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Journal Dynamics of Complex Systems - XXI century №5 for 2014 г.
Article in number:
Modeling of electronic circuits using functional series
Authors:
I.E. Zhigalov - Dr.Sc.(Eng.), Professor, Vladimir State University named after A.&N. Stoletovs. E-mail: ikgij@vlsu.ru
M.I.Ozerova - Ph.D.(Eng.), Vladimir State University named after A.&N. Stoletovs. E-mail: ozerovam@rambler.ru
I.A.Novikov - Post-graduate student, Vladimir State University named after A.&N. Stoletovs. E-mail: anvi.x11@gmail.com
Abstract:
It is considered the approach to the modeling of electronic circuits using functional series. This representation allows us to develop a unified approach to the modeling of devices in the computer-aided design of systems with complex nonlinear relationships between functional blocks.
Modeling of complex electronic devices involves the compilation and analysis of the model in the form of a set of functional blocks with different description. The approach to computer-aided design of nonlinear circuits using the device\'s functional series as the methodological framework is developed in this work. This representation allows us to develop a uniform methodology for the simulation of electronic circuits in the design of systems with complex nonlinear relationships between functional blocks. Application of this approach requires a generalized methods of formalization of the model of the device in terms of the functional series with its known limitations.
The objective of this paper is to propose methods of description and study of models of nonlinear electronic circuits based on their generalized view of functional series.
The paper considers a generalized representation of the model of the nonlinear circuits in the form of a functional series for modeling tasks. Circuits with one-input linearized functional blocks are taken as an example to shown that this representation allows a compact form to describe any configuration of electronic circuits, and the transfer matrix of the model is the basis for formation and ranking of matrix equations of the circuit.
Pages: 16-22
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