Job DescriptionResponsible as a system lead for conducting comprehensive investigations to develop a cost-effective, reliable, and high-quality instrumentation system that meets project requirements and expectations.
Provide technical expertise in system engineering principles and their applications to cross-functional teams to facilitate seamless interpretation and translation into design intent.
Understand the project's performance, functionality, form, fit, quality, reliability, robustness, safety, and regulatory compliance requirements. Work closely with cross-functional teams to generate implementable Design Inputs that can be translated into Design Outputs, ensuring adequate prototype evaluation, research, analysis, and simulation.
Serve as the technical point of contact, representing the project team in liaising with, reporting to, and updating key stakeholders.
Develop an executable test architecture and strategy to systematically implement the test plan, verifying the product's quality, functionality, performance, reliability, and robustness as per the agreed requirements and expectations.
Act as a key reviewer to approve the test plan and test cases. Supervise test execution from a compliance and quality perspective.
Lead product risk assessments using established tools (e.g. FMEA, Fault Tree Analysis) to understand anticipated design risks and create action plans to mitigate and contain those risks.
Lead the team in investigating failures, performing Root Cause Analysis with professional tools, and managing, tracking, and monitoring design/project issues. Ensure proper closure of issues with actions at the required project stages.
Collaborate with the Project Manager to facilitate the transition and transfer of product design to full production.
QualificationsBachelor's or Master's Degree in Mechatronics, Robotics, Mechanical, Electrical/Electronic Engineering from an accredited college/university.
Typically, 10 years of experience in R&D, NPI or Test Engineering.
Good knowledge of basic electronic (DMM, Oscilloscope, Logic Analyzer, etc.), and mechanical (positional, cyclic, temperature, humidity, shock, vibration, altitude, etc.) testing methodology.
Experience with the design/ testing of automated equipment, robotics, and other instrumentation is an added advantage.
Good depth of experience in FMEA or other failure prevention techniques.
Strong analytical and troubleshooting skills coupled with a detailed approach to root cause failure analysis.
Good organization, planning, interpersonal skills, and ability to work in a team.
Able to adapt well to a dynamic working environment, eager to learn new knowledge, and able to work independently.
Additional DetailsThis job has a full time weekly schedule. Our pay ranges are determined by role, level, and location. Within the range, individual pay is determined by work location and additional factors, including job-related skills, experience, and relevant education or training. During the hiring process, a recruiter can share more about the specific pay range for a preferred location. Pay and benefit information by country are available at:https://careers.agilent.com/locations
Agilent Technologies Inc. is an equal opportunity employer. Qualified applicants will receive consideration for employment without regard to race, color, religion, sex, sexual orientation, gender identity, national origin, protected veteran status, disability or any other protected categories under all applicable laws.
Travel Required:Occasional
Shift:Day
Duration:No End Date
Job Function:R&D#J-18808-Ljbffr