Electrical Machines
Design and Analysis, Motor Types, Materials, Simulation and Analysis, Optimization and Productivity, High and Low-Frequency Simulations
1. Design and Analysis
- Analyze motor designs rapidly with analytical simulations.
- Combine analytical methods with automated electromagnetic FEA simulations.
- Intuitive interface for electric machine design without calibration.
- Editable rotor and stator types for quick motor configuration.
- Establish preliminary dimensions of a motor design based on requirements and voltage.


2. Motor Types
- Supports BLDC, IM, SRM, and DCM.
- Extensive database of steels and permanent magnet materials.
- Assess device performance with waveforms, charts, and field plots.
- Compare designs side-by-side and highlight differences.
- Add design parameters and performance data to a standard report form.
3. Materials
- Extensive database of steels and permanent magnet materials.
- Quickly create required motor configuration.
- Assess device performance with waveforms, charts, and field plots.
- Compare designs side-by-side and highlight differences.
- Add design parameters and performance data to a standard report form.


4. Simulation and Analysis
- Build 2D and 3D models with motion analysis.
- Generate finite element mesh and accurate field solutions.
- Support various types of machines and components.
- Interactive and fast programs with magnetic, electrical, and mechanical data.
- Enables studying design and performance characteristics.
5. Optimization and Productivity
- Build 2D and 3D models with motion analysis.
- Generate finite element mesh and accurate field solutions.
- Support various types of machines and components.
- Interactive and fast programs with magnetic, electrical, and mechanical data.
- Enables studying design and performance characteristics.


6. High and Low-Frequency Simulations:
- High-frequency simulations for EMC analysis.
- Low-frequency simulations for magnetic and electric field analysis.
- Optimize designs for noise reduction and regulatory requirements.
- • Analyze electromagnetic radiation and susceptibility with high-frequency simulations.
- • Analyze magnetic fields and their effects on surrounding components with low-frequency simulations.