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Simcenter Motorsolve

Accurately design electric motors with easy-to-use software

Simcenter Motorsolve

Simcenter Motorsolve is a complete design and analysis solution for permanent magnet, induction, synchronous, electronically, and brush-commutated machines. The software leverages finite element analysis with an intuitive interface for accurate simulations of electric machines.

The template-based interface is easy to use and flexible enough to handle practically any motor topology, with provision for custom rotors and stators. Typical FEA operations such as mesh and solver refinements, winding layout and post-processing (including the export of 1D models) are automated by the software. Performance parameters, waveforms, and field plots are available with just a mouse click.

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Simcenter Motorsolve

Simcenter Motorsolve is a complete design and analysis solution for permanent magnet, induction, synchronous, electronically, and brush-commutated machines. The software leverages finite element analysis with an intuitive interface for accurate simulations of electric machines.

The template-based interface is easy to use and flexible enough to handle practically any motor topology, with provision for custom rotors and stators. Typical FEA operations such as mesh and solver refinements, winding layout and post-processing (including the export of 1D models) are automated by the software. Performance parameters, waveforms, and field plots are available with just a mouse click.

Electric Motor Coil Winding

The electric motor coil winding layout plays a central role in design and performance. The technology used to determine the complete list of all possible balanced layouts is unique and makes evaluating alternatives easy. All the relevant factors are automatically calculated.

Any predetermined layout can be modified or the coil winding can be entered manually. An extensive list of winding charts is available (Phase Back-EMF, Görges diagram, Airgap MMF, and more).

Simcenter electric motor software Electric motor coil winding

Electric Motor Types

Complete electric motor design software for permanent magnet, induction, synchronous, electronically, and brush-commutated machines.

The template-based interface is easy to use and flexible enough to handle practically any motor topology. Custom rotor and stator profiles can be imported.

Simcenter electric motor software motor types

FEA Automation

A more efficient electric motor design process with the automation of typical FEA pre and post-processing tasks.

Typical FEA operations, such as mesh refinements, solution space definition, and post-processing, are not required. Virtual experiments and export of 1D models are also preset for the user.

Simcenter electric motor software automation

Motor Thermal Analysis

Seamless co-simulation between electromagnetics and thermal analysis for electric motors to study the effects of heat and various cooling strategies on performance. Using a robust and highly proficient automated 3D FEA engine, performance results can be based on steady-state or transient temperature analysis.

Simcenter electric motor software thermal

Performance Analysis

Use preset virtual experiments to evaluate the simulated performance of electric motors. The experiments yield output quantities, waveforms, fields, and charts. 

The virtual experiments include analysis over the whole torque-speed curve, thermal performance, motor characterization, instantaneous waveforms, and hotspots.

Simcenter electric motor software performance analysis
Ship on water with digitally layered propulsion design system

On-Demand Webinar | 37 minutes

Integrated simulation tools for electric ship propulsion

Ship on water with digitally layered propulsion design system

Electric-powered boats reduce noise and fuel emissions and bring significant benefits to the marine industry. In this webinar learn how you can design and optimize electrical power systems and components using our simulation solutions. Using virtual investigation, you can explore every aspect of electric ship propulsion and electric motor performance. Learn how to:

  • Predict performance and provide efficient, stable and sufficient energy for fully or hybrid electric-powered boats
  • Use simulation to predict hull resistance and powering requirements
  • Choose battery pack and electric motor dimensions with system simulation
  • Use high-fidelity modeling tools for electrical component design and optimization

Watch the webinar

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