EM Simulation

EM.GRID™ is EM.CUBE's flexible data visualization and analysis module. GRID is an acronym for Graphical Representation of Input Data. You can call EM.GRID at the end of a simulation from any one of EM.CUBE's computational modules to plot output data graphs. EM.GRID can also be used as a stand-alone application to visualize any data files with acceptable formats. You can plot graphs of data, customize the graphs and print them or copy them to other applications such as word processors, spreadsheets or presentation software.

EM.CUBE IS AN INDUSTRY RECOGNIZED SOFTWARE SUITE FOR MODELING AND SIMULATION OF RF SYSTEM ENGINEERING PROBLEMS.

EMIT (electromagnetic interference toolkit) is a type of simulation software used to predict EMI (electromagnetic interference) in complex RF environments containing multiple transmitters and receivers, and to predict in-band and out-of-band interference effects for all Tx/Rx (transmitter/receiver) pairs in the scene.

Wireless InSite is a suite of ray-tracing models and high-fidelity EM solvers for the analysis of site-specific radio wave propagation and wireless communication systems. The RF propagation software provides efficient and accurate predictions of EM propagation and communication channel characteristics in complex urban, indoor, rural, and mixed path environments.

Wind turbines located near a radar installation can significantly interfere with the ability of the radar to operate properly.  Remcom provides radar scattering expertise for government-funded research efforts into the impact that wind turbines and wind farms have on radar returns for Air Traffic Control (ATC) radar, early warning radar, weather radar, and instrumentation radar. 

Sonnet’s high frequency electromagnetic (EM) software can be used in the analysis of microwave circuit discontinuities, arbitrary microstrip and stripline circuits, planar (patch) antennas, planar spiral inductors, RFIC and MMIC circuits, multi-layer circuits like LTCC and PCB technology, planar filter analysis, and high density interconnects.

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.

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.