eMachine Concept FMEA Lead Engineer

Job title: eMachine Concept FMEA Lead Engineer

Location: Coventry

Employment type: FTC

Role overview

The eMachine Concept FMEA Lead Engineer plays a pivotal role in ensuring the reliability and safety of electric machine systems during the early stages of product development. This role focuses on identifying potential failure modes, assessing their impact on system performance, and implementing preventive measures before detailed design begins. By applying structured risk analysis methodologies, the engineer helps shape robust architectures for electric motors, ensuring they meet stringent automotive standards for quality, safety, and performance. The purpose of this role is to ensure the delivery of the eMachine DFMEA, evaluating existing foundation DFMEAs from existing projects and introducing the new failure modes identified through the early development work. The CFMEA engineers will work in a cross-functional team including design, manufacturing, quality and safety, in a top-down approach with requirements and attributes cascaded from larger systems.

Key Performance Indicators

• Deliver the Concept FMEA for the electric machine as a system and its sub-components.
• Agree the functional and physical interaction of the components within the eMachine and also the external interfaces.
• System Design Specification – prepare system requirements specification and developing functional designs, demonstrating how the system satisfies the defined customer requirements
• System Integration – Define system logical and physical architecture, Interface Control Document and a system integration plan.
• Requirements and test cases authoring for both eMachine as a system and its sub-components.

Key Accountabilities and Responsibilities

• Assist and contribute to the generation of targets and verification methods that are driven by Customer, Function Requirements and Failure Modes and Effects Analysis
• Provide technical support and assistance across the Advanced eMachine team on topics relating to the integration and harmonisation of multiple interconnected components including issue resolution and objective data analysis
• Follow guidance from Technical Specialists and Advanced Engineering on Attribute and Function Forward Strategies, including new Function Definition and Failure Mode Avoidance
• Undertake any other work as directed by their line manager in connection with their job as may be requested

Key interactions: Advanced eMachine component and subcomponent design engineers; Advanced EDU system team; Advanced EDU integration team; Advanced Inverter team

Knowledge, Skills and Experience

Essential:

• Good relevant experience (minimum 5 years) of working in a Systems Engineering environment - ideally within the Automotive Sector
• Expertise in eMachine, specially their thermal and electromagnetic behaviour
• Working knowledge on inverters and Electric Drive units
• Requirements Management
• Good verbal and written communications
• Analytical and problem solving skills
• Relevant experience of system definition, system architecture development, requirements specification, design/performance modelling, systems integration, system assessment and acceptance
• Full driving licence
• Masters degree on a relevant engineering preferred

Desirable:

• Experience in applying Systems Engineering and in solving complex technical issues using a structured approach
• Six Sigma Green belt certified
• A PhD level of education with relevant industrial research is preferred
• Model based engineering (MBE)
• Experience in IBM Rational DOORS