Contact UsDescription:
Addressing electronics reliability has become a critical factor for an increasing number of industries and applications. Manufacturers’ trends toward adding new features, accelerating time-to-market, improving first-pass yield, and decreasing warranty rate create a significant challenge for the design and development of modern electronics systems.
Watch this recording to learn about:
– Challenges in electrical, thermal, and mechanical reliability and how Ansys tools are used to provide solutions
– Addressing electronics reliability issues at the package, PCB, and system levels
– Meeting desired reliability goals using reliability physics analysis
-Overview of Ansys Sherlock and Ansys Icepak
Logistics Engineering & Addressing Electronics Reliability
The possibility that a system or product will operate as intended for a set period of time, when used under predetermined operating conditions, can be defined as reliability in logistics engineering and management.
In addition, delivering satisfactory performance across the course of a product’s lifecycle is emphasized in addressing electronics reliability engineering. Effective reliability engineers must have a baseline degree of expertise across all technical disciplines. Moreover, a strong grasp of failure mechanisms gained from experience and applied knowledge. After all, reliability is engineering in its most beneficial form.
In the past, overdesign was used to make items more reliable. This technique reduced the need to initially comprehend typical failure types and material properties in terms of predicting mechanical reliability.
Additional Ansys Software Tips & Tricks Resources
-
- Analyzing normal and Tangential Elastic Foundations in Mechanical
- For support on Contained Fluid FEA Modeling with HSFLD242 Elements
- For Exporting a Deformed Geometry Shape Post-Analysis in Mechanical
- For guidance Multi-Step Analyses in Mechanical
- For Retrieving Beam Reaction Force in a Random Vibration Analysis
- Deploying Ansys Macro Programming vis *USE Command in Mechanical
- For replicating Fatigue Models from Start to Finish in Mechanical
- Setting up Acoustic Simulations of a Silencer
- For a step-by-step guide on 2D to 3D Submodeling in Mechanical
- For modeling Pipe16 Circumferential Stress in Mechanical
- For Support on performing ‘EKILL‘ in Workbench
- APDL Command Objects post-Spectral Analysis
- For Separating DB Database Files from RST Files
- Measuring Geometric Rotation in Mechanical WB
- CAD Geometry Deformation Plasticity
- Offsetting a Temperature Result to Degrees Absolute
- For general guidance on Ansys Post-Processing
- For basic Ansys Software Installation and License Manager Updates
