Why Simcenter SPEED?
Simcenter SPEED allows engineers to rapidly analyze motor designs using analytical simulations. Simcenter SPEED provides access to theoretical and physical models of most main electric machine classes along with their drives.
- Model the complexity
Simcenter SPEED supports several e-machine types including synchronous motors, single, 2- and 3-phase machines, induction machines, switched reluctance motors, direct current machines, wound-field commutator machines and axial flux machines.
- Go faster
Simcenter SPEED includes all the necessary theoretical and physical models for a rapid e-machine design with a flexible approach. Analytical methods deliver almost instantaneous results, making it attractive for use in design exploration or what-if studies.
- Stay integrated
Simcenter SPEED links with Simcenter MAGNET and STAR-CCM+ for electromagnetic simulation, exports data to Simcenter Amesim for system simulation, and enables design exploration with HEEDS.
Simcenter SPEED capabilities
- Rapid e-machine design with an analytical approach
Simcenter SPEED allows quick design exploration, assessing thousands of possibilities faster than traditional Finite Element simulations, with easy parameter modification and full integration with Simcenter HEEDS.
- Six e-machine types
Simcenter SPEED supports six e-machine types with fully parameterized design templates for easy modification and automatic scaling.
- Quick and easy set-up via editors
In Simcenter SPEED, quickly define e-machine parameters with the graphical outline editor, choose coil distributions, MMF, and harmonics, complete winding schemes with the editor, and collect input parameters using the template editor.
- Flexible material databases
In Simcenter SPEED, easily test design variations with quick access to a material database including steels, magnets, and brushes. Edit or create your own materials and swiftly review charts like B/H and V/I curves for any material.
- What’s new in Simcenter SPEED, Simcenter Motorsolve, and Simcenter MAGNET 2022.1
- Electromagnetic simulations as part of your design process, that’s EMAG-nificent
- Simcenter simulation for electromagnetics
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