(Periodic Functions)
(Periodic Functions)
 
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== Periodic Functions ==
 
== Periodic Functions ==
  
A Continuous Time signal is said to be periodic if there exists <math>T > 0</math> such that <math>x(t+T)=x(t)</math>
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A Continuous Time signal is said to be periodic if there exists <math>\ T > 0</math> such that <math>\ x(t+T)=x(t)</math>
  
A Discrete Time signal is said to be periodic if there exists <math>N > 0</math> (where N is an integer) such that <math>x[n+N]=x[n]</math>
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A Discrete Time signal is said to be periodic if there exists <math>\ N > 0</math> (where N is an integer) such that <math>\ x[n+N]=x[n]</math>
  
An example of a CT periodic signal is <math>x(t) = sawtooth(t)</math>:
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An example of a CT periodic signal is <math>x(t) = sawtooth(t,.5)</math> (which is actually a tri wave):
  
[[Image:Example_ECE301Fall2008mboutin.jpg]]
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[[Image:tri_ECE301Fall2008mboutin.jpg]]
  
 
As you can see the function has a fundamental period of two Pi. Therefore any multiple of two Pi is a period.
 
As you can see the function has a fundamental period of two Pi. Therefore any multiple of two Pi is a period.
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== Non-periodic Functions ==
 
== Non-periodic Functions ==
  
A Continuous Time signal is said to be non-periodic if there is no value of <math>T > 0</math> that satisfies <math>x(t+T)=x(t)</math>
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A Continuous Time signal is said to be non-periodic if there is no value of <math>\ T > 0</math> that satisfies <math>\ x(t+T)=x(t)</math>
  
A Discrete Time signal is said to be non-periodic if there is no value of <math>N > 0</math> (where N is an integer) that satisfies<math>x[n+N]=x[n]</math>
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A Discrete Time signal is said to be non-periodic if there is no value of <math>\ N > 0</math> (where N is an integer) that satisfies<math>\ x[n+N]=x[n]</math>
  
 
An example of a non-periodic continuous time signal would be <math>\ x(t) = e^{(-1 + j)t}</math>. This goes to show that not all complex exponential functions are periodic.  
 
An example of a non-periodic continuous time signal would be <math>\ x(t) = e^{(-1 + j)t}</math>. This goes to show that not all complex exponential functions are periodic.  
  
 
Here is what the function looks like when graphed:
 
Here is what the function looks like when graphed:
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[[Image:np_exp_ECE301Fall2008mboutin.jpg]]
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As you can see from the graph the function is non-periodic.

Latest revision as of 11:21, 5 September 2008

Periodic Functions

A Continuous Time signal is said to be periodic if there exists $ \ T > 0 $ such that $ \ x(t+T)=x(t) $

A Discrete Time signal is said to be periodic if there exists $ \ N > 0 $ (where N is an integer) such that $ \ x[n+N]=x[n] $

An example of a CT periodic signal is $ x(t) = sawtooth(t,.5) $ (which is actually a tri wave):

Tri ECE301Fall2008mboutin.jpg

As you can see the function has a fundamental period of two Pi. Therefore any multiple of two Pi is a period.

Non-periodic Functions

A Continuous Time signal is said to be non-periodic if there is no value of $ \ T > 0 $ that satisfies $ \ x(t+T)=x(t) $

A Discrete Time signal is said to be non-periodic if there is no value of $ \ N > 0 $ (where N is an integer) that satisfies$ \ x[n+N]=x[n] $

An example of a non-periodic continuous time signal would be $ \ x(t) = e^{(-1 + j)t} $. This goes to show that not all complex exponential functions are periodic.

Here is what the function looks like when graphed:

Np exp ECE301Fall2008mboutin.jpg

As you can see from the graph the function is non-periodic.

Alumni Liaison

BSEE 2004, current Ph.D. student researching signal and image processing.

Landis Huffman