EM Simulation

FEKO software is a comprehensive EM simulation tool, based on state of the art computational electromagnetics techniques. The software enables engineers to solve a wide range of electromagnetic problems.

FEKO software is a comprehensive electromagnetic (EM) analysis software suite, building on state of the art computational EM (CEM) techniques to provide users with software that can solve a wide range of electromagnetic problems.

EM.CUBE™ utilizes a modular approach to the solution of large-scale electromagnetic problems. This powerful software suite features a number of computational modules built upon a common framework that work together seamlessly to provide practical solutions to system-level RF problems.  Each computational module has been optimized to address a certain class of electromagnetic structures based on a particular numerical technique.

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•Product Brochure: EM.CUBE Modular 3-D Simulation And Design Environment
•EM.CUBE Demo Download And Installation Instructions

The Galileo Suite from IDS is an electromagnetic environment modeling and simulation tool designed for use in virtual testing applications within the naval, aeronautical, and space industries. From single antennas to complex platforms, the Galileo Suite assists engineers in the design and simulation of electromagnetic systems and devices.

Sonnet provides Cadence Virtuoso users with an integrated high frequency EM model extractor. Sonnet’s API for Virtuoso enables the RFIC designer to configure and run a full wave high frequency electromagnetic (EM) model extraction for a layout or Pcell, extract accurate electrical models, and create a schematic symbol for electrical simulation and post-layout verification. You can take advantage of Sonnet’s accuracy without leaving the Cadence environment.

Determining the final set of component values in a matching network can be a challenging process. Traditionally, RF engineers have had to simplify and idealize their matching circuits in schematics that are separated from the EM simulation. This simplification into a lumped element schematic requires perfect grounds and leaves out the coupling and transmission line effects of the interconnect metal and the antennas.

The challenges involved with measuring an antenna’s radiation characteristics when it’s mounted on a large platform stem from the fact that it’s very difficult to accurately simulate an antenna’s interaction with an electrically large environment.

XFdtd can compute the capacitance of complex sensor designs, allowing the designer to choose the best geometry for their needs without prototyping.