The new NI AWR Design Environment™ V12.02 is an all-inclusive simulator system composed of Microwave Office, Visual System Simulator™ (VSS), Analog Office, AXIEM, and Analyst™. The new system is an advanced version of the V12, offering new load-pull features as well as improvements to the Analyst 3D element method electromagnetic simulator and layout, and to NI AWR Design Environment modeling, scripting, and stability analysis.
SPEAG's latest release of SEMCAD X introduces a new solver based on the Mode Matching Technique for the accurate and fast simulation of passive waveguide structures. The new solver has been integrated into the existing SEMCAD X framework to solve complex EM challenges in microwave industry. Together with the EM and Thermal solvers, SEMCAD X Microwave can be successfully applied to a wide variety of electromagnetic problems ranging from microwave devices, EMC, optics, to bio-medical applications.
FEKO Suite 7.0 sees the addition of a Finite Difference Time Domain (FDTD) solver to its comprehensive set of powerful computational methods as well as the hybridization of the Multilevel Fast Multipole Method (MLFMM) with Physical Optics (PO). Three new import file formats are also now available.
EM Software’s Automotive Electronics Software (FEKO) can be used in several automotive applications including antenna placement analysis, GPS receiver optimization, GSM transceivers, collision avoidance radars, EMC analysis for arbitray cable bundles and cable paths, radiation hazard analysis, crosstalk/communication interference minimization, and more.
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 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.
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.