The topography of zeros and poles of a third order IIR digital filter with finite word length in the z-plane

Earlier it was found that the zeros and poles of IIR digital filters with finite word length are elements of the set of algebraic numbers. Therefore, not every point of the unit circle of the z-plane can be a zero and / or a pole of such digital filters. The position of admissible positions for zero...

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Bibliographic Details
Published in:Microprocessors and microsystems 2022-06, Vol.91, p.104529, Article 104529
Main Authors: Lesnikov, V., Naumovich, T., Chastikov, A.
Format: Article
Language:English
Subjects:
Algebra
Algebraic numbers
Digital filters
Discretization
IIR filters
Plane algebraic curves
Pole and zero distribution
Poles
Possible pole-zero locations
Quantization of pole locations
Representation of the pole-zero density
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Summary:Earlier it was found that the zeros and poles of IIR digital filters with finite word length are elements of the set of algebraic numbers. Therefore, not every point of the unit circle of the z-plane can be a zero and / or a pole of such digital filters. The position of admissible positions for zeros and poles depends on the degree of algebraic numbers and the length of the fractional part of the coefficients of the equivalent canonical structure of the corresponding order. The formation of the corresponding configurations is considered as a z-plane discretization due to the quantization of the filter coefficients. The z-plane discretization for second-order filters has been well studied. The geometric locus of the corresponding algebraic numbers is a system of concentric circles, that is, plane algebraic curves of the second degree. This paper presents the results of studying the geometrical place of the third order IIR filter zeros and poles.
ISSN:0141-9331
1872-9436
DOI:10.1016/j.micpro.2022.104529