Low Frequency Electromagnetic Field Solver
Ansys Maxwell accurately characterizes the nonlinear, transient motion of electromechanical components and their impact on drive circuits and control systems. It uses advanced electromagnetic field solvers to simulate low-frequency fields in industrial components and seamlessly integrates with circuit and system simulations. Maxwell offers solvers for 3D/2D magnetic transient, AC electromagnetic, magnetostatic, electrostatic, and DC conduction, calculating key parameters like force, torque, capacitance, and impedance. Its customizable modeling, adaptive meshing, and high-performance computing enable robust solutions for high-performance electromechanical systems. Maxwell also generates nonlinear equivalent circuits and state-space models for SIL and HIL systems, ensuring reliable real-world performance.
- 2D and 3D Electromagnetic Solvers
- Automatic Adaptive Mesh Refinement
- Magnetic Hysteresis Modeling
- Reduced-Order Modeling (ECE / ROM)
- Field and System Level Modeling
- Two-Way Multiphysics Coupling
- Comprehensive System Simulation
- ISO 26262 Compliant
Check out the key features of Ansys Maxwell
Automatic, Adaptive Meshing
The automatic adaptive meshing simplifies simulations by requiring only geometry, material properties, and desired output for accurate results. Its robust volumetric meshing with multithreading reduces memory use and speeds up solutions, making advanced analysis accessible for all organizational levels.
Two-Way Multiphysics Coupling
Maxwell's electromagnetic field solvers enable easy setup and analysis of complex multiphysics behaviors. This includes deformed mesh feedback, stress, strain and thermal effects on magnetic and electric properties, as well as electromagnetic interactions with fluids and acoustics.
Advanced Magnetic Modeling
Advanced magnetic modeling in the software enables simulations like core loss calculations, vector hysteresis, four-quadrant permanent magnet analysis, magnetostriction, magnetoelastic effects, Litz wire loss, and the impact of manufacturing on loss computations for more accurate and detailed performance analysis.
RMxprt
RMxprt not only delivers classical electrical machine performance calculations but also automates the generation of geometry, motion settings, material properties, core loss, winding, and excitation setup. This streamlines the process for detailed finite element analysis in Maxwell, enabling efficient and accurate motor design simulations.
PExprt / PEmag
Ansys PExprt and PEmag are quick design tools for transformers and inductors, automatically creating waveform or converter-based designs. It optimizes core shapes, materials, bobbins, and winding strategies for hundreds of variants within seconds. It determines the losses by taking into account the skin and proximity effect and the gap effect.
Simplorer
Ansys Simplorer is a multi-domain power electronics simulator for electrical, magnetic, mechanical, and fluid systems. It integrates circuit, block diagram, and state machine libraries and connects with EM tools like Maxwell and thermal tools like Ansys CFD. It also supports high-fidelity models and VHDL-AMS for comprehensive simulations.
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Software Sales
If you have any general questions about our Ansys, Moldex3D, Dante, Particleworks, or CF Turbo simulation software (quotation, licensing, training), please contact us using one of the following contact details. Please note that our software is only available to customers from the following countries: Hungary, Slovenia, Croatia, Serbia, Bosnia and Herzegovina, Montenegro, and Macedonia.
sales (at) econengineering.com
+36 1 279 0320
Greg Lipóczi, Dr.
Commercial Director
László Molnár, Ph.D.
Academic & Key Account Representative
Péter Bara
Key Account Manager
East Hungary
János Simon
Key Account Manager
West Hungary
