Stellantis

APQP / DFMEA Specialist

Stellantis$90K — $115K *
Manufacturing & Automotive
5 - 7 years of experience
Job Overview by Ladders

Qualifications

  • Bachelor's degree in electrical/electronic engineering or a related field.
  • 5+ years of engineering experience, particularly in automotive E/E systems.
  • Expertise in electrical architecture, diagnostics, functional safety, and vehicle networks.
  • Deep understanding of quality methods like DFMEA, System FMEA, and risk management.
  • Familiar with functional safety principles and their application in design integrity.
  • Experience collaborating with cross-functional teams including Systems Engineering and Manufacturing.
  • Proficient in Microsoft Office and STLA tools such as Teamcenter and Enovia.

Responsibilities

  • Lead analysis of customer claims and warranty data to identify risk patterns in electrical architecture.
  • Verify design integrity and ensure compliance with engineering standards and processes.
  • Collaborate with Engineering to review alternatives for architecture and safety solutions.
  • Ensure robustness of design reviews and validation evidence across projects.
  • Release structured quality reports detailing progress, risks, and recovery plans at project milestones.
  • Conduct root-cause analysis across various technical domains for quality improvement.
  • Define effectiveness of diagnostic strategies to enhance service procedures and reduce unnecessary replacements.

Benefits

  • Opportunities for professional development and training.
  • Collaborative work environment across engineering disciplines.
  • Engagement with cutting-edge technology in automotive quality assurance.
  • Initiatives aimed at continuous improvement and learning from past projects.
Full Job Description
The role is responsible for driving E/E Quality performance and ensuring design integrity across the vehicle electrical architecture by verifying that applicable design standards are followed, quality and engineering processes are applied consistently, and expected quality deliverables are achieved according to project milestones.

The role proactively consolidates quality activities from concept to launch and field monitoring, working closely with Engineering teams to review architecture, diagnostic, and safety alternatives, challenge assumptions, and support the selection of the most robust technical and quality solution.

The position ensures that Lessons Learned, customer claim analysis, diagnostic data, plant feedback, field behavior, and technical risks are systematically translated into improved architecture standards, process compliance, prevention actions, diagnostic requirements, validation methods, and quality gates.

Key Responsibilities:
  • Lead proactive analysis of customer claims, warranty data, diagnostic reports, plant defects, launch issues, and connected-vehicle feedback to identify electrical architecture, diagnostic, and system-behavior risk patterns.
  • Ensure design integrity for electrical architecture, diagnostic strategy, and functional safety by verifying that standards, engineering rules, release processes, safety work-product expectations, diagnostic requirements, quality checkpoints, and expected deliverables are consistently applied and achieved.
  • Work closely with Engineering teams to review architecture, diagnostic, and functional safety alternatives, challenge technical assumptions, compare options from a quality, robustness, serviceability, safety, and customer-impact perspective, and support the selection of the most appropriate technical solution.
  • Verify the completion and robustness of DFMEA, System FMEA, design reviews, diagnostic specifications, validation evidence, detection plans, risk assessments, safety work products, Lessons Learned deployment, and quality-gate evidence.
  • Release a structured quality report at each project milestone, summarizing expected deliverables, completion status, risk assessment, open gaps, and recovery plans when deliverables are not achieved.
  • Drive root-cause analysis across architecture, software, hardware, network communication, diagnostics, functional safety, and service processes.
  • Define and assess diagnostic strategy effectiveness, including DTC definition, failure detection thresholds, fault isolation, service procedures, guided diagnostics, and prevention of unnecessary part replacement.
  • Support functional safety quality governance by verifying that safety requirements, failure reactions, safe states, degraded modes, traceability, verification evidence, and review milestones are completed according to the defined process.
  • Manage technical risks, deviations, missed deliverables, and open quality points through clear recovery plans, action ownership, escalation, governance, and timely closure.
  • Capitalize Lessons Learned and Best Practices into architecture standards, diagnostic rules, process checklists, validation criteria, functional safety audit criteria, deliverable expectations, and quality gates.
  • Support launch readiness by reviewing architecture maturity, diagnostic readiness, software/hardware integration, plant detection, service readiness, functional safety evidence, and field-monitoring strategy.
  • Lead technical reviews with Systems Engineering, Electrical Architecture, Diagnostics, Functional Safety, Software, Hardware, Manufacturing, Supplier Quality, Technical Centers, Customer Care, and Service Engineering.

