Title :
Modeling of low inductive busbar connections
Author :
Schanen, J.L. ; Clavel, E. ; Roudet, James
Author_Institution :
Lab. d´´Electrotechnique de Grenoble, ENSIEG, St. Martin d´´Heres, France
Abstract :
The high power levels required by many power electronic applications well as the very low switching times encountered in new semiconductor devices have created a need for low wiring inductances. The busbar technology is an effective industrial way to reduce the interconnection inductance between (for instance) the feeding source and the converter. It consists of a stacking of several copper sheets, each separated from the other by a dielectric. The connections between these sheets and the different devices are made with screws. The authors present a way of modeling a busbar. Using a simulation tool, InCa, dedicated to inductance and resistance calculations, it is possible to obtain the L, R equivalent circuit of a busbar. Moreover, it allows the determination of the current density in any cross section of any busbar sheet. In order to validate the modeling, a chopper structure using this kind of connection has been realized and measurements have been made
Keywords :
busbars; choppers (circuits); electric connectors; electric resistance; equivalent circuits; inductance; power electronics; simulation; InCa simulation tool; L, R equivalent circuit; busbar modelling; chopper structure; copper sheets; current density; dielectric; inductance calculation; interconnection inductance reduction; low inductive busbar connections; low wiring inductances; power electronic applications; resistance calculation; screws; semiconductor devices; very low switching times; Copper; Dielectrics; Fasteners; Inductance; Integrated circuit interconnections; Power electronics; Power semiconductor switches; Semiconductor devices; Stacking; Wiring;
Journal_Title :
Industry Applications Magazine, IEEE
DOI :
10.1109/2943.532153
