TE Connectivity is looking to solve signal integrity design, simulation, and verification-validation testing problems for high-speed products in the connector and/or cable assembly, radio system industry
Requirements
- Proficient with signal integrity analysis tools (Agilent ADS, Ansys HFSS, CST, or equivalent tools)
- Solid understanding of electromagnetic theory and electrical circuit behavior
- Familiarity with printed circuit board design, fabrication, and assembly
- Experience with interconnect design, including socket/connector/cable/cable assembly design (high-speed twinax cables, direct attach copper (DAC) cables), and/or RF
- Design experience with communication systems (high-speed servers, switches, routers, storage, antennas, RF front end, or similar systems)
- Experience with test equipment (oscilloscope, vector network analyzer, BERT)
- Signal conditioning techniques (equalization, amplification)
Responsibilities
- Establishing signal integrity design performance/functional requirements for new products
- Performing signal integrity simulations for multiple high-speed standards on each product
- Performing PCB design schematic and layout reviews
- Creating actionable recommendations based on design reviews and simulation results
- Guiding connector design and component qualifications from a signal integrity standpoint
- Making data-driven decisions about the product functionality and areas for improvement
- Tackling challenging design problems and utilizing simulation tools to guide complex designs toward success
Other
- Bachelor’s degree in Electrical Engineering or equivalent work experience
- 5+ years of relevant work experience in electrical design, RF design, or PCB design
- Fluent in English (both verbal and written) to facilitate global communication both internally and with external customers
- Ability to work in a global environment – able to accommodate varying time zones and capable of collaborating with individuals across geographies
- Highly motivated, a quick learner, and able to work independently
