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<math>x(t) = 3\cos(4t + \frac{\pi}{3})</math> | <math>x(t) = 3\cos(4t + \frac{\pi}{3})</math> | ||
| − | + | ||
| − | + | ||
| + | As you can see in graph the signal is being repeated and a value T can be used to get the same value during other times of the signal. | ||
* Not Periodic Continuous-Time Signal | * Not Periodic Continuous-Time Signal | ||
| + | <math>x[n] = \cos(\frac{\pi}{8}n^2)</math> | ||
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| − | Is periodic, when graphed it produces a straigh line. | + | Is periodic, when graphed it produces a straigh line. |
| + | Since it is a line, at any time the value of the signal will be equal to any other time. | ||
Revision as of 19:53, 4 September 2008
Periodic Signal Definition
- For a Continuous-time signal
There exists a positive value of T for which
$ x(t) = x(t - T) $
for all values of t.
- For a Discrete-time signal
There exists a positive integer N for which
$ x[n] = x[n + N] $
for all values of n.
Note: N is the period of the signal.
Problems
- Periodic Continuous-Time Signal
$ x(t) = 3\cos(4t + \frac{\pi}{3}) $
As you can see in graph the signal is being repeated and a value T can be used to get the same value during other times of the signal.
- Not Periodic Continuous-Time Signal
$ x[n] = \cos(\frac{\pi}{8}n^2) $
- Bonus Question
$ x(t) = e^{j(\pi t-1)} $
Is periodic, when graphed it produces a straigh line.
Since it is a line, at any time the value of the signal will be equal to any other time.
