About The Position

Stellantis’ Vehicle and Propulsion Controls organization is seeking a Senior Propulsion Controls Systems Engineer to lead the design and delivery of end-to-end propulsion system architecture for next-generation electrified and hybrid powertrain technologies. In this role, you will translate vehicle-level feature requirements into scalable, high-performance system solutions, ensuring alignment across software, hardware, controls, and physical system integration. You will play a key leadership role in advancing propulsion control strategies across EV, BEV, and hybrid platforms. The ideal candidate brings deep technical expertise, thrives in a fast-paced environment, and effectively leads cross-functional global teams to solve complex engineering challenges.

Requirements

  • Bachelor’s degree in Electrical, Mechanical, Systems, or Controls Engineering
  • Min 5 years of experience in propulsion controls / systems engineering
  • Strong domain knowledge in: Engine / Hybrid / BEV control systems
  • Strong domain knowledge in: Control algorithms and system behavior
  • Strong domain knowledge in: Requirements engineering and system architecture
  • Strong systems engineering and architecture mindset
  • Deep expertise in propulsion controls, control algorithms, and calibration interaction
  • Proven ability to lead cross-functional global teams
  • Strong analytical and trade-off decision-making capability
  • Excellent communication and stakeholder management skills

Nice To Haves

  • Master’s degree or PhD in Controls, Systems, or Automotive Engineering
  • Experience with MATLAB/Simulink modeling and controls development
  • Experience with MBSE (SysML, Rhapsody, Cameo)
  • Experience with DOORS, ALM, PLM (ENOVIA)
  • Knowledge of CAN /LIN/Ethernet communication protocols
  • Knowledge of Functional safety (ISO 26262)
  • Knowledge of ASPICE / Stellantis SE processes

Responsibilities

  • Develop and maintain operational, functional, and physical system architecture for propulsion control systems
  • Define system concepts, use cases, and operational scenarios for electrified powertrain applications
  • Perform functional decomposition and allocate requirements across subsystems and components
  • Define and own end-to-end propulsion system architecture (functional and physical)
  • Lead the development and definition of propulsion control strategies and algorithms
  • Support requirements engineering, decomposition, and system modeling using MBSE (SysML)
  • Define component allocation across ECU, sensors, actuators, and subsystems
  • Develop system artifacts including system definition documents, interface specifications, and EE network topology
  • Evaluate feasibility of functional objectives and provide feedback to vehicle engineering teams
  • Define feature requirements and system behaviors
  • Develop DFMEA for assigned features
  • Coordinate planning and delivery aligned with stakeholder requirements
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