• DocumentCode
    2183560
  • Title

    Energy radiated by the switching of currents in a system of conductors

  • Author

    Mrozynski, Gerd

  • fYear
    2000
  • fDate
    2000
  • Firstpage
    47
  • Lastpage
    52
  • Abstract
    The calculation of transient electromagnetic fields is becoming more important future because of the increasing demands on system design under EMC-constraints. The switching of currents in a system of conductors is especially crucial because a transient wave is stimulated in the nonconducting environment which can be responsible for the default of electronic systems. The total energy which is radiated by the transient wave can be calculated by integrating the Poynting vector over an appropriate closed surface and over the time interval between the switching moment and infinity. The calculation of the total energy radiated by a switching process can be simplified by applying the principle of conservation of energy. As a consequence only the energy which is dissipated in the conducting space during the transient current distribution after the moment of switching has to be calculated. The applicability is shown for two examples. In the first one a permeable and conducting hollow sphere is exposed to the transient field of a current of arbitrary time dependence flowing in a loop of arbitrary shape. In the second, a continuous current flowing in a homogeneous two wire loop in parallel with a solid conductor of rectangular cross section is switched off. At the moment of switching a part of the energy of the nonconducting space is transferred by a guided wave. The remaining energy can be calculated from the current sheet which is excited on the conductor´s surface at the moment of switching. This part of the energy is dissipated in the material during the following transient current distribution
  • Keywords
    conductors (electric); current distribution; electromagnetic compatibility; electromagnetic fields; electromagnetic interference; switching; EMC-constraints; Poynting vector integration; closed surface; conducting hollow sphere; conducting space; conductor surface; conductors; continuous current; currents switching; electronic systems; energy conservation; energy dissipation; guided wave; homogeneous two wire loop; nonconducting environment; nonconducting space; permeable hollow sphere; radiated energy; rectangular cross section; solid conductor; switching moment; time interval; transient current distribution; transient electromagnetic fields; transient wave; Conducting materials; Conductors; Current distribution; Electromagnetic fields; Electromagnetic transients; H infinity control; Shape; Solids; Surface waves; Wire;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Environmental Electromagnetics, 2000. CEEM 2000. Proceedings. Asia-Pacific Conference on
  • Conference_Location
    Shanghai
  • Print_ISBN
    7-5635-0420-6
  • Type

    conf

  • DOI
    10.1109/CEEM.2000.853896
  • Filename
    853896