Job Summary
To conceptualize| design and deliver product / sustenance delivery through the team as per defined scope and standards in a particular technology
• Lead mechanical design for key ion implanter subsystems: Process Chamber Modules, Beamline structures, Wafer handling, and Vacuum chambers.
• Own end to end development: Conduct Design reviews, apply robust mechanical engineering fundamentals including Design calculations, applying DfX principles, GD&T, Tolerance stacks.
• Execute hand calculations and basic FEA using CREO Simulate, ANSYS or similar applications to evaluate structural integrity, load capacity, and reliability.
• Perform detailed CAD work, design documentation, engineering drawings, and BOM management using CREO, AutoCAD and PLM (Windchill preferred).
• Develop precision motion mechanisms and complex electromechanical assemblies.
• Perform FEA/CFD (thermal, structural, modal) and validate via prototyping.
• Drive DFM/DFX, manufacturability improvements, reliability growth, and cost reduction
• Define test requirements, coordinate execution, and document engineering test plans and reports for tooling and mechanical systems.
• Prepare, review, and approve detailed engineering documentation, ensuring accuracy, completeness, and compliance with internal standards.
• Collaborate with cross-functional teams such as systems, electrical, controls, physics, manufacturing, and field service, etc.
• Ensure compliance with SEMI S2/S8, and internal safety standards.
Key Responsibilities
2. To train and develop team so as to ensure that there is an adequate supply of trained manpower in the said technology and delivery risks are mitigated.
3. To ensure knowledge up-gradation and work with new technologies so that the solution is current and meets quality standards and the client requirements.
4. To gather specifications and deliver solutions to the client organization based on understanding of a domain or technology.