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+ | [[Category: ECE]] | ||
+ | [[Category: ECE301]] | ||
+ | [[Category:signals and systems]] | ||
+ | [[Category: Fall]] | ||
+ | [[Category: 2007]] | ||
+ | [[Category: mboutin]] | ||
+ | [[Category: Defintions]] | ||
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+ | =Useful Definitions for [[ECE301]]: signals and systems= | ||
<b>Periodic CT Signal:</b> | <b>Periodic CT Signal:</b> | ||
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Comment: | Comment: | ||
− | * The difference between | + | * The difference between CT and DT: |
Note that the period N must be an integer in DT, but that the period T in CT can be any positive real number. | Note that the period N must be an integer in DT, but that the period T in CT can be any positive real number. | ||
− | -Mimi Wed, 26 Sep 2007 16:29:43 | + | |
+ | -Mimi (Wed, 26 Sep 2007 16:29:43) |
Latest revision as of 15:58, 23 April 2013
Useful Definitions for ECE301: signals and systems
Periodic CT Signal:
- A CT signal $ x(t)\ $ is called periodic if there exists $ T>0\ $ period such that $ x(t+T)=x(t)\ $, for all values of t. The fundamental period is the smallest period of all periods of a signal (denoted by $ T_0\ $).
In Mathspeak:
- $ x(t) periodic \iff \exists T>0 \ni x(t+T)=x(t), \forall t \in \mathbb{R} $
Periodic DT Signal:
- A DT signal $ x[n]\ $ is called periodic if there exists $ N>0\ $ period such that $ x[n+N]=x[n]\ $, for all values of n. the fundamental period is the smallest period of all periods of a signal (denoted by $ N_0\ $).
In Mathspeak:
- $ x[n] periodic \iff \exists N>0 \ni x[n+N]=x[n], \forall n \in \mathbb{N} $
Comment:
- The difference between CT and DT:
Note that the period N must be an integer in DT, but that the period T in CT can be any positive real number.
-Mimi (Wed, 26 Sep 2007 16:29:43)