Stellantis
Join to apply for the
Engine Controls Developer
role at
Stellantis
2 days ago Be among the first 25 applicants
Join to apply for the
Engine Controls Developer
role at
Stellantis
The Engine Propulsion Controls Engineer will work within a Centre Of Excellence (CoE) belonging to the Product Release Centre (PRC) Engine Propulsion Controls and they will contribute in the development of engine propulsion systems for current and next-generation internal combustion engine & hybrid electrified propulsion systems for Stellantis vehicles. The ideal candidate, who is a strong team player and willing to work in a fast paced environment, will have experience in modern and classical control strategies with a powertrain subsystem application (engine, transmission, electric motors, thermal, charging, etc.). Being system focused and having interdisciplinary experience, the ideal candidate must be able to significantly contribute to the development of hybrid operating strategies in the area of torque management, thermal management, energy management & charging, monitoring and remedial action, and diagnostics.
Specific Job Duties
Read and interpret high-level requirements related to the intended vehicle-level behavior
Design appropriate control algorithm that fulfills the functional objectives
Implement control algorithm in Matlab-Simulink, C, etc
Provide best-guess calibration dataset
Pre-verification of the implementation, check of the requirements’ compliance, through Model In The Loop (MIL) testing
Pre-verification of the generated code, through Software in the Loop (SIL) testing or specific tools able to monitor the consumption of software resources (e.g. VRAM, throughput)
Generation of integrated proto code builds
Verification of official code builds or proto code builds in the HIL lab or in the vehicle, using ETAS INCA tools
Analysis and response to the tracked issues
Attendance to the main technical meetings, data analysis and issues’ resolution
Process documentation development
Calibration community support
Fundamental Knowledge Pillars
Knowledge of modern and classical control principles
Knowledge of major vehicle systems
Domain knowledge (In one of the following: Thermal, torque, diagnostics, functional safety, charging)
Embedded control development tools and processes
Detailed Qualifications Technical skills
Automotive Electrified Systems & Architectures fundamentals
Vehicle energy management
Robust Control technics
C and C++ code structure and markup
The Mathworks modeling and autocode suite (Matlab, Simulink, Stateflow, Embedded Coder)
D-SPACE TargetLink autocode generation tool
Excellent know-how of ETAS INCA tool
Usage of CANALYZER tool
Usage of ControlDesk and HIL tools
On Board Diagnostics (OBD) standards and architecture
ISO/SAE standard norms for CAN/LIN communication
Ability to analyze and deploy High and Low Level Requirements’ documentation
Ability to analyze issues’ descriptions and provide a resolution
Experimental data analysis and calibration methodology definition
Ability to perform verification activities
Soft And Leadership Skills
Capability to work in a team and in an international environment
Capability of synthesis and reporting towards management
Availability to business trips (mainly United States of America)
Efficient communicational skills and ability to handle multiple tasks
English: autonomous in listening (conference calls) and reading
Passion in automotive field for all its declinations (from vehicle setup to assembly process)
Work under pressure when tight schedules or late changes are required in releasing process (shorter time for control/software design and testing)
No drawback to take higher responsibility leading crisis teams on production issues with possible impact on daily rate
Driving license
Basic Qualifications
Bachelor's Degree in Electrical, Mechanical, or Computer Engineering or related degree field
Minimum of 5 year experience in the following: Engine Controls development in Matlab/Simulink auto-coding environment
Embedded C++ programming
Autosar software development using dSpace SystemDesk and RTE
Analysis of CAN logs, including message counter and CRC calculation and verification
Demonstrated technical problem solving
Strong overall knowledge of vehicle and powertrain functions
Experience with modeling, simulation, development, testing, calibration and/or validation
Outstanding interpersonal and problem solving skills
Preferred Qualifications
Advanced degree in with emphasis in internal combustion engine, electrical power conversion, electromechanical energy conversion, power electronics, and electrical machines.
Demonstrated working level experience in decomposing intended function into controls design documents
Deep experience in the creation of MATLAB, SIMULINK, and AUTOSAR Architecture
Critical character traits to ensure success: Action Oriented, Dealing with Ambiguity, Customer Focus, Problem Solving
Our Benefits — Designed With You In Mind
Comprehensive Health & Well-being Coverage
Family Building Benefit
Generous Paid Time Off
Competitive Retirement Savings Plans
Income Protection & Insurance Options
Company Vehicle Lease Program
Support for Your Growth and Giving Back
At Stellantis, we assess candidates based on qualifications, merit, and business needs. We welcome applications from all people without regard to sex, age, ethnicity, nationality, religion, sexual orientation, disability, or any characteristic protected by law. We believe that diverse teams reflect our identity as a global company, enabling us to better address the evolving needs of our customers and care for our future. EOE / Disability / Veteran
#J-18808-Ljbffr
Engine Controls Developer
role at
Stellantis
2 days ago Be among the first 25 applicants
Join to apply for the
Engine Controls Developer
role at
Stellantis
The Engine Propulsion Controls Engineer will work within a Centre Of Excellence (CoE) belonging to the Product Release Centre (PRC) Engine Propulsion Controls and they will contribute in the development of engine propulsion systems for current and next-generation internal combustion engine & hybrid electrified propulsion systems for Stellantis vehicles. The ideal candidate, who is a strong team player and willing to work in a fast paced environment, will have experience in modern and classical control strategies with a powertrain subsystem application (engine, transmission, electric motors, thermal, charging, etc.). Being system focused and having interdisciplinary experience, the ideal candidate must be able to significantly contribute to the development of hybrid operating strategies in the area of torque management, thermal management, energy management & charging, monitoring and remedial action, and diagnostics.
