The rapid growth in the switching speed and packing density of integrated digital, analog, RF, and microwave circuits has increased the importance of accurate electromagnetic (EM) modeling. A seamless broadband method is presented to model the EM behaviour of conducting structures in microelectronic circuits through a unified matrix. The EM modeling, as well as the coupling scheme, is explained. Results are presented to validate the proposed broadband technique against an existing commercial solver. Further post-processing is performed in order to determine the volumetric current flow inside the conductor using a surface only formulation, and comparisons to skin effect models is also demonstrated. Continuing work includes low-frequency stabilization and fast multilevel solvers based on QR methods.