TITLE: Software Application Engineer DUTIES: Model and control electromechanical vehicle systems covering all major domains, including autonomous driving, body, engine, transmission, propulsion, and infotainment; Port application software features from legacy controllers to next-generation vehicle controllers with a service-oriented architecture approach, covering all major domains; Support all future development and innovation related to features after they are ported; Ensure and maintain the highest quality and develop according to safety and quality standards, in support of a new company architecture, “STLA Brain.”; Follow a well-defined workflow, starting from the system and sub-system requirements analysis, system architecture import, software implementation with a model-based design approach, automatic code generation, and software testing, including Model-in-the-Loop (MiL), unit testing, and back-to-back testing; Define and develop the system and sub-system level requirements from the concept phase and create and maintain the system and sub-system level model for vehicle mechatronics; Monitor the system development process to ensure design quality by confirming development adherence to ASPICE ISO/IEC 15504 standards; Contribute to continuous improvement of the real-time control system development process while introducing and adopting innovative ideas and new tools, including model-based design; Utilize Matlab/Simulink to perform software development for Model-Based Design (MBD), which is the practice of leveraging simulations to understand the behavior of to-be-constructed or existing physical systems, including body controls, propulsion, engine, and auto transmission controls, utilizing AUTOSAR definitions; Verify and validate developed systems using MiL, Software-in-the-Loop (SiL), and Hardware-in-the-Loop (HiL) verification methods; Coordinate and communicate with various stakeholder groups including system, sub-system, software, and validation; Work on Automotive Safety Integrity Level (ASIL) safety level modules, including ISO 26262 functional safety concepts and their impact on software development; Develop maintenance and testing procedures for electromechanical components and equipment; Utilize formal software change management and associated tools, including RTC and Sharepoint, to manage issue trends; Administer and maintain the requirements process via formal requirement tools, including DOORS; Utilize an Agile development process for day-to-day working, project planning, and execution; Calibrate Electronic Control Unit (ECU) software flashing, debugging, and parameter calibration.

We are seeking a highly motivated Embedded Software Test Engineer to join our Integration Team. You will play a key role in the integration, test, and release of embedded software. This position requires a strong focus on testing activities in accordance with automotive industry standards, including ASPICE and ISO 26262 (functional safety). You will work closely with software development, hardware teams, and quality departments to ensure robust and compliant software integration. Key Responsibilities: Define and implement integration and test strategies for embedded software systems in accordance with ASPICE and ISO 26262.Develop and execute test plans, test cases, test scripts, and test specifications at software integration.Perform software integration testing on vehicle-level hardware, HIL (Hardware-in-the-Loop)Support requirements analysis and traceability, ensuring test coverage for software.Participate in failure analysis, debugging, and root cause investigation for integration issues.Contribute to the preparation and maintenance of ASPICE work products, such as test strategies, test reports, defect reports, and review records.Ensure all testing activities comply with ISO 26262 functional safety requirements, including safety analysis support (FMEA, FTA) and safety validation testing.Support tool qualification and test automation to improve efficiency and consistency.Provide input for continuous improvement of test processes, methods, and tools.Integrate new content from various functional systems/component into a final HIL/vehicle flash-ready file.Monitor and analyze Embedded Controller resources including VRAM, CPU throughput, and ROM/Flash memory.Measure network parameters using CANoe/CANalyzer and prepare measurements using ETAS-INCA.

The Program Manager - Internal Logistics Engineering (ILE) will perform up front program loading studies and investment cost roll ups for new programs at the assembly plant. Issue scope of work, hold pre bid meetings and aid in selection of PM tier one management source for racks and material flow. A qualified candidate will write projects and fill out Ipass (resourcing) documents and source packages for all packaging on a program. The Program Manager - Internal Logistics Engineering will track loop costs for the program and develop and track CWI's for program funding. Attend all relevant Program Management Team meetings, complexity meetings, open issue meetings at plant during launch and open issue meetings with Tier one Program Management resources. This position will develop and track program management timeline and deliverables (racks, containers, F&E equipment and material flow). This successful candidate for this role will attend and present ILE & MLM (material logistics management) deliverables status at Senior Management reviews. This position will ensure all ILE deliverables are made on time every time during the course of the launch of a new program.