Operational Area Focus:
  • Electrical Architecture: network topology, ECU functional allocation, power distribution, grounding strategy, wake-up/sleep behavior, signal integrity, communication robustness, architecture standards, and scalability.
  • Diagnostic Strategy: DTC maturity, fault detection logic, diagnostic coverage, troubleshooting effectiveness, guided diagnostics, service documentation, validation evidence, and repair-cost optimization.
  • Functional Safety: safety concept consistency, hazard-related failure management, degraded modes, safe-state strategy, traceability, safety work products, verification evidence, and review milestone achievement.
  • System Integration: interaction between hardware, software, wiring, power management, cybersecurity, diagnostics, functional safety deliverables, and service procedures.
  • Field Performance: customer symptom analysis, no-trouble-found reduction, remote diagnostic data usage, early detection of systemic issues, Lessons Learned deployment, and prevention of repeat repairs.


Required Qualifications and Experience:
  • A bachelor's degree in electrical electronic engineering or related field
  • A minimum of 5 years of experience in engineering
  • Strong automotive E/E systems background, preferably with experience in electrical architecture, diagnostics, functional safety, vehicle networks, or system integration.
  • Solid understanding of E/E architecture development, diagnostic strategy, embedded systems behavior, network communication, validation, and vehicle integration constraints.
  • Good knowledge of quality methods and deliverables, including DFMEA, System FMEA, DVP&R, APQP, risk management, problem solving, Lessons Learned, and launch readiness.
  • Familiarity with functional safety principles, safety requirements, failure modes, failure reactions, safe states, traceability, and verification evidence.
  • Ability to assess design integrity by verifying standards compliance, process adherence, deliverable maturity, review evidence, diagnostic readiness, safety work-product completeness, field feedback integration, and cross-functional action closure.
  • Experience working with Systems Engineering, Software, Hardware, Manufacturing, Supplier Quality, Technical Centers, Customer Care, and Service Engineering.
  • Good knowledge of Microsoft Office tools and ability to work with STLA tools such as PLM, Quantic, Lessons Learned, Bulletin, Teamcenter, and Enovia.
  • Project management capability, including prioritization, governance, escalation, action-plan tracking, and decision preparation.

Expected Profile:
  • Accountable, proactive, autonomous, structured, and target oriented.
  • Strong systems-thinking mindset with the ability to work closely with Engineering, verify standards, challenge alternatives constructively, and support the selection of the best technical and quality solution.
  • Excellent communication and presentation skills, with the ability to synthesize complex system issues for management decision-making.
  • Fact-based problem-solving mindset with strong analytical capability and attention to operational execution.
  • Ability to challenge assumptions constructively while maintaining cross-functional alignment, governance discipline, and urgency.
  • Interest in applying digital and AI-enabled methods to improve quality analysis, diagnostic effectiveness, field monitoring, and decision-making.

About Stellantis

Stellantis is a multinational automotive manufacturer formed in 2021 by the merger of Fiat Chrysler Automobiles and Groupe PSA. The company designs, produces, and sells a wide range of vehicles under various brands, including Alfa Romeo, Chrysler, Citroen, Dodge, DS Automobiles, Fiat, Jeep, Lancia, Maserati, Opel, Peugeot, Ram, and Vauxhall. Stellantis operates in over 130 countries and has 14 brands in its portfolio. The company is committed to sustainable mobility and has set ambitious targets for reducing its carbon footprint and increasing the share of electric vehicles in its sales.
Learn more about Stellantis
Size
400,000 employees
Market Cap
$44.9 billion
Industry

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