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Ansys Maxwell Advanced Motor Training

課程概述

高級電機培訓課程旨在讓用戶更好地了解 Ansys Maxwell 在模擬旋轉電機方面的能力,並提供推薦的工作流程以獲得最佳的模擬性能和結果。 培訓展示的範例將以 PMSM(永磁同步電機)為主。

必備條件

  • Maxwell 基礎培訓或同等經驗

目標受眾

電機設計工程師、電磁場分析人員、電機驅動控制工程師

教學方法

通過講座和軟體實踐課程來驗證所獲得的知識。

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學習成果 

完成本課程後,您將能夠:

  • 輕鬆創建電機模擬的幾何和參數化模型.
  • 精確地計算電機頓轉扭矩和轉矩漣波.
  • 高效地使用Maxwell網格功能來優化網格剖分.
  • 使用適宜的損耗模型,從而實現高效率電機的開發設計.
  • 使用 Machine Toolkit ACT 自動化地創建效率圖.
  • 評估永久磁鐵的充/退磁表現.
  • 提取電機的 ROM(降階模型)並導入Simplorer/Twin Builder ,從而實現系統化分析工作,比如討論PWM訊號造成的損失或MTPA控制對電機操作的優化等.
  • 耦合Optislang軟體,來執行靈敏度和最佳化研究.

 Available Dates

Currently, no training dates available

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. Please contact us.

 

Agenda

This is a 1-day classroom course covering both lectures and workshops. 

Modules 1-4 Modules 5-8 Topics Covered
  • Module 01 – Geometry creation
  • RMxprt design to Maxwell Design
  • UDPs (User Defined Primitives)
  • Workshop 1.1: RMxprt to Maxwell Example
  • Workshop 1.2: UDPs Example
  • Module 02 – Cogging torque
  • Introduction to the Motor Training
  • Magnetostatic cogging torque calculation
  • Transient model and cogging torque calculation
  • Meshing the airgap
  • Workshop 2.1: Cogging torque calculation
  • 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
  • Module 04 – Motor Power Balance
  • Losses in Motors
  • Power Balance
  • Workshop 4.1: Motor Power Balance Example
  • Module 05 – Optimization
  • Optislang
  • Workshop 5.1: Multiple goals optimization of Nissal Leaf motor
  • Module 06 – Equivalent Circuit Extraction (ECE)
  • ECE theory and advantages
  • ECE components and their properties
  • ECE components main settings
  • Workshop 6.1: ECE Example
  • 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
  • Module 08 – Electric Machines Design Toolkit
  • Basics of usage and list of settings  
  • Workshop 8.1: Example of PM motor
  • Workshop 8.2: Example of IM motor
  • Motor Geometry Creation and manipulation
  • Cogging Torque calculation
  • Meshing for Motors
  • Equivalent Circuit Extraction (ECE)
  • Power Balance in Motors
  • Sensitivity Analysis and Optimization using Optislang
  • Demagnetization
  • Electric Machine design Toolkit AC