• Design and analyze complex magnetic components, including high-frequency inductors, transformers, and ATRUs across a wide power range (100W–500kW, up to 13.8kV).

• Apply deep knowledge of magnetic materials and construction techniques to influence electrical, thermal, and mechanical performance.

• Define engineering requirements and perform simulations (FEM, circuit analysis) to guide and optimize magnetic designs.

• Collaborate with cross-functional teams including electrical, mechanical, manufacturing, and external partners to ensure successful product development.

• Prototype, test, and refine components to meet system-level performance and reliability requirements.

• Support manufacturing processes, improving part quality, yield, and integrating effective thermal management strategies.

• Degree in Mechanical, Electrical Engineering, or Physics with 5+ years of relevant industry experience.

• Expertise in magnetic component design, including inductors, transformers, and planar magnetics.

• Proficient with simulation tools for magnetic, circuit, thermal, and vibration analysis (e.g., ANSYS Maxwell, COMSOL, MATLAB).

• Hands-on engineering mindset, comfortable with prototyping, testing, and practical problem-solving.

• Ph.D. in Mechanical, Electrical, or related Engineering field with a solid foundation in system-level design and analysis.

• Expert in magnetics and EMI control, including common mode chokes, current sensors, planar PCB magnetics, and radiated emissions testing.

• Deep understanding of thermal management and design trade-offs to meet performance, cost, and reliability targets.

• Knowledge of aerospace, military, and residential standards, with experience working in diverse, cross-functional engineering teams.

Salary: $125,000 - $155,000