obtained by

$ F[z]=\sum_{m= - \infty}^{\infty}h[m]z^{-m} $

where z is an input into our system. Let $ z = e^{jk\omega_o} $

So when z^n is input into our system, we should get $ F[z]z^n $ back out.


$ F[z]=\sum_{m= - \infty}^{\infty}\delta{[m-5]}e^{-mjk\omega_o} $


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