Detail publikace

Power-Bus Modeling Using 2D-Integral-Equation Formulation

ŠTUMPF, M. LEONE, M. KROENING, O.

Originální název

Power-Bus Modeling Using 2D-Integral-Equation Formulation

Anglický název

Power-Bus Modeling Using 2D-Integral-Equation Formulation

Jazyk

en

Originální abstrakt

The application of a 2D contour integral-equation method (CIM) in the frequency domain for the simulation of arbitrarily shaped power-bus structures is presented. The voltage/current relations between an arbitrary numbers of ports are computed through the CIM and subsequently used for the circuit level simulations to obtain the impedance characteristics of a populated board. The presented numerical approach is also capable to provide the frequency dependence of the voltage distribution between the planes, as well as the radiated emission, based on the application of the field-equivalence principle. The results are well confirmed by measurements results.

Anglický abstrakt

The application of a 2D contour integral-equation method (CIM) in the frequency domain for the simulation of arbitrarily shaped power-bus structures is presented. The voltage/current relations between an arbitrary numbers of ports are computed through the CIM and subsequently used for the circuit level simulations to obtain the impedance characteristics of a populated board. The presented numerical approach is also capable to provide the frequency dependence of the voltage distribution between the planes, as well as the radiated emission, based on the application of the field-equivalence principle. The results are well confirmed by measurements results.

Dokumenty

BibTex


@inproceedings{BUT27531,
  author="Martin {Štumpf} and Marco {Leone} and Oliver {Kroening}",
  title="Power-Bus Modeling Using 2D-Integral-Equation Formulation",
  annote="The application of a 2D contour integral-equation method (CIM) in the frequency domain for the simulation of arbitrarily shaped power-bus structures is presented. The voltage/current relations between an arbitrary numbers of ports are computed through the CIM and subsequently used for the circuit level simulations to obtain the impedance characteristics of a populated board. The presented numerical approach is also capable to provide the frequency dependence of the voltage distribution between the planes, as well as the radiated emission, based on the application of the field-equivalence principle. The results are well confirmed by measurements results.",
  address="Laboratory for Electromagnetic Fields and Microwave Electronics",
  booktitle="Proceedings of the 20th International Zurich Symposium on Electromagnetic Compatibility",
  chapter="27531",
  howpublished="electronic, physical medium",
  institution="Laboratory for Electromagnetic Fields and Microwave Electronics",
  year="2009",
  month="january",
  pages="189--192",
  publisher="Laboratory for Electromagnetic Fields and Microwave Electronics",
  type="conference paper"
}