Overview
As devices become smaller, more powerful, and more integrated, thermal management becomes a critical factor in the success of any electrified system. Excessive heat can impair performance, shorten component life, and cause operational failures. In this webinar, you'll learn how to use virtual testing to predict, assess, and mitigate thermal risks in electronic components, batteries, PCBs, and electrical machines, based on state-of-the-art simulations, even before physical prototypes are built.
What you'll learn:
- Optimize electrified system design through integrated thermal and electrical simulation
- Assess the impact of thermal issues on system reliability, safety, and efficiency
- Predict airflow, temperature, and heat transfer in integrated circuit packages, electronic boards (PCBs), electronic assemblies, enclosures, and power systems
- Analyzing heat transfer by conduction, convection and radiation
- Simulate thermal behavior under realistic operating conditions, including transient scenarios, varying loads, and physical design constraints
- Evaluate the use of advanced materials, thermal interfaces, and cooling and ventilation strategies for efficient thermal control
- Combine CFD and structural analysis to predict how heat affects deformation, mechanical stress, and possible component failure
This webinar represents an opportunity to increase the understanding of electromagnetic physics in RF systems, enabling more efficient and optimized design. Join us to learn how simulation can revolutionize your approach to electronic system design and optimization.
Who should attend:
Product engineers, specialists in electronics, power electronics, batteries, electric machines, thermal integration and electrified system development.
Date / Time:July 22, 2025 10 AM CEST
Venue:Virtual
- Cost:
No reviews available for this learning resource.
