19.5:

Inverse z-Transform by Partial Fraction Expansion

JoVE Core
Electrical Engineering
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JoVE Core Electrical Engineering
Inverse z-Transform by Partial Fraction Expansion

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01:20 min

September 26, 2024

The inverse z-transform is a crucial technique for converting a function from its z-domain representation back to the time domain. One effective method for finding the inverse z-transform is the Partial Fraction Method, which involves decomposing a function into simpler fractions with distinct coefficients. These fractions correspond to known z-transform pairs, facilitating the inverse transformation process.

To begin the process, the poles of the function are identified and the function is expressed in terms of these poles. Each pole contributes a term to the partial fraction decomposition. The coefficients for each term in the decomposition are determined by evaluating the residues at each pole.

Once the coefficients are determined, the function is reassembled in its decomposed form, making it simpler to work with. The inverse z-transform is then applied to each fractional term separately. The result combines delta functions, exponential sequences, and step functions representing the original time-domain sequence.

Using the Partial Fraction Method, the inverse z-transform of complex functions becomes more manageable, allowing for accurate conversion back to the time domain. This method ensures that each component of the decomposed function is correctly transformed, resulting in a precise reconstruction of the original sequence.