Power System Modeling Principal Engineer

About The Position

Requirements

• Bachelor's degree in Electrical Engineering, Power Systems, Power Electronics, from an accredited institution
• Minimum 15 years of experience in power systems modeling such as: EMT simulation, system-level analysis in converter-dominated architectures.
• Experience using PSCAD and Simulink/Simscape Electrical as primary modeling environments for power system and EMT simulations.
• Experience with DC distribution systems, converter behavior, protection strategies, and grid/microgrid interconnection principles.
• Experience with defining modeling strategy, abstraction frameworks, and multifidelity approaches tailored to program needs.
• Experience modeling converter dominated DC distribution and datacenter power architectures, including hyperscale or mission critical applications.
• Experience with multitool simulation workflows, including tools such as PSCAD, Simulink/Simscape Electrical, CYME, PSS®E, ETAP, DIgSILENT PowerFactory, and Modelica based tools, with the ability to determine the right tool for different study types
• Strong communication and collaboration skills across multidisciplinary engineering environments.
• Prior experience influencing modeling direction, standards, or governance across multiple engineering groups.

Nice To Haves

• Master's or PhD in Power Systems, Power Electronics from an accredited institution
• Experience modeling multidomain interactions (electrical + thermal + mechanical or fluid) and using FMI/FMU for model interoperability.
• Experience integrating reduced order modeling, data driven abstractions, or multifidelity workflows.
• Experience with HIL platforms such as OpalRT, Typhoon HIL, or ETDS for real-time model based validation.
• Experience with PLECS or similar converter level modeling tools for detailed switching and power electronics behavior.

Responsibilities

• Define simulation structures and workflows integrating electrical, thermal, mechanical, and other multidomain interactions.
• Develop and own models for power system studies such as protection coordination, load flow, short circuit behavior, harmonics and power quality analysis, converter interactions, transient stability, dynamic response, resilience/blast radius analysis, and greenfield/brownfield datacenter evaluations.
• Build scalable model structures and reusable libraries using PSCAD and Simulink/Simscape Electrical as the primary environments for electrical system modeling.
• Lead multitool modeling workflows using electrical system tools (PSS®E, CYME, ETAP, DIgSILENT PowerFactory, etc.) and Modelica based or other specialized environments for thermal fluid, mechanical, and Multiphysics studies, ensuring cross tool alignment and fidelity across all study types.
• Partner with System Architects and MBE teams to embed modeling insights into architecture selection, requirement definition, and design tradeoff decisions.
• Translate application engineering needs into modeling structures, fidelity targets, test cases, and simulation plans.
• Maintain traceability between modeling artifacts, architecture elements, and system requirements (aligning with MBSE practices).
• Coordinate modeling activities across groups such as ERL, CDE, divisional engineering teams (UPS, switchgear, converters, transformers).
• Promote model governance, documentation standards, reusable assets, and consistent modeling practices across programs.
• Develop scalable simulation templates, standardized workflows, and reusable modeling patterns to accelerate adoption across the organization.
• Support real-time and hardware in the loop validation using platforms such as OpalRT, Typhoon HIL, and ETDS when required for system level verification.