About JLR: Innovative. Trusted. Pioneering. These three qualities have always summed up Jaguar Land Rover. They have been encapsulated within the performance, luxury, and excellence of all our products. They are what every person working for us lives and breathes. From creating intelligent hybrids to building driverless vehicles, evolving existing technologies to discovering new energy storage, our ambition for the future of our vehicles and the industry beyond is endless. Skills, experience, and qualifications : Essential: • Perform Power Electronics Systems Engineering and Failure Analysis for electrified powertrain projects, ensuring robust design and issue resolution. • Apply strong technical knowledge of chargers, converters, inverters, electric machines, batteries, thermal management, EMI/EMC, and mechanical systems. • Act as the Electrical SME for HV powertrain systems - developing and maintaining high-voltage electrical schematics and block diagrams. • Coordinate and manage electrical specifications across multiple system components and engineering teams. • Conduct electrical modelling and simulation for power electronics and powertrain integration (e.g., MATLAB/Simulink). • Drive system-level requirements engineering and ensure verification through traceable validation methods. • Root cause investigations and corrective/preventive actions for quality issues using structured methodologies like 8D. • Support DFMEA development, Functional Safety (ISO 26262) activities, and overall powertrain integration. • Contribute to the design and release of HV system architectures across electrified powertrain platforms, including production-intent programs. • Provide technical support during system-level testing and analyse rig test results to guide system improvements. • Bachelor’s degree in Electrical or Electronics Engineering. Desirable: • Master’s degree in Electrical or Electronics Engineering. • 8+ years of hands-on experience in high-voltage power electronics systems. • Direct experience with BEV, MHEV, and PHEV powertrain architectures and technologies. • Familiarity with complex high-voltage system design and compliance with applicable regulatory requirements. • Proficiency in specifying and designing low- and high-voltage hardware, including protection and diagnostic systems. • Experience using simulation/analysis tools for thermal performance, reliability, and durability verification. • Solid understanding of automotive product development processes, including design release cycles. • Ability to interpret and create detailed electrical schematics and system wiring diagrams. Key Interactions: • Design Validation Engineers (DV) • Team Managers / Group Leader(s) • Technical Specialists • Subject Matter Experts (SME) • Purchasing Team • Integration Team • Programme Team • Powertrain Research Team • Powertrain EDU and Power Electronics Team. • Vehicle Packaging team • Vehicle electrical team Personal Profile Essential: • An individual with a customer first mindset who is easy to do business with and makes people feel special, driven to deliver experiences that are personalised, transparent, and dependable • An individual who is results driven with the ability to deliver operational plans in a highly demanding environment • A passion for continuous technical improvement (Enthusiastic to create differentiating products in industry) • Ability to follow accurate and robust working practices • An individual with the ability to prioritise their workload • A good communicator with the ability to communicate complex ideas • An effective collaborator who supports team members Desirable: • Resilient and enthusiastic, an individual able to deliver results under pressure • Excellent communication and people skills, with strong influencing and engagement skills Show more Show less
About JLR: Innovative. Trusted. Pioneering. These three qualities have always summed up Jaguar Land Rover. They have been encapsulated within the performance, luxury and excellence of all our products. They are what every person working for us lives and breathes. From creating intelligent hybrids to building driverless vehicles, evolving existing technologies to discovering new energy storage ,our ambition for the future of our vehicles and the industry beyond is endless. Role Profile The Electrification Core engineering team requires experienced E-machine Engineer to apply world class design and analysis skills to improve Jaguar Land Rover's capability to deliver the next generation eMachines. The objective is to deliver levels of reliability and robustness into the Electric Drive Unit (EDU), exceeding anything that we have seen before by using the latest tools and best practice Engineering Techniques. Skills, Experience and Qualifications Experience - 5 to 8 Years Essential: Master’s in Mechanical Engineering with specialization in Mechanical System Design or Vibration (preferred). Minimum 5 years of industrial experience in multi-body dynamics (MBD) analysis of electric or hybrid powertrain. Proven expertise with MBD simulation tools (e.g. Simpack, MSC Adams etc). Strong understanding of powertrain systems and their kinematic and dynamic interactions. Experience with NVH, durability and vibration analysis. Familiarity with finite element analysis (FEA) and modal analysis to deal with flexible bodies Proficient in scripting languages (e.g., Python, MATLAB) for simulation automation. Exposure to AI/ML application in CAE domain Strong analytical and problem-solving skills. Excellent communication and technical documentation abilities. Desired: Experience with structural and thermal co-simulation with MBD simulations (e.g., MBD and Simulink). Familiarity with vehicle system-level simulation tools (e.g., CarSim, AMESim) Knowledge of vehicle dynamics and control systems. Knowledge of drivetrain efficiency, gear dynamics, and torsional vibration. Exposure to electric powertrains and hybrid systems. Experience with data acquisition, data processing and test correlation. Knowledge about the implementation of a data-driven framework in different aspects of virtual simulations for faster and more efficient product development cycles. Basic proficiency with CAD software such as 3DExperience, CATIA, or Unigraphics (UG/NX) Basic Knowledge about Electric Powertrain systems, components, and assembly testing: test standards and specifications, rig setup, execution, and correlation. Key Responsibilities: Develop and validate multi-body dynamic (MBD) models of powertrain systems, including the engine, driveline, and transmission (EDU). Perform simulations to evaluate durability, drivability and NVH (Noise, Vibration & Harshness) behavior of powertrain components subjected to different vehicle operating conditions Collaborate with design, testing, and controls teams to optimize system performance and reliability. Analyze test data and correlate with simulation results to improve model accuracy. Support root cause analysis of powertrain-related issues using Model-Based Design (MBD) tools. Document simulation methodologies, results, and recommendations in technical reports. Contribute to the development of simulation best practices and automation tools. Develop testing plans to validate the simulated outputs and physical interpretation of results to come up with design recommendations for product enhancement. Perform design trade-off and robustness studies for several design iterations during development phases of a product. Key Interactions Powertrain Multi Body System (MBS) Delivery team Team Managers / Group Leader(s) Technical Specialists and Subject Matter Experts (SME) Vehicle MBS, Integration and Durability & Robustness team Personal Profile A passion for the automotive industry Energetic with a positive ‘can-do’ attitude Project management capabilities with excellent execution skills and the ability to multitask Comfortable with strong influencing and engagement skills - able to challenge existing thinking in a positive way whilst building credibility and trust through experience and personal style Resilient and enthusiastic, an individual able to deliver results under pressure, whilst responding constructively to challenging new ideas and inputs A dynamic and determined individual, highly driven, committed, and results-oriented with significant pace, energy and confidence. Able to deliver quality and consistency in a complex, highly demanding environment with a range of expectations on what customer-focused solutions might look like Show more Show less
About JLR: Innovative. Trusted. Pioneering. These three qualities have always summed up Jaguar Land Rover. They have been encapsulated within the performance, luxury and excellence of all our products. They are what every person working for us lives and breathes. From creating intelligent hybrids to building driverless vehicles, evolving existing technologies to discovering new energy storage ,our ambition for the future of our vehicles and the industry beyond is endless. Role Profile The Electrification Core engineering team requires experienced E-machine Engineer to apply world class design and analysis skills to improve Jaguar Land Rover's capability to deliver the next generation eMachines. The objective is to deliver levels of reliability and robustness into the Electric Drive Unit (EDU), exceeding anything that we have seen before by using the latest tools and best practice Engineering Techniques. Skills, Experience and Qualifications Experience - 5 to 8 Years Essential: Master’s in Mechanical Engineering with specialization in Mechanical System Design or Vibration (preferred). Minimum 5 years of industrial experience in multi-body dynamics (MBD) analysis of electric or hybrid powertrain. Proven expertise with MBD simulation tools (e.g. Simpack, MSC Adams etc). Strong understanding of powertrain systems and their kinematic and dynamic interactions. Experience with NVH, durability and vibration