Detail publikace

ANALYSIS of CHAOS in PWM-BASED ELECTRICAL DRIVE with CASCADE CONTROL

Originální název

ANALYSIS of CHAOS in PWM-BASED ELECTRICAL DRIVE with CASCADE CONTROL

Anglický název

ANALYSIS of CHAOS in PWM-BASED ELECTRICAL DRIVE with CASCADE CONTROL

Jazyk

en

Originální abstrakt

Chaotic behavior in a PWM -based electrical drive with cascade closed-loop control in analyzed. It is shown that such a system exhibits chaos for a widw range of parameters variations.By means of numerical computation several types of system behavior are studied, and corresponding bifurcation diagrams are derived. The diagrams that reflect system behavior depend on two bifurcation parameters have been calculated as well.The corresponding phase orbits and time-domain plots are presented. The results may be of interest to scientists and engineers who deal with high-accuracy electromechanical systems and electrical drives.

Anglický abstrakt

Chaotic behavior in a PWM -based electrical drive with cascade closed-loop control in analyzed. It is shown that such a system exhibits chaos for a widw range of parameters variations.By means of numerical computation several types of system behavior are studied, and corresponding bifurcation diagrams are derived. The diagrams that reflect system behavior depend on two bifurcation parameters have been calculated as well.The corresponding phase orbits and time-domain plots are presented. The results may be of interest to scientists and engineers who deal with high-accuracy electromechanical systems and electrical drives.

BibTex


@inproceedings{BUT6147,
  author="Josef {Koláčný}",
  title="ANALYSIS of CHAOS in PWM-BASED ELECTRICAL DRIVE with CASCADE CONTROL",
  annote="Chaotic behavior in a PWM -based electrical drive with cascade closed-loop control in analyzed. It is shown that such a system exhibits chaos for a widw range of parameters variations.By means of numerical computation several types of system behavior are studied, and corresponding bifurcation diagrams are derived. The diagrams that reflect system behavior depend on two bifurcation parameters have been calculated as well.The corresponding phase orbits and time-domain plots are presented. The results may be of interest to scientists and engineers who deal with high-accuracy electromechanical systems and electrical drives.",
  address="BRNO UNIVERSITY OF TECHNOLOGY
FACULTY OF MECHANICAL ENGINEERING
Institute of Automation and Computer Science",
  booktitle="MENDEL 2001",
  chapter="6147",
  institution="BRNO UNIVERSITY OF TECHNOLOGY
FACULTY OF MECHANICAL ENGINEERING
Institute of Automation and Computer Science",
  year="2001",
  month="june",
  pages="170",
  publisher="BRNO UNIVERSITY OF TECHNOLOGY
FACULTY OF MECHANICAL ENGINEERING
Institute of Automation and Computer Science",
  type="conference paper"
}