• DocumentCode
    1493245
  • Title

    Computational estimation of ESD conditions between a charged body and a conductor of floating potential

  • Author

    Dascalescu, Lucian ; Ribardière, Patrick ; Paillot, Jean-Marie ; Allam, Rachid

  • Author_Institution
    Lab. d´´Autom. et d´´Inf. Ind., Equipe Electron. et Electrostatique, Angouleme, France
  • Volume
    37
  • Issue
    3
  • fYear
    2001
  • Firstpage
    759
  • Lastpage
    765
  • Abstract
    This paper examines the conditions in which a discharge occurs between a charged body and a floating conductor, in air, at atmospheric pressure. The study, which was primarily aimed at simulating a class of hazardous situations quite often met in the operation of electronic circuits, is also of interest to those involved in the research and development of electrostatic technologies for processing of particulate matter: separation of granular mixtures, precipitation of dust, and spraying of powders. The boundary-element method was employed for the analysis of the electric field in the gap between the charged body and the conductive disk at floating potential, located above a grounded plate. The computations were carried out for bodies of various shapes and sizes; some of them addressed the case of a grounded plate covered with an insulating layer of known permittivity. The data on field distribution represented the input data of another program, which estimated the breakdown conditions of that air gap. The study enabled the estimation of the energy involved in this type of electrostatic discharge and the prediction of the related hazards
  • Keywords
    boundary-elements methods; conductors (electric); electric charge; electric fields; electrostatic discharge; separation; ESD conditions; charged body; computational estimation; dust precipitation; electronic circuits; electrostatic discharge; electrostatic technologies; floating potential conductor; granular mixtures separation; hazardous situations; particulate matter processing; powder spraying; research and development; Atmospheric modeling; Circuit simulation; Computational modeling; Conductors; Electronic circuits; Electrostatic discharge; Powders; Research and development; Shape; Spraying;
  • fLanguage
    English
  • Journal_Title
    Industry Applications, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0093-9994
  • Type

    jour

  • DOI
    10.1109/28.924756
  • Filename
    924756