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Electromagnetic field analysis software(work) - メーカー・企業と製品の一覧

Electromagnetic field analysis softwareの製品一覧

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Electromagnetic Field Analysis Software 'EMS'

Electromagnetic Field Analysis Software 'EMS'

Accuracy, high performance, and ease of use. An ideal tool for testing designs and ideas.

"EMS" is an electromagnetic field simulation software available in the environments of SOLIDWORKS and Autodesk® Inventor®. It calculates fields (electric/magnetic/flux/potential/eddy current), circuit parameters (inductance/capacitance/resistance/impedance/chain magnetic flux), mechanical parameters (force/torque), and losses (eddy current/core/hysteresis/ohmic). 【Advantages】 ■ User-friendly operation fully integrated as a plugin for SOLIDWORKS and Autodesk Inventor ■ No need for CAD data import or export processing ■ Parametric design comparison and optimization features ■ Multi-physics analysis including motion, thermal, and structural aspects *For more details, please download the PDF or feel free to contact us.

  • Other CAD related software

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Example: Silent Design of Electromagnetic Field Reactor

Example: Silent Design of Electromagnetic Field Reactor

By integrating various software such as CAD, magnetic field analysis, and acoustic analysis, a wide range of optimization can be achieved!

This example introduces the integration of three software programs to reduce noise without compromising the electrical performance of a reactor. First, the general-purpose parameter optimization software "AMDESS" rewrites the VB script file of the 3D CAD software "SolidWorks" with trial dimensions and modifies the model dimensions. Next, the electromagnetic field analysis software "JMAG" communicates with "SolidWorks" to import the CAD model, performs meshing and analysis, and "AMDESS" extracts responses from the analysis results of "JMAG." As a result, starting from 30 samples using Latin hypercube sampling, a 31% reduction in sound pressure was achieved through six updates of the response surface. 【Optimization Conditions】 ■ Design Variables: Core dimensions D1 to D4 ■ Objective Function: Minimization of reactor sound pressure ■ Constraint Functions: Inductance greater than or equal to the initial value, core volume less than or equal to the initial value ■ Approximation Model: RBF *For more details, please refer to the PDF document or feel free to contact us.

  • Other analyses
  • Contract Analysis
  • simulator

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