Lead-Mechanical Engineering | Power Electronics Product & Systems
Role
Provide end-to-end leadership for mechanical engineering and thermal systems of power electronics products and integrated systems, ensuring robust mechanical architecture, effective thermal management, environmental protection, manufacturability, and lifecycle reliability across high-power, high-density electrical platforms (Solar Inverters, BESS/PCS, EV Chargers, Electrolysers, and Industrial Power Electronics products.)
Key Responsibilities
- Mechanical & Thermal Architecture Leadership
- Define mechanical system architecture for:
- Solar Inverters (String & Central)
- BESS / PCS Cabinets & Containers
- EV Chargers (AC, DC Fast, Ultra-Fast)
- Electrolyser Power Supply Systems and other industrial PE products
- Own thermal management strategy:
- Natural & forced air cooling
- Liquid cooling (cold plate, immersion where applicable)
- Heat exchanger and airflow optimization
- Define enclosure concepts, IP ratings, corrosion protection, and seismic/wind load compliance.
- Product Engineering & Execution
- Lead teams covering:
- Mechanical Design & CAD
- Thermal & CFD Engineering
- Structural & Sheet-Metal Design
- Packaging & Industrial Design
- Establish mechanical design standards, guidelines, and review processes.
- Drive power density improvements through optimized packaging.
- Ensure design trade-offs between cost, thermal performance, reliability, acoustics, and serviceability.
- Product Development Lifecycle Ownership
- Own mechanical development across:
- Requirements → Concept → Detailed Design → Prototype → Validation → Production
- Implement V-Model / Stage-Gate / APQP processes.
- Drive Design for Manufacturability (DFM), Design for Assembly (DFA), and Design for Serviceability (DFS).
