Stellantis
Emissions System Pre-Development Calibration Engineer
Stellantis, Sylvan Center, Michigan, United States
Overview
The
Emissions System
Pre-Development Calibration Engineer in the Medium and High Emissions and Aftertreatment (MHED) Group will be responsible for developing and integrating system technologies including engine hardware, exhaust sensors, control strategies, calibration, and the integration of these technologies into the propulsion system to meet upcoming emissions standards (e.g., TIER4, California LEV IV, EURO7, China 6, etc.) for future vehicle propulsion applications for gasoline internal combustion (ICE) and hybrid vehicles. Projects will utilize engine, powertrain, vehicle chassis dynamometers and/or simulation/modeling to make physics-based decisions and demonstrate proof-of-concept solutions to prove Propulsion functional objectives are satisfied. The engineer acts as both an individual contributor and as part of teams within and outside of the MHED group. MHED interacts with core engine, controls, regulatory teams as part of a globally integrated Emissions and Aftertreatment group as part of the larger Propulsion Calibration (PCAL) Group. Basic Qualifications
Bachelor of Science degree in Applied Physics, Automotive, Chemical, Mechanical or Electrical/Computer Engineering Minimum of 3 years of accumulated experience and systems level engineering skills with hardware, controls, or calibration development in the following areas: port fueled and direct injection spark ignition engines for ICE and hybrid applications, powertrain systems, and emissions systems Experience analyzing and running various emissions global test cycles and various test cell environments as well as experience using common powertrain data acquisition systems such as INCA, CAS, AVL Concerto, TCKs, INTECRIO, etc. Working level understanding of key combustion processes, engine hardware, thermal system, transmission system, OBD system and electrified propulsion systems Knowledge of interactions / trade-offs between emissions, OBD, fuel economy, cost, drivability, and NVH Able to quickly identify, root cause, and refine calibrations to improve emissions system performance and capable of providing simple explanations of complex systems / solutions Experience with Design for Six Sigma (DFSS) proactive engineering methods Excellent written and verbal communication skills Strong leadership and interpersonal skills Outstanding problem solving and analytical skills Ability to effectively operate both independently and as part of a team Self-motivated and proactive Proficient with Microsoft Office Suite applications Preferred Qualifications
Master’s degree in Mechanical, Chemical, Electrical, or Automotive Engineering High technical and practical understanding of dyno and vehicle level testing and emissions measurement equipment including more advanced measurement systems such as particle size measurement Strong technical problem-solving skills: experience using DoE / Proactive DFSS techniques In-depth knowledge of emissions system architectures and various hardware & control strategies to meet emissions regulations at various levels of stringency including good understanding of new low emissions technologies: secondary air, GPFs, EGR, EHCs, exhaust sensors, DI, NOx sensors, etc. Systems level engineering skills covering engine hardware, controls, hot end, and catalyst hardware (DI fuel injection, boosting, in-cylinder combustion, catalyst substrate, washcoat, and platinum group metal design approaches) Experience calibrating and releasing production level emissions calibrations including control strategy development Skilled in post processing, organizing, analyzing, and presenting technical findings to intermediate and senior management
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The
Emissions System
Pre-Development Calibration Engineer in the Medium and High Emissions and Aftertreatment (MHED) Group will be responsible for developing and integrating system technologies including engine hardware, exhaust sensors, control strategies, calibration, and the integration of these technologies into the propulsion system to meet upcoming emissions standards (e.g., TIER4, California LEV IV, EURO7, China 6, etc.) for future vehicle propulsion applications for gasoline internal combustion (ICE) and hybrid vehicles. Projects will utilize engine, powertrain, vehicle chassis dynamometers and/or simulation/modeling to make physics-based decisions and demonstrate proof-of-concept solutions to prove Propulsion functional objectives are satisfied. The engineer acts as both an individual contributor and as part of teams within and outside of the MHED group. MHED interacts with core engine, controls, regulatory teams as part of a globally integrated Emissions and Aftertreatment group as part of the larger Propulsion Calibration (PCAL) Group. Basic Qualifications
Bachelor of Science degree in Applied Physics, Automotive, Chemical, Mechanical or Electrical/Computer Engineering Minimum of 3 years of accumulated experience and systems level engineering skills with hardware, controls, or calibration development in the following areas: port fueled and direct injection spark ignition engines for ICE and hybrid applications, powertrain systems, and emissions systems Experience analyzing and running various emissions global test cycles and various test cell environments as well as experience using common powertrain data acquisition systems such as INCA, CAS, AVL Concerto, TCKs, INTECRIO, etc. Working level understanding of key combustion processes, engine hardware, thermal system, transmission system, OBD system and electrified propulsion systems Knowledge of interactions / trade-offs between emissions, OBD, fuel economy, cost, drivability, and NVH Able to quickly identify, root cause, and refine calibrations to improve emissions system performance and capable of providing simple explanations of complex systems / solutions Experience with Design for Six Sigma (DFSS) proactive engineering methods Excellent written and verbal communication skills Strong leadership and interpersonal skills Outstanding problem solving and analytical skills Ability to effectively operate both independently and as part of a team Self-motivated and proactive Proficient with Microsoft Office Suite applications Preferred Qualifications
Master’s degree in Mechanical, Chemical, Electrical, or Automotive Engineering High technical and practical understanding of dyno and vehicle level testing and emissions measurement equipment including more advanced measurement systems such as particle size measurement Strong technical problem-solving skills: experience using DoE / Proactive DFSS techniques In-depth knowledge of emissions system architectures and various hardware & control strategies to meet emissions regulations at various levels of stringency including good understanding of new low emissions technologies: secondary air, GPFs, EGR, EHCs, exhaust sensors, DI, NOx sensors, etc. Systems level engineering skills covering engine hardware, controls, hot end, and catalyst hardware (DI fuel injection, boosting, in-cylinder combustion, catalyst substrate, washcoat, and platinum group metal design approaches) Experience calibrating and releasing production level emissions calibrations including control strategy development Skilled in post processing, organizing, analyzing, and presenting technical findings to intermediate and senior management
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