Publication detail

Equivalent RLC Circuits of the Second-Order Dynamical. Systems with PWL Controlled Sources.

POSPÍŠIL, J., KOLKA, Z., HANUS, S., BRZOBOHATÝ, J., DOSTÁL, T.

Original Title

Equivalent RLC Circuits of the Second-Order Dynamical. Systems with PWL Controlled Sources.

English Title

Equivalent RLC Circuits of the Second-Order Dynamical. Systems with PWL Controlled Sources.

Type

conference paper

Language

en

Original Abstract

Complementary active RLC circuit models with a voltage-controlled voltage-source (VCVS) and a current-controlled current-source (CCCS) for the second-order autonomous dynamical system realization are proposed. The main advantage of these equivalent circuits is simple relation between the state model parameters and their corresponding circuit parameters, which leads also to simple design formulas.

English abstract

Complementary active RLC circuit models with a voltage-controlled voltage-source (VCVS) and a current-controlled current-source (CCCS) for the second-order autonomous dynamical system realization are proposed. The main advantage of these equivalent circuits is simple relation between the state model parameters and their corresponding circuit parameters, which leads also to simple design formulas.

Keywords

RLC circuit models, dynamical systems

RIV year

2004

Released

01.02.2004

Publisher

IASTED

Location

Gründelwald

ISBN

0-88986-387-3

Book

Proc. of the IASTED International Conference Modelling, Identification and Control (MIC'2004)

Pages from

212

Pages to

215

Pages count

4

Documents

BibTex 


@inproceedings{BUT12645,
  author="Jiří {Pospíšil} and Zdeněk {Kolka} and Stanislav {Hanus} and Jaromír {Brzobohatý} and Tomáš {Dostál}",
  title="Equivalent RLC Circuits of the Second-Order Dynamical. Systems with PWL Controlled Sources.",
  annote="Complementary active RLC circuit models with a voltage-controlled voltage-source
(VCVS) and a current-controlled current-source (CCCS) for the second-order
autonomous dynamical system realization are proposed. The main advantage of
these equivalent circuits is simple relation between the state model parameters and
their corresponding circuit parameters, which leads also to simple design formulas.",
  address="IASTED",
  booktitle="Proc. of the IASTED International Conference Modelling, Identification and Control (MIC'2004)",
  chapter="12645",
  institution="IASTED",
  year="2004",
  month="february",
  pages="212",
  publisher="IASTED",
  type="conference paper"
}