Detail publikace

Utilization of DVCC element for modeling driven nonlinear dynamics

Originální název

Utilization of DVCC element for modeling driven nonlinear dynamics

Anglický název

Utilization of DVCC element for modeling driven nonlinear dynamics

Jazyk

en

Originální abstrakt

Recent studies aimed to the synthesis of nonlinear dynamics reveal a possibility to significantly minimize the total number of active as well as passive circuit elements by using some modern building blocks. In this brief paper it is shown that one of the most suitable is device called differential voltage current conveyor. Several network structures of the second-order non-autonomous deterministic chaotic dynamical systems have been derived and verified by the detailed Orcad Pspice circuit simulations. Although each active device is considered as a level two model there is a strong reason to believe that the proposed two-ports will work properly also in the case of transistor-level model or if utilizing the real integrated circuit in order to make practical experiments.

Anglický abstrakt

Recent studies aimed to the synthesis of nonlinear dynamics reveal a possibility to significantly minimize the total number of active as well as passive circuit elements by using some modern building blocks. In this brief paper it is shown that one of the most suitable is device called differential voltage current conveyor. Several network structures of the second-order non-autonomous deterministic chaotic dynamical systems have been derived and verified by the detailed Orcad Pspice circuit simulations. Although each active device is considered as a level two model there is a strong reason to believe that the proposed two-ports will work properly also in the case of transistor-level model or if utilizing the real integrated circuit in order to make practical experiments.

BibTex


@inproceedings{BUT115240,
  author="Jiří {Petržela}",
  title="Utilization of DVCC element for modeling driven nonlinear dynamics",
  annote="Recent studies aimed to the synthesis of nonlinear dynamics reveal a possibility to significantly minimize the total number of active as well as passive circuit elements by using some modern building blocks. In this brief paper it is shown that one of the most suitable is device called differential voltage current conveyor. Several network structures of the second-order non-autonomous deterministic chaotic dynamical systems have been derived and verified by the detailed Orcad Pspice circuit simulations. Although each active device is considered as a level two model there is a strong reason to believe that the proposed two-ports will work properly also in the case of transistor-level model or if utilizing the real integrated circuit in order to make practical experiments.",
  booktitle="Proceedings of 28th International Conference Telecommunications and Signal Processing TSP 2015",
  chapter="115240",
  doi="10.1109/TSP.2015.7296277",
  howpublished="electronic, physical medium",
  year="2015",
  month="july",
  pages="325--329",
  type="conference paper"
}