Specific Job Duties
Read and interpret high-level requirements related to the intended vehicle-level behavior
Design appropriate control algorithm that fulfills the functional objectives
Implement control algorithm in Matlab-Simulink, C, etc
Provide best-guess calibration dataset
Pre-verification of the implementation, check of the requirements’ compliance, through Model In The Loop (MIL) testing
Pre-verification of the generated code, through Software in the Loop (SIL) testing or specific tools able to monitor the consumption of software resources (e.g. VRAM, throughput)
Generation of integrated proto code builds
Verification of official code builds or proto code builds in the HIL lab or in the vehicle, using ETAS INCA tools
Analysis and response to the tracked issues
Attendance to the main technical meetings, data analysis and issues’ resolution
Process documentation development
Calibration community support
Fundamental Knowledge Pillars
Knowledge of modern and classical control principles
Knowledge of major vehicle systems
Domain knowledge (In one of the following: Thermal, torque, diagnostics, functional safety, charging)
Embedded control development tools and processes
Detailed Qualifications Technical skills
Automotive Electrified Systems & Architectures fundamentals
Vehicle energy management
Robust Control technics
C and C++ code structure and markup
The Mathworks modeling and autocode suite (Matlab, Simulink, Stateflow, Embedded Coder)
D-SPACE TargetLink autocode generation tool
Excellent know-how of ETAS INCA tool
Usage of CANALYZER tool
Usage of ControlDesk and HIL tools
On Board Diagnostics (OBD) standards and architecture
ISO/SAE standard norms for CAN/LIN communication
Ability to analyze and deploy High and Low Level Requirements’ documentation
Ability to analyze issues’ descriptions and provide a resolution
Experimental data analysis and calibration methodology definition
Ability to perform verification activities
Soft And Leadership Skills
Capability to work in a team and in an international environment
Capability of synthesis and reporting towards management
Availability to business trips (mainly United States of America)
Efficient communicational skills and ability to handle multiple tasks
English: autonomous in listening (conference calls) and reading
Passion in automotive field for all its declinations (from vehicle setup to assembly process)
Work under pressure when tight schedules or late changes are required in releasing process (shorter time for control/software design and testing)
No drawback to take higher responsibility leading crisis teams on production issues with possible impact on daily rate
Driving license
Basic Qualifications
Bachelor's Degree in Electrical, Mechanical, or Computer Engineering or related degree field
Minimum of 5 year experience in the following: Engine Controls development in Matlab/Simulink auto-coding environment
Embedded C++ programming
Autosar software development using dSpace SystemDesk and RTE
Analysis of CAN logs, including message counter and CRC calculation and verification
Demonstrated technical problem solving
Strong overall knowledge of vehicle and powertrain functions
Experience with modeling, simulation, development, testing, calibration and/or validation
Outstanding interpersonal and problem solving skills
Preferred Qualifications
Advanced degree in with emphasis in internal combustion engine, electrical power conversion, electromechanical energy conversion, power electronics, and electrical machines.
Demonstrated working level experience in decomposing intended function into controls design documents
Deep experience in the creation of MATLAB, SIMULINK, and AUTOSAR Architecture
Critical character traits to ensure success: Action Oriented, Dealing with Ambiguity, Customer Focus, Problem Solving
Our Benefits — Designed With You In Mind
Comprehensive Health & Well-being Coverage
Family Building Benefit
Generous Paid Time Off
Competitive Retirement Savings Plans
Income Protection & Insurance Options
Company Vehicle Lease Program
Support for Your Growth and Giving Back
At Stellantis, we assess candidates based on qualifications, merit, and business needs. We welcome applications from all people without regard to sex, age, ethnicity, nationality, religion, sexual orientation, disability, or any characteristic protected by law. We believe that diverse teams reflect our identity as a global company, enabling us to better address the evolving needs of our customers and care for our future. EOE / Disability / Veteran
#J-18808-Ljbffr