Line 30: | Line 30: | ||
As illustrated above, the function is clearly periodic, and has 4 as the smallest period. | As illustrated above, the function is clearly periodic, and has 4 as the smallest period. | ||
− | On the other hand, <math>cos(n)</math> is not a periodic signal because there is no integer that is multple of <math>2 | + | On the other hand, <math>cos(n)</math> is not a periodic signal because there is no integer that is multple of <math>2*pi</math> is an integer. |
Revision as of 17:55, 4 September 2008
The definition of a periodic DT signal is that there exists an integer N such that $ x[n+N] = x[n] $ for all $ n $.
For example, $ x[n] = j^n $ is periodic. One can show that:
$ x[1] = j\, $
$ x[2] = -1\, $
$ x[3] = -j\, $
$ x[4] = 1\, $
$ x[5] = j\, $
$ x[6] = -1\, $
$ x[7] = -j\, $
$ x[8] = 1\, $
As illustrated above, the function is clearly periodic, and has 4 as the smallest period.
On the other hand, $ cos(n) $ is not a periodic signal because there is no integer that is multple of $ 2*pi $ is an integer.