Resumen: Professional responsible for supporting product development, testing, and continuous improvement activities within the engineering and design area. This role collaborates with cross\-functional teams to perform laboratory evaluations, prototype validation, design reviews, and technical documentation to ensure products meet quality, safety, and performance standards. Responsabilidades: Mains Responsibilities: * Conduct laboratory tests, measurements, and evaluations for electronic and mechanical components. * Support the design team in prototype development, analysis, and validation. * Prepare technical reports, test results, and engineering documentation. * Assist in troubleshooting, root\-cause analysis, and product improvements. * Ensure compliance with industry standards, internal specifications, and safety requirements. * Collaborate with engineering, manufacturing, and quality departments to support new product introduction (NPI). • Business Acumen: Leading efforts to improve the financial impact of engineering activities on the business and thorough understanding of how other functions impact the business. • Engineering Processes: Fluent in most processes and leading improvement initiatives. • Project Impact: Responsible for managing projects requiring multiple components and sub\-systems integration. • Team Interaction: Technical leadership on project cross functional teams • External Customer Interaction: Interacts widely with external customers and bodies • Autonomy: Manages workload effectively with general direction required • Technical Communication: Can handle preparation and presentation on technical subjects • Technical Judgment (Problem Solving): Presentation of multiple solutions and effective reasoning around final selection shown • Developing Others: Effective at mentoring and guiding less experienced engineers YEARS OF EXPERIENCE: • 7 – 10 years EDUCATION: • BS in Engineering discipline FOUNDATIONAL COMPETENCIES: • Develop House of Quality matrix, prioritize customer requirements and relate customer requirements to engineering design specification • Conduct a detailed Design Failure Mode Effects Analysis (DFMEA) per the American Automotive Industry Group (AAIG) standard • Track product reliability using the reliability growth model • Design and analyze two\-level full factorial experiments with any number of input variables • Conduct exploratory analyses using Analysis of Variation (ANOVA) and hypothesis testing • Design and analyze advanced full and partial factorial experiments • Use the analysis as the basis for a detailed failure mode and effects analysis • Apply statistical simulation techniques to mathematical representations to understand the effect of input variation • Conduct a detailed Process Failure Mode and Effects Analysis (PFMEA) per the AAIG standard • Develop a control plan to resolve DFMEA and PFMEA issues including the identification of Key Control Characteristics