Detail publikace

Nonlinear circuit synthesis using Mathcad

Originální název

Nonlinear circuit synthesis using Mathcad

Anglický název

Nonlinear circuit synthesis using Mathcad

Jazyk

en

Originální abstrakt

This article shows the possible utilization of Mathcad for the synthesis of the nonlinear circuits. Assuming that the mathematical model is given the entire process of developing the associated electronic realization can be done by using Mathcad build-in procedures and functions. This program is especially useful from the viewpoint of studying eigenvalue migration with respect to the parameters of the dynamical system, if making a tolerance analysis and circuit synthesis, calculating Ljapunov exponents, performing one or two-dimensional FFT, viewing Poincaré sections and one-dimensional bifurcation diagrams, etc. These routines will be described by means of the practical example, namely for the design of third-order chaotic oscillator.

Anglický abstrakt

This article shows the possible utilization of Mathcad for the synthesis of the nonlinear circuits. Assuming that the mathematical model is given the entire process of developing the associated electronic realization can be done by using Mathcad build-in procedures and functions. This program is especially useful from the viewpoint of studying eigenvalue migration with respect to the parameters of the dynamical system, if making a tolerance analysis and circuit synthesis, calculating Ljapunov exponents, performing one or two-dimensional FFT, viewing Poincaré sections and one-dimensional bifurcation diagrams, etc. These routines will be described by means of the practical example, namely for the design of third-order chaotic oscillator.

BibTex


@inproceedings{BUT29119,
  author="Jiří {Petržela}",
  title="Nonlinear circuit synthesis using Mathcad",
  annote="This article shows the possible utilization of Mathcad for the synthesis of the nonlinear circuits. Assuming that the mathematical model is given the entire process of developing the associated electronic realization can be done by using Mathcad build-in procedures and functions. This program is especially useful from the viewpoint of studying eigenvalue migration with respect to the parameters of the dynamical system, if making a tolerance analysis and circuit synthesis, calculating Ljapunov exponents, performing one or two-dimensional FFT, viewing Poincaré sections and one-dimensional bifurcation diagrams, etc. These routines will be described by means of the practical example, namely for the design of third-order chaotic oscillator.",
  booktitle="Proceedings of 7th International Conference on Soft Computing Applied in Computer and Economic Environment",
  chapter="29119",
  howpublished="electronic, physical medium",
  year="2009",
  month="february",
  pages="1--5",
  type="conference paper"
}