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Introduction to ANSYS Maxwell - (Also available as Self-paced Learning)

Overview

ANSYS Maxwell provides solutions for many types of analyses including DC conduction, frequency domain, time domain, electrostaticand optimization studies.

ANSYS Maxwell is an intuitive mechanical analysis tool that allows creating or importing the geometry from a number of different CAD systems. It can be used to verify product performance and integrity from the concept phase through the various product design and development phases.

The use of ANSYS Maxwell accelerates product development by providing rapid feedback on multiple design scenarios, which reduces the need for multiple prototypes and product testing iterations.

Prerequisites

  • A general knowledge of electromagnetic phenomena is recommended.
  • There are no required prerequisites for experience in using simulation software.

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.

Self-paced Learning: Complete a class on your own schedule at your own pace. Scope is equivalent to Instructor led classes. Includes video lecture, workshops and input files. All our Self-Paced video courses are only available with an ANSYS Learning Hub subscription. Register for a subscription using the tab below or contact training@ansys.com for more information.

Electronics Training - ANSYS Maxwell Typical Learning Pathway

Agenda SUBSCRIBE TODAY  

Agenda :

This is a 2 day classroom course covering both workshops and lectures. For virtual training, this course is covered over 4 x 2 hour sessions, lectures only.
  • Live Classroom Day 1
    • 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
  • Live Classroom Day 2
    • 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
Filter By Country :
Date/Time Duration Event Type Location Language Cost
February 18, 2019
10:30 - 12:30   CET (GMT +1)
February 18, 2019 4 sessions
Feb 18-21
Virtual Virtual - WebEx English Subscription Only REGISTER  ›
January 3, 2019
09:30 - 16:30   CST (GMT +8)
January 3, 2019 1 day
Jan 03
Live Taipei , Taiwan China Chinese 600   USD REGISTER  ›
January 17, 2019
10:00 - 17:00   KST (GMT +9)
January 17, 2019 2일
Jan 17-18
Live Seoul , South Korea Korean 600000   KRW REGISTER  ›
March 14, 2019
10:00 - 17:00   KST (GMT +9)
March 14, 2019 2일
Mar 14-15
Live Seoul , South Korea Korean 600000   KRW REGISTER  ›
January 22, 2019
11:00 - 13:00   EST (GMT -5)
January 22, 2019 4 sessions
Jan 22-25
Virtual Virtual - WebEx English Subscription Only REGISTER  ›

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