The Electric Drive Modules (EDMs) System Engineer is responsible for optimizing, designing, and defining the Best-in-Class [BIC] EDM system [eMotor, Power Inverter, Gearbox] for efficiency, performance or cost for a given vehicle requirements / constraints. The engineer would lead the development, further improve, and maintain EDM system design optimization process/ methodologies considering all domains- electrical, mechanical, thermal and NVH. The System Engineer would be run trade of studies, evaluate design proposals, and recommend best technical EDM design. The engineer will be supporting fellow system engineers on multiple programs globally. The engineer will define requirements for EDM system and its subcomponents- eMotor, PIM, Gearbox. The Engineer will participate in EDMs technical roadmap and develop different EDMs concepts to meet its technical specs, life, and quality requirements.

The Calibration Engineer is responsible for generating optimal base engine calibrations meeting all the program objectives in terms of performance, control stability, lowest fuel consumption whilst minimizing the engine out and tailpipe emissions levels. The setup and control of all engine sensors and actuators for all engine operating conditions under both steady state and transient engine operation is part of the responsibilities. The Calibration Engineer is also responsible for conducting engine hardware and systems testing and supporting all other teams with their standardized and specialized engine test requests. The responsibilities will be carried out across all the different propulsion system concepts and will include varying levels of electrification of the driveline. The Calibration Engineer will plan and coordinate day to day activities of an engine and powertrain dynamometer and does include collaboration with technicians and laboratory support engineers. In addition, test plans and timelines will be developed, and reports generated to communicate the status of the program to the larger development and management teams. Evaluations will occur with new engine hardware and powertrain technologies for future and carry over applications. The Calibration Engineer will analyze and solve complex system problems as they relate to engine performance, fuel consumption, emissions, and base engine calibration development. The Calibration Engineer will manipulate and utilize large and complex sets of engine mapping data. The engineer will also actively participate in the decision process of base engine hardware selection and base engine calibration to achieve the functional objectives.

The Design Release Sr. Engineer for Powercell and Lubrication system components is responsible for the design, development, and technical leadership in the creation, validation, and release of engine components for Stellantis vehicles. This includes engine pistons, rings, connecting rods, piston pins and oil cooling jets. The responsibilities include design and release of system components and/or specifying hardware requirements needed to meet program objectives. The role involves driving the design through all phases of the product lifecycle, including design concept, sourcing support, engineering validation, and production release through PPAP (Production Part Approval Process). The role will include interaction and or leading activities with multiple teams including manufacturing, quality, design, validation testing, supplier direction and purchasing groups. Key Responsibilities: Design & Development: Lead the design of Powercell related components, ensuring alignment with vehicle and engine sub-system requirements.Develop and refine concepts for Powercell components, piston lubrication jets, and related components based on functional, safety, reliability, cost, quality and performance requirements.Support CAD modeling, FEA (Finite Element Analysis), and other design validation methods to ensure structural integrity and compliance with standards.Collaborate with other engineering teams (electrical, thermal, packaging, quality, manufacturing) to integrate components into the overall engine system. Release & Program Management: Manage design release activities from early concept through production, including the timely completion of applicable milestones such as B-Sample, C-Sample, PX0, X0, X1, X2, and X3.Own the Engineering Bill of Materials (EBOM) and Change Notices (CNs) for structural components.Ensure all parts meet quality, cost, and timing requirements.Drive the Production Part Approval Process (PPAP) for lubrication systems components, ensuring compliance with all regulatory and customer specifications.Coordinate with cross-functional teams, including manufacturing, suppliers, and quality, to ensure the successful release and implementation of designs. Technical Guidance & Problem Solving: Provide technical leadership and support during the development and production stages to resolve design issues, material selection challenges, manufacturing restrictions, and process-related problems.Lead DFMEA (Design Failure Mode and Effects Analysis) and other risk assessment activities to ensure design robustness and mitigate potential issues.Participate in the development of testing strategies for components, including engine dynamometer durability, vehicle testing, vibration, oil usage, and thermal testing.Provide leadership, guidance, and problem-solving support for extended team of engineers. Cross-Functional Collaboration:Work closely with suppliers to ensure design feasibility, cost competitiveness, and manufacturability of structural components.Collaborate with validation teams to define and implement validation testing, ensuring structural components meet functional and performance metrics.Partner with vehicle integration teams to ensure proper fitment, safety, and integration of lubrication systems components into the overall vehicle platform.Documentation & Reporting:Develop and maintain engineering documentation, including design specifications, drawings, models, test plans, and validation reports.Ensure that all technical documentation is up-to-date and aligns with program timelines and PPAP requirements.Report on project status, timelines, and risk assessments to senior management and stakeholders.

