Title :
Power semiconductor devices-examination of subcycle surge current ratings as needed for fuse selection
Author :
Eriksson, L.O. ; Piccone, D.E. ; Willinger, L.J. ; Tobin, W.H.
Author_Institution :
Silicon Power Corp., Malvern, PA, USA
Abstract :
It is well recognized that subcycle Irms2t ratings for high power semiconductor devices and current limiting fuses are not equivalent because the former are based on single half sine waves while the latter are based on near triangular waves as associated with current interruption. Also the difference becomes more pronounced for thyristors as opposed to rectifier diodes due to the finite spreading rate of the turned on region which produces additional heating effects. Although the published characteristics and application data from fuse manufacturers are usually adequate, the circuit designer may find difficulty applying this information to that of the power semiconductor device. This paper examines concepts for determining reliable subcycle surge ratings including proof testing the highest power “state of the art” thyristors and makes recommendation for improvement and economizing of testing
Keywords :
current limiters; electric fuses; overcurrent protection; power semiconductor devices; semiconductor device testing; surge protection; current interruption; current limiting fuses; finite spreading rate; fuse selection; half sine waves; power semiconductor devices; proof testing; rectifier diodes; state of the art; subcycle Irms2t ratings; subcycle surge current ratings; thyristors; triangular waves; turned on region; Circuit testing; Current limiters; Fuses; Heating; Power semiconductor devices; Rectifiers; Semiconductor device manufacture; Semiconductor diodes; Surges; Thyristors;
Conference_Titel :
Industry Applications Society Annual Meeting, 1994., Conference Record of the 1994 IEEE
Conference_Location :
Denver, CO
Print_ISBN :
0-7803-1993-1
DOI :
10.1109/IAS.1994.377593
