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.
FEKO software is a comprehensive computational electromagnetics (CEM) code based on the accurate "full wave" Method of Moments (MoM). The leading implementation of the Multilevel Fast Multipole Method (MLFMM) and the MoM hybrid with asymptotic high frequency techniques (PO and UTD) allows simulation of electrically large problems, e.g. antenna placement. Several techniques including Finite Element Method (FEM) available for dielectric regions.
Precision filter designers are often faced with the need to optimize filter designs using highly accurate full wave microwave electromagnetic (EM) solvers to overcome modeling limitations in standard microwave circuit simulators. However, using an EM solver within an optimization process can be very time-consuming.
Blink is the industry’s first modeling software to offer two different EM (electromagnetic) solvers for the design of passive devices. It allows IC designers to model new passive devices within a normal Cadence Virtuoso based integrated circuit design flow. It quickly characterizes spiral inductors, baluns, transformers, MIM caps, interdigitated capacitors, and transmission lines for RFIC and mixed signal IC design.
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.
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.