Job Description
**What you’ll do:**
The successful candidate will be responsible for leading the overall development of power electronics and power systems applications, as well as technologies in digital design for power electronics components. He/she should be capable of executing system, sub-system, and component-level plant modeling (mathematical analysis) for the design and development of various Eaton products in the domain of power electronics.
Responsibilities will include devising methods based on machine learning to complement physics-based approaches for the rapid development of power electronics components and controls. These methods encompass both data-driven and physics-driven design optimization techniques, such as generative design and topology optimization.
The candidate will collaborate with global teams, understand design intent, and develop and validate models to substantiate the designs of various systems, sub-systems, and components. They will provide t...
The successful candidate will be responsible for leading the overall development of power electronics and power systems applications, as well as technologies in digital design for power electronics components. He/she should be capable of executing system, sub-system, and component-level plant modeling (mathematical analysis) for the design and development of various Eaton products in the domain of power electronics.
Responsibilities will include devising methods based on machine learning to complement physics-based approaches for the rapid development of power electronics components and controls. These methods encompass both data-driven and physics-driven design optimization techniques, such as generative design and topology optimization.
The candidate will collaborate with global teams, understand design intent, and develop and validate models to substantiate the designs of various systems, sub-systems, and components. They will provide t...