We are pursuing an accomplished Lead HV Safety System Engineer for JLR’s integrated High Voltage Battery Charging control system. You will be responsible for developing, implementing, and maintaining functional safety solutions through best-practice engineering.
To work closely with engineering, quality, and regulatory teams to ensure compliance with relevant industry standards and regulations, including ISO26262. As part of the Functional Safety and Control Design Chapter, you will develop the company’s strategy for processes, components, and systems for the control system specialism.
Design and deliver Charging/Battery Management ECU Part 4 Technical Safety Concepts, including hardware and software safety requirements, within the Functional Safety and ASPICE framework
Create system architecture diagrams for components, illustrating interfaces using MBSE tools such as IBM Rhapsody and Dassault MSOSA
Collaborate with team members and cross-functional teams to support the overall safety plan, while providing technical mentorship to functional safety design engineers
Contribute to the development of standardized Functional Safety and ASPICE processes, conduct audits of safety products, and manage technical risks with mitigation plans
Liaise with key suppliers as a “matched pair” for software, ensuring correctness through peer reviews of Functional Safety analysis, architecture, requirements, and the development of verification/validation strategies
Successfully delivered technical safety concepts from inception to production in complex control system products, demonstrating a results-driven approach with tenacity and perseverance in demanding environments
Conducted audits and assessments of supplier functional safety work products to ensure compliance and quality
Utilised industry-standard tools for system safety analysis and requirements management, including Medini, ISO Graph Reliability Workbench, MSOSA, TRM, and DOORS
At JLR, hybrid working is a voluntary, non-contractual arrangement providing employees more choice and flexibility around how, when and where they work.