Abstract: The present invention includes a method for performing a thermal analysis, including the steps of determining size and placement of each of a plurality of drivers on an integrated circuit device. The determined size and placement of each driver is stored as layout data and the layout data is converted into input for a finite element analysis program. The input is applied to the finite element analysis program, and the finite element analysis program is used to construct a finite element mesh of the integrated circuit device from the input. Additionally, material properties are assigned to the finite element mesh, and a thermal analysis is performed of the finite element mesh to generate data in a thermal analysis report.

Abstract: A protection device for handling energy transients includes a plurality of basic unit Zener diodes connected in series to achieve a desired breakdown voltage. Each of the basic unit Zener diodes is formed in a first-type substrate. Each of the basic unit Zener diodes comprises a second-type well formed in the substrate, a second-type Zener region formed in the second-type well and a first-type+ region formed over the second-type Zener region between a first and second second-type+ region.

Abstract: A metal runner that improves the current-carrying capability of solder bumps used to electrically connect a surface-mount circuit device to a substrate. The runner comprises at least one leg portion and a pad portion, with the pad portion having a continuous region and a plurality of separate electrical paths leading to and from the continuous region. The electrical paths are delineated in the pad portion by nonconductive regions defined in the pad portion, with at least some of the nonconductive regions extending into the leg portion. The multiple electrical paths split the current flow to and from the solder bump, distributing the current around the perimeter of the solder bump in a manner that reduces current density in regions of the solder bump where electromigration is most likely.