Reliability is the measure of a product’s ability to perform specified functions in the customer environment over the desired lifetime. Reliability must be designed-in. Traditional approaches to design for reliability in the automotive world, such as empirical predictions like MIL-HDBK-2.17F, industry specifications and “test-in” reliability, all have significant limitations.
The best way to ensure automotive electronics design for reliability is by taking the Physics of Failure (PoF) approach, which uses science (physics, chemistry, etc.) to capture an understanding of failure mechanisms and evaluates useful life under actual operating conditions. The four key processes in this methodology are design capture, lifecycle characterization, load transformation and durability simulation reliability analysis and risk assessment.
This webinar explores ANSYS Ansys Sherlock Automated automated Design design Analysis analysis software, is the only Reliability reliability Physicsphysics-based electronics design software that provides fast and accurate life predictions for electronic hardware at the component, board and system level in early design stages to ensure that your electronics designs will work as designed for the desired lifetime of the product.
- Learn Overview of Ansys Sherlock’s key features.
- Understand Ansys Sherlock’s unique approach in to electronics reliability evaluation.
- Discover Ccapabilities tothat support the Ssystem -level electronics reliability studies.
Engineering Analysts, Designers, Manufacturing Engineers, Testing Engineers, Mechanical Engineers, Electrical Engineers, Reliability Engineers and Component Engineers
Speaker: Viswanath Yakkala