Improving Electric Motor Designs with Multiphysics Simulation - Archived
The rapid evolution of the global transportation industry toward the use of clean energy has created the need for an agile approach in the R&D of electric motors. Simulation helps speed up the testing phase of the product development cycle by reducing the need for physical prototyping, enabling engineers to perform quick iterations at a fraction of the cost. In addition, different physics phenomena that occur when a motor is running can be combined in a single model to obtain accurate results through simulation.
Join us for this interactive webinar to explore the power of simulation, for designing high-performance electric motors. This session includes a live software demonstration, and we encourage you to ask questions during the webinar as well as in the Q&A session at the end.
We will discuss:
- How to model permanent magnet motors, brushless DC motors, and induction motors
- How to combine different physical effects to model phenomena such as rotor-induced vibrations, noise emission, structural integrity of the motor and power losses in the form of heat dissipation
- How to examine and optimize parameters influencing motor efficiency performance such as cogging and rotor torque, air gap MMF, and iron electromagnetic losses
- How simulation can help engineers design high-performance motors through multivariable optimization in a time-and cost-efficient manner
Register for Improving Electric Motor Designs with Multiphysics Simulation
Archived Webinar Details
Senior Applications Engineer
Rahul Bhat received his PhD from the Indian Institute of Technology, Bombay, in 2019. His prior industry experience has been in low-voltage switchgears at Larsen & Toubro Limited and in the development of servo control systems at Bhabha Atomic Research Center. His area of interest is low-frequency electromagnetics FEM simulations.