Microgrid/controls Lead

Oracle Oracle · Enterprise · United States

This role focuses on designing and developing resilient microgrid and control systems for Oracle's data centers, ensuring stable power delivery. It involves translating operational objectives into real-time control behavior, defining system-level control philosophy, and leading detailed controls architecture. The role also supports commissioning, validation, and developing repeatable reference architectures.

What you'd actually do

  1. Define and drive the microgrid controls strategy for OCI mission-critical data center power systems (grid-connected, islanded, and transition modes).
  2. Translate operational, reliability, and economic objectives into real-time control behavior, including: Dispatch priorities and resource scheduling Grid interaction logic (import/export, curtailment, operating envelopes) Power quality objectives and dynamic response targets at the PCC
  3. Define system-level control philosophy, operating modes, sequencing, and interlocks for integrated generation, energy storage, and load systems.
  4. Design and validate grid-forming and grid-following strategies, including stable transitions between operating states (islanding, re-synchronization, restoration).
  5. Lead detailed controls architecture and integration, including: EMS functional requirements and interfaces Microgrid controller logic and coordination Inverter control requirements and tuning approach Coordination with thermal generation controls and plant-level systems

Skills

Required

  • designing and deploying microgrids for large campuses or critical facilities
  • inverter-based resources, including batteries (BESS) and fuel cells, plus integration with thermal generation
  • islanded and grid-tied microgrid operation, including transitions between operating states
  • power quality, protection concepts/coordination, and applicable standards such as IEEE 2800 and IEEE 1547/2030
  • commissioning experience with EMS and microgrid controllers

Nice to have

  • microgrid platforms and ecosystems
  • defining acceptance testing for islanding/re-synchronization and PCC power quality performance
  • utility interconnection processes and translating study outcomes into implementable control limits and operating logic
  • technical writing skills for control narratives, interface definitions, and commissioning/acceptance documentation
  • working in cross-functional, multi-vendor environments with strong configuration/change control discipline

What the JD emphasized

  • mission-critical data center power systems