• DocumentCode
    1389095
  • Title

    Extension of the Contour Integral Method to Anisotropic Modes on Circular Ports

  • Author

    Duan, Xiaomin ; Rimolo-Donadio, Renato ; Brüns, Heinz-Dietrich ; Schuster, Christian

  • Author_Institution
    Inst. fur Theor. Elektrotechnik, Tech. Univ. Hamburg-Harburg, Hamburg, Germany
  • Volume
    2
  • Issue
    2
  • fYear
    2012
  • Firstpage
    321
  • Lastpage
    331
  • Abstract
    In the analysis of power/ground planes in multilayer substrates, circular ports are often used for modeling of via transitions. The electric and magnetic fields on excited ports are usually assumed to be isotropic. This assumption may not hold in certain scenarios such as vias in very close proximity, where anisotropic modes can be excited. This paper first extends voltage and current definitions of circular ports to account for the non-uniform field distribution along the port perimeter and the anisotropic propagating modes. The effect of these modes on the parallel-plate impedance can be captured in the contour integral method (CIM) by discretizing the port perimeter with line segments. However, the computation time grows rapidly as the number of modeled ports increases. Therefore, the CIM is extended here to incorporate analytical modal expressions to improve the computational efficiency based on the new port definition. The derivation starts with solutions under the assumption of infinite planes, and then is expanded to take finite plane boundaries into consideration. Application examples using the extended CIM will be demonstrated and validated against the conventional CIM with ports modeled numerically. The significance of anisotropic propagating modes for dense via arrays will also be discussed.
  • Keywords
    computational electromagnetics; electric fields; electromagnetic wave propagation; integral equations; magnetic anisotropy; magnetic fields; parallel plate waveguides; waveguide transitions; analytical modal expressions; anisotropic modes; anisotropic propagating modes; circular ports; computation time; computational efficiency; contour integral method; conventional CIM; current definitions; dense via arrays; electric fields; excited ports; finite plane boundary; ground planes; infinite planes; line segments; magnetic fields; modeled ports; multilayer substrates; nonuniform field distribution; parallel-plate impedance; port definition; port perimeter; power planes; very close proximity; via transitions; voltage definitions; Computer integrated manufacturing; Dielectrics; Impedance; Perpendicular magnetic anisotropy; Surface waves; Vectors; Contour integral method (CIM); cylindrical wave function; parallel-plate waveguide; printed circuit board; signal integrity;
  • fLanguage
    English
  • Journal_Title
    Components, Packaging and Manufacturing Technology, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    2156-3950
  • Type

    jour

  • DOI
    10.1109/TCPMT.2011.2174823
  • Filename
    6095337