Heat sources can include electric and magnetic fields, currents, particle collisions, human bio-heat, and other pre-defined sources.Ĭalculates how a system heats over time. Resistive-capacitive effects may also be modeled.Ī 3D solver for simulating static electric fields.Ī 3D solver for simulating static magnetic fields.Ī 3D solver for simulating the flow of DC currents through a device, especially with lossy components.Ĭalculates the stationary temperature distribution of a system. The extraction is based on the Frequency Domain Solver.Ī 3D solver for simulating the time-harmonic behavior in low frequency systems that is useful for simulations of coils used for wireless power transfer.Ī 3D solver for simulating the transient behavior in low frequency systems which include eddy currents, non-linear effects and motion. Used for calculation of equivalent circuit parameters, i.e., partial inductances, partial resistances, and partial capacitances, for a specified model. It enables users to simulate multilayer geometries accurately and efficiently.
This combination of different levels of simulation helps to reduce the computational effort required to analyze a complex model accurately.An asymptotic computation is an analysis in the frequency domain based on a so-called ray-tracing (shooting and bouncing rays, SBR) technique, typically used for scattering or antenna placement for electrically very large domains.Ī 3D solver for planar modeling and analysis based on the method of moments (MoM). For example using the results of EM simulation to calculate thermal effects, then structural deformation, and then another EM simulation to analyze detuning. SAM facilities the set-up of a linked sequence of solver runs for hybrid and multiphysics simulations. SAM helps users to compare the results of different solvers or model configurations within one simulation project and perform post-processing automatically. SAM enables the use of the most efficient solver technology for each component. These are described by relevant physical quantities such as currents, fields or S-parameters.
The SAM framework can be used for analyzing and optimizing an entire device that consists of multiple individual components. With System Assembly and Modeling (SAM), CST Studio Suite® provides an environment that simplifies the management of simulation projects, enabling the intuitive construction of electromagnetic (EM) systems and straightforward management of complex simulation flows using schematic modeling.