InCa3D is a simulation tool dedicated to electrical connection modelling for both:

  • Electromagnetic compatibility[1][2]
  • Power electronics

The software employs finite element analysis based on the PEEC Partial element equivalent circuit method [3] which proved to be efficient to solve Maxwell's equations in low and middle frequency, thanks to its ability to convert interconnections geometry into equivalent RLC circuit,[4] thus avoiding polygonal meshing of the air around the device.

InCa3D is developed in France (in collaboration with G2ELab) and distributed by Altair Engineering Inc.[5]

Power module modelisation with InCa3D
Power module modelisation with InCa3D
Magnetic field computation on distribution bars with InCa3D
Magnetic field computation on distribution bars with InCa3D

Main application fields

InCa3D is well suited for modelling the behaviour of various connectors,

  • from ICs, small wire bonds and PCBs tracks,
  • up to bus bars, power modules and large distribution switchboards.

References

  1. EMC Modeling of an Industrial Variable Speed Drive With an Adapted PEEC Method IEEE Magnetics Society, Aug. 2010]
  2. EMC analysis of static converters by the extraction of a complete equivalent circuit via a dedicated PEEC method 8th International Symposium on Electric and Magnetic Fields, Mondovi : Italy (2009)]
  3. A. E. Ruehli: Equivalent Circuit Models for Three-Dimensional Multiconductor Systems, IEEE Transactions on Microwave Theory and Techniques, Vol. 22 (1974), Nr. 3
  4. MoM and PEEC Method to Reach a Complete Equivalent Circuit of a Static Converter 2009 20th International Zurich Symposium, Jan. 2009]
  5. MoM and PEEC Method to Reach a Complete Equivalent Circuit of a Static Converter, 2009 20th International Zurich Symposium, Jan. 2009

Partial element equivalent circuit method
Busbar Design: How to Spare Nanohenries ?

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