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ANSYS Maxwell Advanced Motor Training

Overview

The Advanced Motor Training course has the goal to provide users a better understanding of ANSYS Maxwell capabilities in simulating rotating electrical machines and of the suggested workflows to get the best simulation performances and results.

For the sake of simplicity the machines presented through the Training are PMSM (Permanent Magnet Synchronous Machines) and IM (Induction Machines). Most of the techniques and workflows shown for those machines can be further applied to different machine types.

Prerequisites

  • Completion of the Introductory to ANSYS Maxwell course essential.
  • Suggested prerequisites, Introduction to ANSYS Fluent, Introduction to ANSYS Simplorer & Introduction to ANSYS Mechanical.

Target Audience: Engineers and Designers

Teaching Method: Lectures and computer practical sessions to validate acquired knowledge. A training certificate is provided to all attendees who complete the course.

Agenda SUBSCRIBE TODAY  

Topics Covered :

  • Cogging Torque calculation
  • Motor Geometry Creation and manipulation
  • Meshing for Motors
  • Equivalent Circuit Extraction (ECE)
  • Power Balance in Motors
  • Optimization
  • Demagnetization
  • Vibro-Acoustic analysis

Agenda :

This is a 2 day classroom course covering both lectures and workshops. For virtual training, this course is covered over 8 x 2 hour sessions.

  • Virtual Classroom Session 1 / Live Classroom Day 1
    • Module 01 – Cogging torque
    • Introduction to the Motor Training
    • Magnetostatic cogging torque calculation
    • Transient model and cogging torque calculation
    • Meshing the airgap
    • Workshop 1.1: Cogging torque calculation
  • Virtual Classroom Session 2 / Live Classroom Day 1
    • Module 02 – Geometry creation
    • RMxprt design to Maxwell Design
    • UDPs (User Defined Primitives)
    • Workshop 2.1: RMxprt to Maxwell Example
    • Workshop 2.2: UDPs Example
  • Virtual Classroom Session 3 / Live Classroom Day 1
    • Module 03 – Mesh operations for Motors
    • Basics of Meshing
    • Clone mesh for both 2D and 3D Design
    • Advanced meshing capabilities
    • Workshop 3.1: Mesh operations for Rotating Machines
  • Virtual Classroom Session 4 / Live Classroom Day 1
    • Module 04 – Equivalent Circuit Extraction (ECE)
    • ECE theory and advantages
    • ECE components and their properties
    • ECE components main settings
    • Workshop 4.1: ECE Example
  • Virtual Classroom Session 5 / Live Classroom Day 2
    • Module 05 – Motor Power Balance
    • Losses in Motors
    • Power Balance
    • Workshop 5.1: Motor Power Balance Example
  • Virtual Classroom Session 6 / Live Classroom Day 2
    • Module 06 – Optimization
    • Optimetrics
    • DesignXplorer basics
    • Workshop 6.1: Torque optimization using DesignXplorer
  • Virtual Classroom Session 7 / Live Classroom Day 2
    • Module 07 – Demagnetization
    • Permanent Magnets and Demagnetization Theory
    • Demagnetization in Maxwell
    • Temperature dependent Demagnetization
    • Workshop 7.1: Demagnetization due to short circuit
    • Workshop 7.2: Temperature Dependent Demagnetization
  • Virtual Classroom Session 8 / Live Classroom Day 2
    • Module 08 – Vibro-Acoustic Analysis
    • Maxwell Model and Electromagnetic analysis        
    • Workbench coupling
    • Workshop 8.1: Example of Vibro-Acoustic analysis within Workbench
Filter By Country :
Date/Time Duration Event Type Location Language Cost
January 21, 2019
11:00 - 13:00   EST (GMT -5)
January 21, 2019 8 sessions
Jan 21-25, 28-30
Virtual Virtual - WebEx English Subscription Only REGISTER  ›

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