Step response of a second-order digital filter with two’s complement arithmetic

Ling, Bingo Wing-Kuen and Tam, Peter Kwong-Shun and Yu, Xinghuo (2003) Step response of a second-order digital filter with two’s complement arithmetic. IEEE Transactions on Circuits and Systems I: Fundamental Theory and Applications, 50 (4). pp. 510-522. ISSN UNSPECIFIED

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Official URL: http://dx.doi.org/10.1109/TCSI.2003.809814

Abstract

It is well known that the autonomous response of a second-order digital filter with two’s complement arithmetic may exhibit chaotic behaviors [1]. In this paper, results of the step response case are presented. Even though in the presence of the overflow nonlinearity, it is found that the step response behaviors can be related to some corresponding autonomous response behaviors by means of an appropriate affine transformation. Based on this method, some differences between the step response and the autonomous response are explored. The effects of the filter parameter and input step size on the trajectory behaviors are presented. Some previous necessary conditions for the trajectory behaviors, initial conditions and symbolic sequences are extended and strengthened to become necessary and sufficient conditions. Based on these necessary and sufficient conditions, some counter-intuitive results are reported. For example, it is found that for some sets of filter parameter values, the system may exhibit the type I trajectory even when a large input step size is applied and overflow occurs. On the other hand, for some sets of filter parameter values, the system will not give the type I trajectory for any small input step size, no matter what the initial conditions are.

Item Type:Article
Additional Information:(c) 2003 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other users
Keywords:autonomous response, second-order digital filter with two’s complement arithmetic, chaotic behavior, symbolic sequences, affine transformation
Subjects:H Engineering > H620 Electrical Engineering
H Engineering > H310 Dynamics
Divisions:College of Science > School of Engineering
ID Code:2622
Deposited By: Rosaline Smith
Deposited On:09 Jun 2010 13:12
Last Modified:05 Jun 2013 15:17

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