Title :
Hybrid modeling techniques for multilayered printed circuit board in power electronics: association of electromagnetic methods
Author :
Guéna, Arnaud ; Costa, François ; Labarre, Cécile
Author_Institution :
SATIE Lab., Cachan, France
Abstract :
With the fast development of power electronics circuits at increasing switching frequency (over 10 MHz), the multilayered printed circuits boards (PCBs) are being used more and more in the field of power electronics. In this paper, two main computational methods are presented to simulate the dynamic behavior of power electronics interconnection systems. Our aim is to present a methodology to analyze the electromagnetic (EM) behavior of power PCB regarding parasitic effects ( EM couplings) or dynamic effects (impedance): a general procedure is given to calculate EM couplings between strip conductors in multilayered configurations based on the principle of hybrid methods. Finally, we propose a new method to limit computation time based on matrix sparsification.
Keywords :
electric impedance; electromagnetic compatibility; electromagnetic coupling; interconnected systems; power electronics; printed circuits; sparse matrices; EM coupling; EMC; dynamic effect; electromagnetic compatibility; electromagnetic method; hybrid modeling technique; interconnection impedance; matrix Sparsification; multilayered printed circuit board; parasitic effect; power electronic circuit; power electronics interconnection system; strip conductor; thin-wire method; Circuit simulation; Computational modeling; Electromagnetic analysis; Electromagnetic coupling; Electromagnetic modeling; Integrated circuit interconnections; Power electronics; Power system interconnection; Printed circuits; Switching frequency; 65; Distributed model; PCBs; PEEC; TWM; hybrid methods; modeling; partial element equivalent circuit; power electronics; printed circuits boards; thin-wire method;
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
DOI :
10.1109/TEMC.2004.837679
