As a Hardware Electrical Engineer at Meta, you will design, develop, and integrate innovative electrical systems for a wide range of applications, from next-generation consumer hardware to large-scale infrastructure. You will collaborate with cross-functional teams—including mechanical, optical, firmware, software, and manufacturing experts—to deliver impactful solutions. Your work may span the full product or system lifecycle, from early prototyping and feasibility studies to large-scale deployment and operational excellence.
You will be part of a dynamic environment that values technical excellence, rapid iteration, and creative problem-solving.
Responsibilities
- Own electrical development of complex subsystems or moderately complex systems, under guidance from technical leads or managers
- Lead schematic design, board layout, and cross-functional design reviews
- Propose innovative solutions to enhance the system or product's performance, reliability, and features
- Manage hardware bring-up, debugging, and support for manufacturing, assembly, or deployment
- Evaluate vendor reference designs and adapt them to Meta’s requirements
- Provide technical guidance and support to other engineers; contribute to team knowledge sharing
- Work autonomously and take the initiative to manage individual and team priorities
- Collaborate in a distributed team environment and across engineering disciplines
- Contribute to operational excellence, compliance, or specialized requirements as relevant to the team’s mission
Minimum Qualifications
- Bachelor’s or Master’s degree in Electrical Engineering, Computer Engineering, or a related field, or equivalent industry experience
- 6+ years of experience in electrical design, with a demonstrated track record of delivering/shipping high-volume products and/or working in research, prototyping, or early-stage development environments
- Demonstrated expertise in designing and troubleshooting complex electrical systems or subsystems
- Proficiency in interpreting and creating electrical schematics, designing physical layouts (e.g., PCBs or panel/plant layouts), and/or performing hardware/system bring‑up and debug at the lab or field level
- Experience collaborating across engineering disciplines and with external partners or vendors Knowledge of using Linux for testing and automation/script development
- Experience with low-voltage and high-current power subsystems of CPU, GPU, SoC, ASIC, and/or FPGA, and related schematic and PCB design
- Familiar with defining specifications and validation of power connectors, cable assemblies and fuses
- Experience in power delivery validation and design of DC-DC voltage regulators (e.g., control schemes, power stage MOSFETs, magnetics, and decoupling), hot-swap circuitry (e.g., controller ICs, MOSFET load switches, current sense amplifiers) (e.g., control schemes, power stage MOSFETs, magnetics, and decoupling), hot-swap circuitry (e.g., controller ICs, MOSFET load switches, current sense amplifiers)
- Experience with design and troubleshooting of power management interfaces (e.g., PMBus, AVS, SVID, and SVI2)
- Experience with power integrity evaluation
- Familiar with power delivery architecture of one major CPU supplier
- Experience with end-to-end power delivery network design, simulation (e.g., SIMPLIS, Sigrity PowerDC/SI, ANSYS SIWave or equivalent) and board level correlation
- Experience with development of test automation for power validation
- Familiar with NPI hardware design and deployment cycle
- Experience adhering to and implementing responsible, ethical AI practices (e.g., risk assessment, bias mitigation, quality and accuracy reviews)
- MS or PhD in Electrical Engineering with emphasis in Power Electronics
- Demonstrated ongoing AI skill development (e.g., prompt/context engineering, agent orchestration) and staying current with emerging AI technologies
- Demonstrated ability to integrate AI tools to optimize/redesign workflows and drive measurable impact (e.g., efficiency gains, quality improvements)