(Nyquist Rates)
(Nyquist Rates)
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Using the sampling theorem we know that if we let x(t) be a band limited signal with X(jW) = 0 for |W| > Wm, then x(t) is uniquely determined to be from X(nT): n=0,1,-1,2,-2...etc. as long as Ws > 2Wm
 
Using the sampling theorem we know that if we let x(t) be a band limited signal with X(jW) = 0 for |W| > Wm, then x(t) is uniquely determined to be from X(nT): n=0,1,-1,2,-2...etc. as long as Ws > 2Wm
  
and Ws = <math> frac{2* \pi}{T} </math>
+
and Ws = <math> frac{2* \pi}_{T} </math>

Revision as of 19:03, 17 November 2008

Nyquist Rates

In order to find the Nyquist rate of a signal given x(t):

We will first find the fourrier transform X(W) and plot out its signal over a period of frequency Wm.

Once the Wm is found, then it is to be multiplied by two and that is the total given nyquist rate.


2Wm is known as the total Nyquist rate. Using the sampling theorem we know that if we let x(t) be a band limited signal with X(jW) = 0 for |W| > Wm, then x(t) is uniquely determined to be from X(nT): n=0,1,-1,2,-2...etc. as long as Ws > 2Wm

and Ws = $ frac{2* \pi}_{T} $

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