Jason R. Littlefair

In this dual role, I managed the technical execution and testing of some of the largest utility-scale renewable energy infrastructure projects in North America. Operating at the intersection of field construction and electrical design, I served as the primary technical liaison between EPC contractors, field crews, and the Engineers of Record (EOR). My focus was on ensuring that high-voltage electrical designs were highly constructable, compliant with NEC/IEEE standards, and safely energized.

Atlas Solar Portfolio (1,100MW PV / 4,200MWh BESS): Managed material procurement, logistics, and scheduling via MS Project for the construction of a novel 69kV collection system and its integration into a massive 500kV interconnection substation. Acted as the lead testing technician for tier-1 substation equipment, personally executing critical high-voltage testing procedures—including Hipot, Transformer Turns Ratio (TTR), insulation resistance, and Power Factoring—to verify equipment integrity prior to energization, resulting in zero safety incidents.

Centennial Flats (500MW PV / 1,069MWh BESS): Steered the engineering coordination for a $1.2B hybrid generating facility and its associated 500kV transmission line. Managed the complex RFI process and submittal reviews between the field teams and the EOR. Conducted rigorous constructability reviews of the 30%, 60%, and 90% IFC (Issued for Construction) electrical drawing sets. By successfully identifying spatial and electrical conflicts in switchgear and inverter pad layouts before concrete was poured, I prevented significant and costly project delays.

Beehive Storage (250MW / 1GWh Standalone BESS): Supported the project management and technical installation of a massive 22-acre standalone battery energy storage facility developed by EDF Power Solutions. Facilitated the procurement, placement, and testing of high-capacity BESS enclosures and their associated electrical infrastructure, directly contributing to a 1 gigawatt-hour storage capacity designed to provide critical stabilization to the regional power grid.

Working remotely with the engineering design team, I translated my hands-on field experience into office-based power system design and simulation. This role heavily utilized industry-standard software to ensure utility deployments were both safe and mathematically sound before reaching the construction phase.

• Developed and revised complex Single Line Diagrams (SLDs) for utility clients, verifying that field site layout plans matched the strict engineering specifications and code requirements.
• Executed comprehensive power systems studies utilizing ETAP and SKM PTW. This included running load flow simulations, short circuit analysis, arc flash hazard assessments, and harmonic analysis to ensure grid reliability and personnel safety.
• Generated highly accurate Bills of Materials (BOMs) for utility-scale deployments, bridging the gap between design engineering and procurement.

Stationed in the extreme environments of the Alaskan arctic, I supported the heavy civil and electrical construction of the multi-billion-dollar ConocoPhillips Willow Project. This role demanded extreme adaptability, precise engineering execution, and a flawless safety record under harsh conditions.

• Facilitated the physical installation, termination, and routing of electrical instrumentation and heavy industrial equipment across the $9B oil and gas infrastructure development.
• Maintained 100% on-time project completion despite severe weather delays, coordinating daily with safety managers and site engineers to adhere to industry-leading Lockout/Tagout (LOTO) and OSHA safety standards on a highly scrutinized, tier-1 energy project.