Next:
Motion & Electric Machines
Tutorials for NX-Magnetics
Motion & Electric Machines
Tutorials for NX-Magnetics
Dr. Binde Ingenieure
2024-09-28
Techniques for Motion
General Motion Tutorial in 3D (for Beginners)
Three Moving Magnets
Setup Files and Solution
Meshing and Properties of the Permanent Magnets
Defining the Updating Air Mesh
Creation of Motion Joints
Apply Mass and Inertia
Apply Locally Increased Order
Run the Solve with General Motion
Post Process Motion Results
Some useful Options for General Motion
Rotor Motion Tutorial in 2D and 3D (for Beginners)
Simple Rotor
2D Enforced Driver
2D Dynamic Driver
3D Enforced Driver
3D Dynamic Driver
3D Motion with more complex Meshes
Relay 3D, Translational Motion
Full Process of a Motor Simulation in 2D
Permanentmagnet Synchron Motor Analysis
Model Setup by AutoFEM
Find the Rotor Start Position for Maximum Torque
Analyze for Torque with Rotation
Analyze for Voltage in Phases
Parameter Optimization with HEEDS
Asynchronous/Induction Motor in 2D
Asynchron (Induction) Motor Analysis
Basic Model Setup
Simulation at Fixed Speed
Sweep over Rotor Speed
Sweep with two Parameters
Thermal Analysis
Transient Run at Fixed Operating Point
Start of Motor
3D Model of Induction Motor
Post Processing
Academic Asynchronous/Induction Motor in 2D and 3D
Motor (Team30) with Moving Band/Constant Rotor Shape (Conductor Motion)
Simulation with Moving Band
Post Processing
Solution with Conductor Motion
Post Processing
Motor (Team30_3D) with Conductor Motion
Using 3D Sliding Motion Technique for a Motor
Motor Analysis in 3D by Sliding Motion
Properties for Sliding Surface
Properties for Periodicity Segments
The Rotor Joint Definition
Recommendations for Meshing
Solving and Post Processing
Using 3D General Motion Technique for a Motor
Motor Analysis in 3D by General Motion
Use of Assembly FEM’s
AFEM Modeling of Motors
NVH Extension for Motors
Electric Motor Analysis for NVH
References