The Engineering Supervisor is responsible for leading equipment engineering projects from start to finish, including but not limited to: project scope development, creation of detailed implementation plans and timelines, and the coordination of internal / external resources to execute these plans. The qualified candidate will analyze and diagnose equipment losses and their impact within the team environment to identify continuous improvement projects. This person will be expected to work and track multiple projects autonomously. The Engineering Supervisor will also track and manage the inventory of critical spare parts. This role is also responsible for scheduling weekly overtime.

The Manufacturing Electrical Engineer will follow the design, process, installation, and integration process on all new programs for FCA’s Warren Stamping Plant as assigned. Additional duties for this position include but are not limited to the following: · Deliver world class pressroom systems that meet vertical launch in terms of reliability, safety, throughput and quality. · Provide technical support to production and maintenance departments. · Coordinate vendor activities within the plant to support all new programs and engineering initiatives. · Work with and support pressroom operations in Stellantis Production Way (SPW) initiatives utilizing SPW tools for continuous improvement efforts. .

The Quality Plant Engineering Leader (QPEL) reports directly to the EE Hardware & Systems Engineering department and has a dotted line reporting to the Quality Plant Engineering Manager. The QPEL will lead the quality plant engineering team responsible for their designated areas. Principle Working Relationships: Participate in daily operational production meetings with the Quality Plant Engineering Manager and their team to address quality and production issues.Attend weekly meetings with the Functional Quality Manager to monitor the achievement of quality objectives.Engage in weekly meetings with Supplier Quality Development, Cross Car Line & Project, and General Assembly Process Engineering to coordinate the progress of the 7 Diamonds initiative.Organize reviews with top problematic component suppliers and their associated Engineering and Quality managers. Operational Context: Contribute to improving the quality level of new and customer vehicles to meet ambitious quality objectives.Demonstrate great responsiveness to meet quality and production requirements.Make autonomous decisions or lead recommendations for modifications to components or processes to ensure vehicle quality.Support the Quality Plant Engineering Manager in making decisions to hold vehicles.Conduct autonomous reviews of assembly and supplier processes.Take corrective actions promptly to avoid increasing the outstanding rework area. Deliverables: Define containment actions to ensure customer protection, including addressing supplier issues.Conduct vehicle issue diagnosis and root cause analysis, ensuring the team carries out pre-analysis activities on time.Conduct Risk Assessment and lead Reaction Plans.Manage Serial Life Window and Change Management processes.Propose alternative product solutions in case of issues (e.g., shortages) to avoid halting mass production in the plant.Support Yard Holds and Product Related Issues (PRI) activities to ensure vehicle quality, mitigate risks, and facilitate the prompt release of units.Implement best practices and standards (Read Across).Ensure the team’s skills are at the appropriate level and manage daily activities (daily management control meetings).Lead quality KPI management to achieve quality objectives, drive improvements, and implement corrective actions and escalation processes.Resolve systemic, chronic, or major quality issues (Top Warranty, Recalls, Rapid Service Updates, Customer Service Notifications).

Stellantis' On-Board Diagnostic Calibration Engineer will have the opportunity to develop new diagnostic strategies for electric, engine, and hybrid propulsion control systems. The Diagnostic Calibration Engineer will be able to review system and software designs, generate test plans, manage vehicle/test-bench/virtual resources, and both develop and validate compliant calibrations for future propulsion system programs. The candidate will work cross functionally with hardware development, controls and software development, program management, test fleet support, vehicle and compliance teams. They will guide instrumentation of electrical and physical systems, utilize and review data from acquisition software (INCA) to ensure that desired diagnostic behavior is achieved. The engineer will gather functional requirements as well as required milestones to plan and execute development to achieve on-time successful product launches. Projects include working on new technologies on electrified propulsion systems requiring the understanding of distributed control architectures, engine & electric motor control, interactions with energy storage and management systems. The ideal candidate will have a background in diagnostics calibration or controls development and previous experience with electrified propulsion systems. The candidate should expect to travel 1-4 weeks throughout the year for system validation/verification.

