Senior Thermal Engineer; Engineering Austin, TX
Listed on 2026-07-04
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Engineering
Energy Engineer, Mechanical Engineer, Test Engineer
Enphase Energy is a global energy technology company and a leading provider of solar, battery, and electric vehicle charging products. Founded in 2006, our innovative microinverter technology revolutionized solar power, making it a safer, more reliable, and scalable energy source. Today, the Enphase Energy System enables users to make, use, save, and sell their own power. Enphase is also one of the most successful and innovative clean energy companies in the world, with more than 80 million products shipped across 160 countries.
Join our dynamic teams designing and developing next-gen energy technologies and help drive a sustainable future!
About the RoleThe Enphase Energy SST Product Innovation Team sits in the Office of the CTO and is responsible for defining, prototyping, and scaling the next generation of Enphase storage and power systems. We are a fast-moving, multi-disciplinary group on a mission to push the boundaries of energy density, reliability, and system efficiency.
You will be part of thermal solution team for cutting‑edge medium‑voltage power conversion systems, working side‑by‑side with power electronics, mechanical, and manufacturing engineers to bring world‑class products to life. Your work will directly impact the reliability and performance of systems deployed at scale across the globe.
What You Will Do- Apply rigorous first-principles thermal analysis: Approach every thermal problem with strong theoretical grounding — deriving analytical models from fundamental heat transfer (conduction, convection, radiation) before committing to simulation or hardware. Use theory to set expectations, bound the solution space, and critically evaluate simulation outputs.
- Decompose complex thermal problems into incremental steps: Break down system‑level thermal challenges into discrete, testable sub-problems. Define a clear experiment or analysis for each sub-problem, resolve it completely, and build toward the full solution with confidence at each stage. Document the learning at every step so the team accumulates durable thermal knowledge.
- Design and harvest test results from thermal test vehicles (TTVs): Conceive and construct thermal test vehicles — purpose-built mock‑up devices that simulate the thermal behavior of a system without testing the real device. Use TTVs to isolate specific thermal mechanisms (contact resistance, airflow uniformity, cold plate effectiveness, transient response) independent of full product complexity.
- Own end‑to‑end thermal solution: Lead thermal design from concept through validation for high‑power‑density power electronics and energy storage enclosures, ensuring junction temperatures, surface temperatures, and coolant conditions meet reliability targets across all operating and ambient environments.
- Design and optimize air‑cooled systems: Develop forced‑air and natural‑convection cooling solutions, including heat sink geometry, fan selection, ducting, airflow channeling, and system‑level pressure‑drop budgets. Apply CFD tools (Ansys ICEPAK, FloTHERM, Solid Works Flow Simulation, or Fluent) to model and optimize airflow and thermal resistance.
- Drive thermal analysis and simulation: Build detailed thermal resistance networks and CFD models to predict steady‑state and transient temperature profiles. Correlate simulation results with hardware measurements and iterate models to maintain < 5°C prediction accuracy.
- Lead thermal testing and validation: Design and execute thermal characterization test plans using structured thermal test vehicles and incremental experimentation. Build bench setups with thermocouples, RTDs, IR cameras, and data acquisition systems. Analyze results against theoretical predictions, identify failure modes, and drive design improvements with data.
- Define thermal design rules and margins: Establish component‑level and system‑level thermal budgets, derating curves, and design guidelines. Drive thermal margin reviews as part of the product development process.
- BS, MS, or PhD in Mechanical Engineering, Aerospace Engineering, or closely related field
- Job title and level determined by candidate experience
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