In your career, let’s prove what’s possible.
- Work closely with the Product Group to align requirements, design and implement common architectures
- Design and develop custom solutions for electrical and embedded systems
- PCB electrical design for low voltage analog, high-speed, or embedded systems
- Work through the entire PCB development lifecycle from schematic capture to system integration
- Drive your own deliverables and at times lead a team of engineers to meet project milestones
- Integrate and validate designs within a larger system, which can include system level and on tool troubleshooting.
- Present design and validation results to stakeholders.
- Drive control system commonality across the flat panel products
- Work with an international team
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In your career, let’s prove what’s possible.
- Perform incoming and outgoing goods inspections
- Analyze deviations in components and equipment and drive corrective actions
- Handle internal and external complaints (NCe, NCi)
- Manage quality-related documentation in line with established process landscapes
- Administer RMA processes (Return Material Authorization)
- Conduct internal and external audits
- Support component and equipment testing activities
- Monitor, maintain, and evaluate KPIs within the quality area
- Manage measurement equipment, including calibration processes
- Implement and sustain 5S standards within quality areas
- Deliver and support various training sessions
- Contribute to the development and optimization of process landscapes
- Drive continuous improvement initiatives within the work area
- Support supplier qualification and process approvals
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In your career, let’s prove what’s possible.
- Participate in all phases of the automation development: requirements, design/analysis, assembly, testing, integration, and volume manufacturing.
- Design and analyze mechanical and mechatronic systems, including motion control and automation.
- Conduct detailed analysis including structural, finite element analysis (FEA), thermal, heat transfer, stress, vibrations, fluid and gas flow dynamics, and manufacturability to properly specify designs.
- Work with cross-functional teams (software, controls, suppliers, manufacturing).
- Developing control systems in close collaboration with software teams.
- Conduct feasibility studies, prototype fabrication, and failure analysis using methods like 5-Why and 8D, characterize and validate design performance.
- Develop control systems hardware, perform PID tuning, and design motion profiles.
- Prepare reports and technical presentations to clearly communicate design intent, evaluation, and validation to a diverse audience in design reviews.
- Create documentation and support lifecycle management of products.
- Ensure documentation aligns with SEMI, Lam standards, and industry best practices for geometric dimensioning and tolerancing (GD&T).
- Collaborate with suppliers and internal teams to ensure solutions can be manufactured with high-quality, cost-optimized, and to requirements.
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In your career, let’s prove what’s possible.
- Conduct process engineering research, development, and evaluation in support of Lam’s cutting-edge semiconductor equipment and systems.
- Review and enhance processing techniques and methods applied in the manufacture and fabrication of products.
- Develop and sustain new processes and process improvements to reduce production costs and increase yields.
- Compile and analyze test data to establish next steps in process development and determine appropriate limits and variables for process specifications.
- Collaborate internally to plan, collect data, analyze results, and report on customer demos for existing and new process applications.
- Contribute to next generation product development and release activities supporting the semiconductor roadmap.
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In your career, let’s prove what’s possible.
- Conduct process engineering research, development, and evaluation in support of Lam’s cutting-edge semiconductor equipment and systems.
- Review and enhance processing techniques and methods applied in the manufacture and fabrication of products.
- Develop and sustain new processes and process improvements to reduce production costs and increase yields.
- Compile and analyze test data to establish next steps in process development and determine appropriate limits and variables for process specifications.
- Collaborate internally to plan, collect data, analyze results, and report on customer demos for existing and new process applications.
- Contribute to next generation product development and release activities supporting the semiconductor roadmap.
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In your career, let’s prove what’s possible.
- Support the full life cycle of mechanical and electro-mechanical systems from concept to productization including conceptualization, designing, CAD modeling, development, and test/validation
- Designs components using variety of metals, ceramics, quartz, plastics, and advanced coatings
- Ensure documentation aligns with SEMI, Lam standards, and industry best practices for geometric dimensioning and tolerancing (GD&T)
- Conduct detailed analysis including structural, finite element analysis (FEA), stress, vibrations, gas flow dynamics, throughput, and manufacturability to properly specify designs
- Develop and conduct feasibility studies and test plans to characterize and validate design performance
- Prepare high-quality reports and technical presentations to clearly communicate design intent, evaluation, and validation to a diverse audience in design reviews
- Collaborate with suppliers and internal teams to ensure solutions can be manufactured with high-quality, cost-optimized, and to requirements
- Provide key deliverables including Failure Modes and Effects Analysis (FMEA), technical specifications, risk analysis, test specifications, and design review presentations
- Provide technical guidance and mentoring to more junior engineers
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In your career, let’s prove what’s possible.
- Provide technical support in assembly and final test of the production floor
- Work with Lam Product Group Engineering in correcting design errors and driving RCCA
- Drive the improvement of the manufacturing processes to ensure product quality, cost, and on-time-delivery
- Drive work instruction creation and deployment within Lam’s manufacturing execution system
- Estimate manufacturing cost, determines time standards and makes recommendations for fixturing and process requirements of new product lines
- Maintain records and reporting systems for coordination of manufacturing operations
- Review new designs for manufacturability and makes recommendations to design engineering on manufacturability (DFMA) improvements
- Analyze the build process via pFMEA, identifies risks and bottlenecks, and drives improvement
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In your career, let’s prove what’s possible.
- Lead the end-to-end development, scale-up, and commercialization of innovative polymer and resin systems for semiconductor equipment using additive manufacturing.
- Design, formulate, and experimentally develop novel organic and polymeric materials (e.g., UV-curable resins) for additive manufacturing (AM) technologies such as DLP, SLA, SLS, and MJP.
- Collaborate with cross-functional and international teams to select toll manufacturers and manage the transition of chemical formulations from bench scale to pilot and full-scale industrial production, including development of quality control plans.
- Serve as a Subject Matter Expert (SME) in the selection of AM materials, processes, and vendors for sourcing polymer and ceramic parts used in the semiconductor industry.
- Demonstrate strong technical leadership and problem-solving capabilities by defining problems, establishing objectives, assessing risks, developing technical approaches, analyzing results, and delivering actionable recommendations.
- Partner closely with legal teams to generate and oversee the AM intellectual property (IP) portfolio.
- Act as the primary advocate and technical leader for AM adoption across the WETS organization.
- Collaborate with design engineers to develop AM “recipes” that transition parts from design through production.
- Develop, release, and maintain AM process and material specifications to ensure product quality, build qualification, and acceptance criteria.
- Provide high-level technical training and mentorship to product engineers and junior scientists in polymer chemistry and additive manufacturing technologies.
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YOUR RESPONSIBILITIES
- Drive the transition to a fully model based and virtual engineering environment for Loader Cranes
- Develop and validate innovative crane functions through simulation and virtual testing
- Define and implement MBSE/MBD methods, tools, and standards
- Setup and lead international virtualization teams and projects, strengthen the global development network
- Establish knowledge management and KPI tracking
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