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Ansys Maxwell 기본교육


Maxwell 사용을 위한 기초 교육으로 각 Solver에 대해서 알아보고 기본 예제를 실습합니다. 또한 Maxwell을 이용한 대표적인 Application(전동기, 액츄에이터, 변압기)에 대한 개요를 살펴보고 예제를 실습하는 교육입니다. 본 교육을 통해 Maxwell 툴에 관한 전반적인 기술을 습득할 수 있을 뿐 아니라 전자기 해석의 방향을 잡는 데에 도움이 될 것입니다.


  • 전자기장 해석 툴을 이용하여 각종 전기 기기 설계 분야에 종사하는 엔지니어 및 대학원생

Learning Path


Learning Outcome

Upon completion of this course, you will be able to:

  • Overview of GUI, File Structure, Meshing, Boundary Conditions and Excitations
  • Understanding differences between static solvers AC/DC Conduction, Eddy Current and Electrostatic analysis
  • Understanding Magnetic/Electric transient solver usage including Motion, Excitations, Parameters and Loss models
  • Know how to set up parametric models for variation studies and also post processing both graphically and through plots and reports

Available Dates

Date / Time Duration Event Type Location Language Course cost Registration
August 26, 2021
10:00 - 17:00 KST (GMT +9)
2 Days
Aug 26-27
Live Seoul , South Korea Korean 736000 KRW REGISTER

Learning Options

Training materials for this course are available with an Ansys Learning Hub Subscription. If there is no active public schedule available, private training can be arranged. 


This is a  day classroom course covering both workshops and lectures. For virtual training, this course is covered over 3 x 2 hour sessions, lectures only.

  • Introduction to Maxwell
  • Modeling
  • Geometry and Import
  • Materials, Boundaries, Sources
  • Parametrization
  • Adaptive meshing
  • Magnetostatic solution
  • Inductance calculation
  • Postprocessing 1
  • Workshop 1: Magnetostatic Analysis
  • Eddy current (frequency domain)
  • Electrostatic
  • DC conduction and AC conduction
  • Workshop 2: Electrostatic Analysis
  • Workshop 3: Eddy Current Analysis
  • Magneto- and Electrotransient
  • Eddy effects and losses
  • Sources, windings and external circuit
  • Mesh operations and linking
  • Workshop 4: Magnetotransient analysis including mesh operations
  • Postprocessing 2
  • Reports and solution data
  • Field overlays and Fields Calculator
  • Parametrics, Optimization and Sensitivity
  • Workshop 5: Postprocessing
  • Workshop 6: Parametric Analysis
  • Modeling (RMxprt and UDPs) 
  • Rotational Motion 
  • Losses (Core, Magnet, Bar, Winding) 
  • Workshop 7: PMSM Example 
  • Modeling 
  • Parametric magnetostatic analysis 
  • Translational motion 
  • Losses 
  • Workshop 8: Solenoid Example 
  • Modeling 
  • Losses 
  • Switch mode excitation 
  • Workshop 9: Transformer Example using eddy current and transient 
  • Workbench introduction 
  • Coupling capabilities 
  • Workshop 10: Electromagnetic – Mechanical coupling 
  • Workshop 11: Electromagnetic – Thermal coupling