Detail publikace

Frequency-domain steady-state analysis of circuits with mem-elements

Originální název

Frequency-domain steady-state analysis of circuits with mem-elements

Anglický název

Frequency-domain steady-state analysis of circuits with mem-elements

Jazyk

en

Originální abstrakt

The paper deals with frequency-domain models of memristor, memcapacitor, and meminductor, and their use in the steady-state analysis by means of the harmonic-balance method. The models are based on a polynomial approximation of constitutive relations, allowing analytical formulation of relations between the spectral components of stimulus and response, for both periodic and quasi-periodic steady-state conditions. The method does not require transforming signals between the time and the frequency domains to obtain the mem-element response. Examples of the analysis of a mem-resonance circuit with long settling time and the HP memristor with nonlinear dopant drift are presented.

Anglický abstrakt

The paper deals with frequency-domain models of memristor, memcapacitor, and meminductor, and their use in the steady-state analysis by means of the harmonic-balance method. The models are based on a polynomial approximation of constitutive relations, allowing analytical formulation of relations between the spectral components of stimulus and response, for both periodic and quasi-periodic steady-state conditions. The method does not require transforming signals between the time and the frequency domains to obtain the mem-element response. Examples of the analysis of a mem-resonance circuit with long settling time and the HP memristor with nonlinear dopant drift are presented.

BibTex


@article{BUT94908,
  author="Zdeněk {Kolka} and Dalibor {Biolek} and Viera {Biolková}",
  title="Frequency-domain steady-state analysis of circuits with mem-elements",
  annote="The paper deals with frequency-domain models of memristor, memcapacitor, and meminductor, and their use in the steady-state analysis by means of the harmonic-balance method. The models are based on a polynomial approximation of constitutive relations, allowing analytical formulation of relations between the spectral components of stimulus and response, for both periodic and quasi-periodic steady-state conditions. The method does not require transforming signals between the time and the frequency domains to obtain the mem-element response. Examples of the analysis of a mem-resonance circuit with long settling time and the HP memristor with nonlinear dopant drift are presented.",
  address="Springer",
  chapter="94908",
  institution="Springer",
  number="1",
  volume="74",
  year="2013",
  month="january",
  pages="79--89",
  publisher="Springer",
  type="journal article - other"
}