Title :
Arc mobility on new and eroded Ag/CdO and Ag/SnO/sub 2/ contacts
Author :
Manhart, H. ; Rieder, Werner ; Veit, Chkistian
Author_Institution :
Dept. of Switching Devices, Tech. Univ. of Vienna, Austria
fDate :
3/1/1989 12:00:00 AM
Abstract :
The mobility of break arcs in a magnetic blast field was investigated in both a model switch and a commercial contactor. After contact separation, three arc motion phenomena were measured independently: initial reduced arc motion (immobility and creeping), subsequent running, and final commutation from the contacts to the arc runners. Contacts made from Ag/CdO and from Ag/SnO/sub 2/ were compared in both initial and eroded states. The time of reduced arc motion was much shorter on uneroded Ag/SnO/sub 2/ than on uneroded Ag/CdO contacts, especially at low values of current and magnetic induction. Ag/SnO/sub 2/ contacts lost their superiority during their life when stressed according to AC-4 duty. Arc running velocity was independent of the material but considerably increased with increasing electrode distance. The commutation time was significantly higher on uneroded Ag/SnO/sub 2/ than on uneroded Ag/CdO contacts. After AC-4 erosion rounded the edges of Ag/SnO/sub 2/, the commutation time decreased to the unaltered value of Ag/CdO.<>
Keywords :
cadmium compounds; circuit-breaking arcs; contactors; silver alloys; tin compounds; AC-4 duty; Ag-CdO contacts; Ag-SnO/sub 2/ contacts; arc mobility; arc motion phenomena; arc running velocity; circuit breaking arcs; commercial contactor; commutation time; commutation to arc runners; contact separation; electrode distance; eroded contacts; initial reduced arc motion; magnetic blast field; model switch; new contacts; Contacts; Copper; Electrodes; IEC; Magnetic field measurement; Magnetic separation; Magnetic switching; Motion measurement; Switches; Testing;
Journal_Title :
Components, Hybrids, and Manufacturing Technology, IEEE Transactions on
