• DocumentCode
    1346867
  • Title

    Investigation of arcing effects during contact blow open process

  • Author

    Zhou, Xin ; Theisen, Peter

  • Author_Institution
    Eaton Corp., Milwaukee, WI, USA
  • Volume
    23
  • Issue
    2
  • fYear
    2000
  • fDate
    6/1/2000 12:00:00 AM
  • Firstpage
    271
  • Lastpage
    277
  • Abstract
    A theoretical model has been developed to simulate the blow open process considering contact constriction force, contact spring force, and plasma pressure. Meanwhile, monochromatic high speed imaging technique has been used to characterize arc behavior, contact vapor distribution and determine contact blow open gaps. Modeling results are in good agreement with test results. The results show that plasma pressure has a significant effect at the initial arcing stage of a blow open process, but it decreases rapidly due to the increase of arc gap and the gas pressure equilibrium around moving contacts. The plasma pressure and the contact spring force (or applied magnetic force) basically determine the arcing time during the blow open process. However, contacts can be held open by plasma pressure till current zero if piston type arc chamber is employed. Higher contact spring force results in shorter arcing time, higher arcing current and more likely leads to contact weld. Due to the fact of arc pressure decreasing rapidly during the blow open process, the blow open contact gap is less than 2.5 mm for all the contactors tested at the blow open current level. The results indicate that larger allowed arc gap does not necessarily reduce contact weld possibility, since other factors such as arc motion and heat conduction through contacts also have strong influence on contact weld
  • Keywords
    circuit-breaking arcs; contactors; short-circuit currents; arc gap; arcing effects; contact blow open process; contact constriction force; contact spring force; contact vapor distribution; contact weld; contactors; gas pressure equilibrium; heat conduction; initial arcing stage; monochromatic high speed imaging technique; moving contacts; piston type arc chamber; plasma pressure; Bridge circuits; Contactors; Contacts; Magnetic forces; Magnetic separation; Plasma simulation; Springs; Temperature; Testing; Welding;
  • fLanguage
    English
  • Journal_Title
    Components and Packaging Technologies, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    1521-3331
  • Type

    jour

  • DOI
    10.1109/6144.846764
  • Filename
    846764