Summary
- Engineers face challenges in developing high-performance, efficient, and cost-effective electric motors
- Simulation technology can help model and optimize the integration of electric motors into drive systems
- Simcenter offers an integrated electric motor design workflow to address these challenges
- The webinar targets electric motor designers, engineers, experts in e-mobility, and electrification
- It covers topics such as evaluating prototypes, integrating motor models, automating workflows, and optimizing rotor templates
Article
The development of high-performance, efficient, and cost-effective electric motors poses a series of challenges for engineers, with one key hurdle being the optimization of these motors to seamlessly integrate into electric drive systems. This task requires a deep understanding of the complex interplay of electromagnetic, thermal, structural, and vibro-acoustic performance. By utilizing simulation to accurately model these interdependent effects, engineers can validate designs and optimize the integration of the motors and electric drive systems. Simcenter’s integrated electric motor design workflow is designed to address these challenges and empower engineers to model, simulate, and optimize electric machines more efficiently.
Simcenter solutions support automotive manufacturers and suppliers throughout the entire development lifecycle, from initial concept to final validation. By utilizing Simcenter’s solutions, customers can accelerate electric motor design optimization, performance validation, and system integration while making a significant business impact that contributes to the electric revolution in mobility. This webinar is tailored towards electric motor designers, engineers, e-mobility and electrification experts, as well as simulation and analysis specialists at OEMs, Tier 1 suppliers, and research institutions looking to advance electric motor design, technology, and innovation. The webinar will cover topics such as evaluating hundreds of e-motor prototypes a week, integrating accurate e-motor models to 1D system simulations for end-to-end performance validation, automating workflows for design studies and fault case analysis, and customizing and optimizing rotor templates.
Hosted by CHARGED on Wednesday, March 26th, at 11 am US EDT, this webinar offers insights into advanced electric motor design expertise and how Simcenter’s integrated workflow can help engineers overcome challenges in developing high-performance, efficient, and cost-effective electric motors. With demonstrations using industry examples, attendees will learn how this holistic approach empowers engineers to model, simulate, and optimize electric machines more efficiently. The webinar targets a specific audience of electric motor designers and engineers, e-mobility and electrification experts, simulation and analysis specialists within the automotive industry, including OEMs, Tier 1 suppliers, and research institutions focused on advancing electric motor design, technology, and innovation. Attendees will gain knowledge on evaluating e-motor prototypes, integrating accurate models to system simulations, automating workflows for design studies, and customizing rotor templates for optimization.
By participating in this webinar, attendees will gain valuable insights into the challenges and solutions associated with developing high-performance electric motors, as well as how Simcenter’s integrated electric motor design workflow can streamline the development process and optimize the integration of electric motors into drive systems. The webinar aims to provide practical knowledge and industry examples to demonstrate the benefits of using simulation to model and optimize electric machines. Engineers and specialists involved in electric motor design, system integration, and performance validation will benefit from attending this webinar, as it offers actionable insights and best practices for navigating the complexities of electric motor design and development. Register now for free to learn more about driving e-mobility forward with advanced electric motor design expertise.
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