✨ About The Role
- The System Signal Integrity Engineer will support high data rate SerDes applications and 5G base station ADC/DAC applications.
- Responsibilities include system-level signal and power integrity design trade-offs and debugging.
- The role involves collaborating with package, PCB, and silicon designers to complete measurement-simulation correlation projects.
- The engineer will develop models using electromagnetic field solvers, primarily Ansys HFSS.
- The position requires evaluating board/package materials and connector solutions for future designs.
- The engineer will simulate schematic models within Keysight ADS and ensure model accuracy for design simulations.
- The role includes performing and developing VNA/TDR measurement techniques and correlating them with models and simulations.
- The engineer will provide feedback from measurement-simulation correlation investigations to improve modeling best practices.
- Pre-layout and post-layout modeling will be part of the job responsibilities.
âš¡ Requirements
- The ideal candidate will have extensive experience in high data rate SerDes applications, particularly in systems up to 112Gbps NRZ and 224G PAM4.
- A strong background in 5G base station ADC/DAC applications is essential for success in this role.
- The candidate should possess a deep understanding of signal and power integrity design trade-offs and debugging techniques.
- Collaboration skills are crucial, as the role involves working closely with package, PCB, and silicon designers.
- Proficiency in using electromagnetic field solvers, particularly Ansys HFSS, is required.
- The successful candidate will have experience with high-speed data communications and transmission-line theory.
- Familiarity with VNA/TDR measurement techniques and the ability to capture high fidelity lab measurements is important.
- Strong organizational skills are necessary to manage multiple projects effectively.
- Excellent communication skills are required to convey complex concepts clearly in both written and verbal formats.