Modern automotive systems are evolving into sophisticated high-speed data hubs, seamlessly integrating advanced display, infotainment, and sensor-driven connectivity. This rapid thirst for data exchange introduces electrical Signal Integrity (SI) challenges in various high-speed interfaces essential to the performance of Electronic Control Units (ECUs). Reliable signal design becomes a cornerstone for ensuring the safety and efficiency of automotive systems.
In this presentation, we delve into SERDES MIPI interfaces and explore techniques for designing high-speed signals with precision. Key topics include matching trace impedance, avoiding crosstalk, minimizing jitter, and reducing noise—critical elements for achieving robust and reliable performance. Attendees will gain insights into frequency-dependent SI behaviors that shape MIPI designs, alongside essential PCB strategies to address common degradation issues.
This exploration combines simulation methodologies inspired by the Digital Twin paradigm with timing analysis, empowering designers to enhance signal integrity and deliver cutting-edge performance for next-generation intelligent vehicles. Attendees will leave equipped with practical tools and strategies to revolutionize their own automotive projects.