2. Optimizing packaging design via

2. Optimizing packaging design via modeling and simulationThe principles and challenges of mechatronics are first encountered in the packaging design phase. By using digital modeling and simulation techniques up front, you can minimize the cost and time required to produce the final physical end product.
At this stage, a diverse group of design professionals works cohesively as a collaborative team in their respective disciplines. These areas may include industrial design (conceptual and aesthetics); mechanical engineering (conceptual, functional, and manufacturing considerations); interaction design (software-hardware control interface); and electrical/electronic engineering (functional, power requirements, and insulation/shielding).Simultaneously, a preliminary printed circuit board (PCB) layout and a rough 3D mechanical CAD model are generated, with the major components and interconnections defined. To reduce costs, all collaborative team members
must constantly check the availability of standardized 3D components.
Historically, this stage has encountered problems due to a lack of interoperability between ECAD and MCAD, which often results in the duplication of efforts. Using digital modeling and simulation from the outset, however, can enhance both interference detection and the routing between the various mechanical and electrical subsystems. In the packaging design phase, design optimizations are performed for all components—including mechanical, electrical, electronic, and software.