Driver Monitoring Systems (DMS) are vital for the safety and efficiency of Advanced Driver Assistance Systems (ADAS).
The performance and reliability of these systems depend significantly on the quality of the PCB (Printed Circuit Board) layout. A thorough and well-executed end-to-end PCB layout design is crucial for ensuring that the DMS operates effectively and reliably.
This Case study focuses on the complete end-to-end PCB layout design process and its impact on enhancing the reliability of DMS within ADAS applications. We will examine how optimizing each stage of the PCB design—from initial planning and component placement to final routing—can improve system performance, reduce errors, and ensure robust operation.
