Low-frequency electromagnetic simulation for electric machines
With Ansys Maxwell, you can precisely characterize the nonlinear, transient motion of electromechanical components and their effects on the drive circuit and control system design. By leveraging Maxwell’s advanced electromagnetic field solvers and seamlessly linking them to the integrated circuit and systems simulation technology, you can understand the performance of electromechanical systems long before building a prototype in hardware.
- Advanced magnetic modeling
- Multiphysics couplings
- ISO 26262 compliant
- Bi-Directional CAD integration
- Electric drive modeling
Ansys Maxwell includes 3-D/2-D magnetic transient, AC electromagnetic, magnetostatic, electrostatic, DC conduction and electric transient solvers.
Slice-only technology enables a cyclic repeatability simulation technique for electric motor applications. The analysis has been improved by efficiently solving just a slice of the motor, employing non-planar boundary conditions, using symmetric mesh and replicating results to the full model.
Induction Machine ROM-based Efficiency Map – Reduced Order Modeling in the electric machine toolkit shrinks an FEA solution to a circuit simulation and improves performance.
Quasi Static Solvers
Performance improvements for quasi-static solvers help PCB simulations where the conduction path includes complex geometry, reducing processing from hours to minutes.
Functional Safety Compliance
Ansys Maxwell helps perform safety analysis and design according to ISO 26262 for electrical and electronic (E/E) systems. Safety is one of the critical issues in developing electric motors used in passenger road vehicles.
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