At Stellantis, we want to empower you to bring your best. That's why we strive to create an environment where our core values of Innovation, Leadership, Passion, Cooperation, and Responsibility can thrive. At Stellantis, you'll work in a dynamic, fast-paced environment with people who exemplify the entrepreneurial spirit and work together as a team to continually think bigger and bolder. We are seeking a highly skilled and motivated Torque Security Diagnostics Calibration Engineer to join our propulsion systems team. In this role, you will be responsible for developing and executing calibration strategies and validation plans to ensure torque security diagnostics meet functional safety and performance requirements across various powertrain configurations, including both spark-ignited and electrified systems. Key Responsibilities: Develop, calibrate, and validate torque security diagnostic strategies to ensure compliance with system requirements and meet safety release requirements at appropriate program milestones.Execute verification test plans to confirm diagnostic functionality and system robustness.Analyze large and complex engine mapping datasets to identify and resolve system-level issues related to functional safety.Generate technical reports and documentation to support calibration and validation activities.Collaborate with feature calibrators to review test concerns and support root cause investigations of software or logic issues.Work cross-functionally with engine development, powertrain controls, and vehicle integration teams to deliver solutions that meet program goals.Coordinate and participate in corrective action meetings to drive improvements through calibration and software updates.Travel 1–4 weeks annually for system validation and verification activities.Support vehicle testing and attend in-person meetings at the Auburn Hills facility as needed.

This is a TEMPORARY role. This role will be supporting testing at the Mileage Accumulators. The Mileage Accumulator consists of two buildings with 12 dynamometers each and is a unique blend of advanced technologies with multiple computers and software programs acting together. This position requires: The ability to interact with the engineering community to execute mileage accumulator tests. Complete knowledge of the automobiles drive systems. Understanding of the engine, cooling, transmission, differential, drive shaft, and engine controller is required as well as the ability to help diagnose the problems, using appropriate tools, to assist the engineering community in their resolution. Report/document vehicle issues and findings Assist customers in vehicle readiness Assist customers in maintaining vehicle integrity

Stellantis' Transmission On-Board Diagnostic (OBD) Calibration Engineer has the opportunity to develop diagnostic calibrations that meet all regulatory, safety, quality and service requirements. They have the responsibility to assure that appropriate testing is defined, planned, and completed to fully validate all diagnostic features. They also serve as the leader for leading cross-functional teams to determine root cause and solutions for development, fast feedback, and customer vehicle diagnostic issues. They will work with a variety of conventional and electrified transmissions that require a diverse set of technical skills to effectively lead their assigned programs. They will guide instrumentation of electrical and physical systems, utilize and review data from acquisition software (INCA) to ensure that desired diagnostic behavior is achieved. The engineer will gather functional requirements as well as required milestones to plan and execute development to achieve on-time successful product launches. The candidate should expect to travel 2-4 weeks throughout the year for system validation/verification.

The Emissions Reliability Engineer will be responsible for leading the execution and delivery of the RGE function within the propulsion calibration organization. The role will be responsible for the planning, execution and report out of the RGE function to the respective program teams. The role will coordinate daily and weekly activities pertaining to ensuring the RGE fleet is on track to its deliverables of mileage and testing. The role will also provide direction and guidance to a team of analysts and engineers to maintain and manage the fleet across 2 development sites in Michigan. In addition, test plans and timelines will be developed and executed with reports generated to communicate status of the program to larger development and management teams.

The Calibration Engineer is responsible for developing the optimal engine calibration to meet drivability metrics along with ensuring optimal emissions and fuel economy. The engineer is responsible for the calibration maturity and development of sub features resulting in an overall optimal propulsion system. This spans the entirety of the lifecycle of development through conceptual phase, strategy development, calibration execution to subsystem and vehicle level validation including robustness evaluations. The responsibilities will be carried out across all different types of propulsion system concepts and will include varying levels of electrification. The work will coincide with a team of calibration engineers and functions to deliver system level functional objectives mainly related to emissions compliance. The engineer will plan and coordinate daily activities of propulsion dynos and vehicle related testing which may include collaboration with technicians and laboratory support engineers. In addition, test plans and timelines will be developed and executed with reports generated to communicate status of the program to larger development and management teams.