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2.9 z-TRANSFORMS


For a discrete-time signal , the two-sided z-transform is defined by . The one-sided z-transform is defined by . In both cases, the z-transform is a polynomial in the complex variable .

The inverse z-transform is obtained by contour integration in the complex plane . This is usually avoided by partial fraction inversion techniques, similar to the Laplace transform.

Along with a z-transform we associate its region of convergence (or ROC). These are the values of for which is bounded (i.e., of finite magnitude).

Some common z-transforms are shown below.
Table 1: Common z-transforms
Signal
z-Transform
ROC
1
All

The z-transform also has various properties that are useful. The table below lists properties for the two-sided z-transform. The one-sided z-transform properties can be derived from the ones below by considering the signal instead of simply .
Table 2: Two-sided z-Transform Properties
Property
Time Domain
z-Domain
ROC
Notation






Linearity
At least the intersection of and
Time Shifting
That of , except if and if
z-Domain Scaling
Time Reversal
z-Domain
Differentiation
Convolution
At least the intersection of and
Multiplication
At least
Initial value theorem
causal
 

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