Principal Power Systems Engineer

Oracle Oracle · Enterprise · United States

Principal Power Systems Engineer at Oracle focused on advanced electrical system architectures, component selection, system optimization, validation, and documentation. The role involves driving innovation, research and development in electrical systems for server performance, reliability, and efficiency, while also ensuring compliance with global safety and electromagnetic compatibility regulations. It requires expertise in design, implementation, testing, and continuous learning to position Oracle as a leader in electrical system innovation.

What you'd actually do

  1. Implements the strategic vision for advanced electrical system architectures, addressing complex design challenges to enhance both technical performance and business objectives.
  2. Defines component selection strategies and system-wide optimization frameworks, ensuring alignment with evolving technical standards, manufacturing feasibility, and performance requirements.
  3. Implements enterprise-level validation strategies, ensuring electrical system performance, reliability, and efficiency meet industry standards.
  4. Drives the development of enterprise-wide technical documentation frameworks, ensuring precision, consistency, and strategic alignment with business objectives.
  5. Contributes to thought leadership initiatives, driving research and development efforts that position Oracle as a leader in electrical system innovation.

Skills

Required

  • Electrical system architecture design
  • Component selection and optimization
  • System-level performance validation
  • Technical documentation development
  • Research and development in electrical systems
  • Server performance, reliability, and scalability
  • Power efficiency and thermal management
  • Modeling and simulation
  • Design analysis
  • CAD integration
  • Board layout principles
  • Firmware, software, and diagnostics integration
  • Sustaining engineering and root cause analysis
  • Electromagnetic Compatibility (EMC) and regulatory compliance
  • Global safety and environmental regulations
  • Risk assessment and failure analysis
  • Product development lifecycle management
  • Cross-functional collaboration and leadership

Nice to have

  • AI/ML tools for system design or analysis

What the JD emphasized

  • advanced electrical system architectures
  • complex design challenges
  • component selection strategies
  • system-wide optimization frameworks
  • enterprise-level validation strategies
  • enterprise-wide technical documentation frameworks
  • research and development efforts
  • electrical system innovation
  • server performance
  • reliability
  • scalability
  • power efficiency
  • thermal management
  • manufacturability
  • modeling
  • simulation
  • design analysis
  • CAD integration
  • board layout
  • escalations for highly complex component issues
  • firmware
  • software
  • diagnostics
  • sustaining engineering
  • root cause analysis
  • qualifying alternate components
  • end-of-life issues
  • product iterations
  • development cycles
  • cross-functional collaboration
  • formal design reviews
  • technical authority
  • technology roadmaps
  • competitive differentiation
  • Electromagnetic Compatibility
  • global safety
  • electromagnetic compatibility (EMC)
  • environmental regulations
  • product scalability
  • sustained market access
  • compliance risks
  • regulatory requirements
  • scalable pre-compliance testing
  • certification readiness
  • regulatory change
  • emerging global standards
  • internal design and documentation practices
  • enterprise-wide best practices
  • compliance is embedded
  • core product development capability
  • internal tools to manage compliance documentation