Electromechanical Design for Electronic Components

Connected Physics Analysis for Optimal Performance.

Combining ECAD, MCAD and Multiphysics

To achieve first-time-right product delivery and meet stringent performance targets, engineering teams must overcome the challenges of disconnected workflows. By integrating multiphysics analysis directly into the design process, you can accurately predict complex interactions between electrical, thermal, acoustic and mechanical domains. This enables data-driven decisions that reduce physical prototyping, mitigate failure risks and ensure your designs meet reliability and performance standards from the start.

Evaluate Your Workflow with Our Experts
See the full multiphysics workflow in action. Request a technical demo or schedule a workshop with a SIMULIA specialist to evaluate your PCB vibration, MEMS, or electromechanical use case—and quantify the time and accuracy gains for your team.

Solution Benefits

MEMS Design > Circle List > Dassault Systèmes®

MEMS Design

Micro-electromechanical systems are complex, semiconductor-based components that require multiphysics design for optimum performance.

PCB Power Components > Circle List > Dassault Systèmes®

PCB Power Components

Printed Circuit Board components can vibrate and, if they match a board's resonance, can create high levels of noise and cause sensor degradation.

ECAD to MCAD > Circle List > Dassault Systèmes®

ECAD to MCAD

Transfer electronic CAD layouts to mechanical CAD geometries, meshed and ready for structural or fatigue simulation.

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