Senior Hardware Systems Engineer, Watches
The Pixel Watch Electrical Engineering (EE) team is responsible for the end-to-end hardware development of Google's first-party Watch products. We work with product managers during initial concept and design phases, advocate new technology investigations, and manage the entire hardware lifecycle, from board integration and comprehensive validation to overseeing manufacturing to deliver products with a user experience and state-of-the-art health sensing capabilities.
As an Electrical Engineer on the Watch product team, you will be responsible for key design activities throughout the Watch product development phase. This includes focusing on technical design development and optimization, collaborating with cross-functional teams, and working closely with external suppliers and partners for design and manufacturing. You will also work on some hardware related issues Failure Analysis (FA) that feedback from users, EFFA, RMA.
Individual pay is determined by factors including job-related skills, experience, and relevant education or training.
US: $159000 - $231000 (USD) + 15% bonus target + bonus + equity + benefits
Learn more about benefits at Google.
Minimum qualifications:
- Bachelor’s degree in Electrical Engineering, Computer Engineering, Physics, a related field, or equivalent practical experience.
- 4 years of experience working in a consumer electronics technical environment, or 3 years of experience with an advanced degree.
- Experience managing electrical subsystems or entire products from concept architecture through mass production.
- Experience with schematic capture and PCB layout tools such as Cadence OrCAD/Allegro or Altium.
- Experience in digital and analog circuit design, including high-speed signal integrity, SoC integration, and board-level power design.
Preferred qualifications:
- 7 years of experience in consumer electronics and embedded system design, with expertise in mass-volume production, DFM, and DFT.
- Experience with prototype bring-up, debugging, functional verification, manufacturing support, and working in a lab-based environment.
- Proven track record in Power Delivery Network (PDN) optimization, DCR/ACR modeling, and switching power phase response analysis.
- Advanced knowledge of DC-DC design, power tree optimization, and efficiency tuning using simulation and component selection.
- Cross-functional expertise bridging EE and software, with the ability to integrate high-density MLB design and SoC/firmware knowledge to resolve system-level issues and drive key component selection.