• DocumentCode
    2080316
  • Title

    Simplified analytic study of the HBC fuse ability to withstand induction motor start cycles

  • Author

    Gómez, Juan C. ; Principi, Mauricio ; Perez, Cristian

  • Author_Institution
    Eng. Fac., Nat. Univ. of Rio Cuarto, Argentina
  • Volume
    3
  • fYear
    2000
  • fDate
    23-27 Jan 2000
  • Firstpage
    2150
  • Abstract
    One of the main causes of unexpected and incorrect operation of the high breaking capacity medium voltage fuses protecting induction motors is the aging originated in the start cycles. Up to now the main source of information to keep in mind the start cycle consists in graphic or charts given by the fuse makers for a reduced number of start typical conditions, smaller times to 6 s, 15 s and not bigger than 60 s, with start numbers from 2 to 32 per hour. If the cycle in the study differs from those mentioned, the user is forced to make extrapolations without too much knowledge on the consequences of the same. The under study phenomenon of aging takes place for the well known process of mechanical fatigue, originated by the compression and traction stresses, due to the increases and descents of temperature of the fuse elements during the start cycles. A simple analytic method was developed based on the start and off-start currents and the duration of the diverse cycles that it allows, in order to predict the maximum and minimum temperature that will be reached. Such temperatures by means of their comparison with temperature corresponding to the factor K of the Standard IEC 644 and their extension to other conditions different from the one normalized, allows the calculation in order to guarantee the fuse operation fret of aging. The method was experimentally tested on fusible of 125 A, 2.3 kV with very good results. Besides, was used to verify its application to cases mentioned in the specific references. Their practical employment is direct from the information usually given by the fuse maker, that is to say having the characteristic curve current-time and the K mentioned factor. The method can be extended to other applications of fuses with recurrent load, as it is the case of other protection of power semiconductors
  • Keywords
    electric fuses; induction motors; machine theory; motor protection; 125 A; 15 s; 2.3 kV; 6 s; HBC fuse ability; K mentioned factor; Standard IEC 644; aging; analytical study; breaking capacity; characteristic curve current-time; extrapolation; induction motor start cycles; mechanical fatigue; medium voltage fuses; power semiconductor protection; Aging; Extrapolation; Fuses; Graphics; IEC standards; Induction motors; Information resources; Medium voltage; Protection; Temperature;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Power Engineering Society Winter Meeting, 2000. IEEE
  • Print_ISBN
    0-7803-5935-6
  • Type

    conf

  • DOI
    10.1109/PESW.2000.847686
  • Filename
    847686