Magnetic simulation solves Maxwell’s equations for user-defined geometries, materials, and sources. It outputs:
Employs a hybrid finite element and boundary element solver for unmeshed open air space. magnetic field simulation software
The engineering market features several specialized software suites designed for magnetic and electromagnetic analysis. : : | Feature | Why It Matters |
| Feature | Why It Matters | |---------|----------------| | | Permanent magnets, DC coils, bias fields | | Frequency-domain (eddy currents) | Shielding, induction heating, transformers | | Transient electromagnetic | Switched reluctance motors, magnetic pulse forming | | Parametric sweeps & optimization | Automatically find best geometry/materials | | Multiphysics coupling | Thermal + EM (e.g., magnet cooling), structural stress from Lorentz forces | | Material libraries | Soft/hard magnetics, BH curves, anisotropic magnets | or time-transient solvers.
Generate the computational grid and run static, frequency-domain, or time-transient solvers.
Magnetic simulation solves Maxwell’s equations for user-defined geometries, materials, and sources. It outputs:
Employs a hybrid finite element and boundary element solver for unmeshed open air space.
The engineering market features several specialized software suites designed for magnetic and electromagnetic analysis. :
| Feature | Why It Matters | |---------|----------------| | | Permanent magnets, DC coils, bias fields | | Frequency-domain (eddy currents) | Shielding, induction heating, transformers | | Transient electromagnetic | Switched reluctance motors, magnetic pulse forming | | Parametric sweeps & optimization | Automatically find best geometry/materials | | Multiphysics coupling | Thermal + EM (e.g., magnet cooling), structural stress from Lorentz forces | | Material libraries | Soft/hard magnetics, BH curves, anisotropic magnets |
Generate the computational grid and run static, frequency-domain, or time-transient solvers.
