Title :
Effect of harmonic currents on semiconductor fuse ratings
Author :
Wilkins, R. ; de Palma, J.F. ; Mulertt, C.
Abstract :
In power electronic applications, proximity and skin effects cause an increase in the resistance of fuse elements and possible unequal sharing of the total current between multiple parallel elements. In this paper the current density distribution is calculated for typical arrangements of fuse strips as a function of frequency, and methods of de-rating the fuse are discussed. The calculations are done using an equivalent wire-grid array method. De-rating factors are calculated for sinusoidal and some nonsinusoidal waveforms commonly found in power electronic applications. The implications for the design of semiconductor fuses for HF applications are also considered.
Keywords :
current density; current distribution; electric fuses; electric resistance; harmonics; power semiconductor devices; skin effect; HF applications; current density distribution; equivalent wire-grid array method; fuse de-rating; fuse element resistance; harmonic currents effects; multiple parallel elements; nonsinusoidal waveforms; power electronic applications; proximity effects; semiconductor fuse ratings; semiconductor fuses design; sinusoidal waveforms; skin effects; total current sharing; unequal current sharing; Current density; Frequency; Fuses; Power electronics; Proximity effect; Semiconductor device testing; Silver; Skin effect; Strips; Wire;
Conference_Titel :
Industry Applications Conference, 2001. Thirty-Sixth IAS Annual Meeting. Conference Record of the 2001 IEEE
Conference_Location :
Chicago, IL, USA
Print_ISBN :
0-7803-7114-3
DOI :
10.1109/IAS.2001.955970
