System Design Engineer – Powertrain Control (Expert) at Aurora Engineering AB

Gothenburg, , Sweden -

Full Time

Start Date

Immediate

Expiry Date

30 Aug, 26

Salary

0.0

Posted On

01 Jun, 26

Experience

10 year(s) or above

Remote Job

Yes

Telecommute

Yes

Sponsor Visa

Skills

System Engineering, Powertrain Control Systems, Internal Combustion Engines, Diesel Engine Control, Requirements Engineering, Control System Design, Embedded Systems, Distributed Electrical Architectures, System Integration, Verification & Validation, Root Cause Analysis, Model-Based Development, Functional Safety, Automotive Communication Protocols, Stakeholder Management, Technical Troubleshooting

Industry

IT Services and IT Consulting

Description

We are seeking an experienced System Design Engineer to join a Powertrain Control team focused on the development of advanced control systems for internal combustion engine (ICE) applications. The successful candidate will be responsible for defining, developing, and validating control system solutions within distributed electrical and electronic architectures. The role requires close collaboration with software, system, calibration, and verification teams to ensure robust and efficient powertrain functionality. Key Responsibilities Develop and maintain system requirements, functional specifications, and control strategies for powertrain control systems. Design and define control system architectures for internal combustion engine applications. Analyze system behavior and ensure compliance with performance, quality, and functional requirements. Collaborate with software development teams to ensure correct implementation of control functions. Support system integration, verification, and validation activities throughout the development lifecycle. Participate in requirement reviews, design reviews, and technical investigations. Perform system analysis, troubleshooting, and root cause investigations. Ensure traceability between customer requirements, system requirements, and implemented solutions. Work closely with cross-functional teams including software, calibration, testing, diagnostics, and vehicle integration. Support continuous improvement of development methods, processes, and system architectures. Required Qualifications Bachelor's or Master's degree in Electrical Engineering, Mechatronics, Control Engineering, Automotive Engineering, Computer Engineering, or a related discipline. Extensive experience in system engineering and control system development. Strong understanding of powertrain control systems and internal combustion engine technologies. Experience defining system requirements and functional specifications. Knowledge of embedded control systems and distributed electrical/electronic architectures. Experience working within automotive product development environments. Strong analytical and problem-solving capabilities. Excellent communication and stakeholder management skills. Preferred Experience Development of control systems for diesel engines. Experience working with distributed electrical systems and vehicle networks. Powertrain system integration and verification. Functional safety and requirements management. Model-based development methodologies. Automotive communication protocols and embedded systems. Technical Skills System Engineering Powertrain Control Systems Internal Combustion Engines (ICE) Diesel Engine Control Requirements Engineering Control System Design Embedded Systems Distributed Electrical Architectures System Integration & Verification Root Cause Analysis Personal Attributes Strong analytical and structured approach. Self-driven and proactive. Excellent collaboration and communication skills. Ability to drive technical solutions independently. Quality-focused and detail-oriented. Strong problem-solving mindset.

Responsibilities

The role involves defining, developing, and validating control system solutions for internal combustion engine applications within distributed electrical architectures. The engineer will collaborate with cross-functional teams to ensure robust powertrain functionality and maintain system requirements and specifications.