analysis. Familiarity with finite element analysis (FEA) and modal analysis to deal with flexible bodies Proficient in scripting languages (e.g., Python, MATLAB) for simulation automation. Exposure to AI/ML application in CAE domain Strong analytical and problem-solving skills. Excellent communication and technical documentation abilities. Desired: Experience with structural and thermal co-simulation with MBD simulations (e.g., MBD and Simulink). Familiarity with vehicle system-level simulation tools (e.g., CarSim, AMESim) Knowledge of vehicle dynamics and control systems. Knowledge of drivetrain efficiency, gear dynamics, and torsional vibration. Exposure to electric powertrains and hybrid systems. Experience with data acquisition, data processing and test correlation. Knowledge about the implementation of a data-driven framework in different aspects of virtual simulations for faster and more efficient product development cycles. Basic proficiency with CAD software such as 3DExperience, CATIA, or Unigraphics (UG/NX) Basic Knowledge about Electric Powertrain systems, components, and assembly testing: test standards and specifications, rig setup, execution, and correlation. Key Responsibilities: Develop and validate multi-body dynamic (MBD) models of powertrain systems, including the engine, driveline, and transmission (EDU). Perform simulations to evaluate durability, drivability and NVH (Noise, Vibration & Harshness) behavior of powertrain components subjected to different vehicle operating conditions Collaborate with design, testing, and controls teams to optimize system performance and reliability. Analyze test data and correlate with simulation results to improve model accuracy. Support root cause analysis of powertrain-related issues using Model-Based Design (MBD) tools. Document simulation methodologies, results, and recommendations in technical reports. Contribute to the development of simulation best practices and automation tools. Develop testing plans to validate the simulated outputs and physical interpretation of results to come up with design recommendations for product enhancement. Perform design trade-off and robustness studies for several design iterations during development phases of a product. Key Interactions Powertrain Multi Body System (MBS) Delivery team Team Managers / Group Leader(s) Technical Specialists and Subject Matter Experts (SME) Vehicle MBS, Integration and Durability & Robustness team Personal Profile A passion for the automotive industry Energetic with a positive ‘can-do’ attitude Project management capabilities with excellent execution skills and the ability to multitask Comfortable with strong influencing and engagement skills - able to challenge existing thinking in a positive way whilst building credibility and trust through experience and personal style Resilient and enthusiastic, an individual able to deliver results under pressure, whilst responding constructively to challenging new ideas and inputs A dynamic and determined individual, highly driven, committed, and results-oriented with significant pace, energy and confidence. Able to deliver quality and consistency in a complex, highly demanding environment with a range of expectations on what customer-focused solutions might look like
About JLR: Innovative. Trusted. Pioneering. These three qualities have always summed up Jaguar Land Rover. They have been encapsulated within the performance, luxury, and excellence of all our products. They are what every person working for us lives and breathes. From creating intelligent hybrids to building driverless vehicles, evolving existing technologies to discovering new energy storage, our ambition for the future of our vehicles and the industry beyond is endless. Skills, experience, and qualifications : Essential: • Perform Power Electronics Systems Engineering and Failure Analysis for electrified powertrain projects, ensuring robust design and issue resolution. • Apply strong technical knowledge of chargers, converters, inverters, electric machines, batteries, thermal management, EMI/EMC, and mechanical systems. • Act as the Electrical SME for HV powertrain systems - developing and maintaining high-voltage electrical schematics and block diagrams. • Coordinate and manage electrical specifications across multiple system components and engineering teams. • Conduct electrical modelling and simulation for power electronics and powertrain integration (e.g., MATLAB/Simulink). • Drive system-level requirements engineering and ensure verification through traceable validation methods. • Root cause investigations and corrective/preventive actions for quality issues using structured methodologies like 8D. • Support DFMEA development, Functional Safety (ISO 26262) activities, and overall powertrain integration. • Contribute to the design and release of HV system architectures across electrified powertrain platforms, including production-intent programs. • Provide technical support during system-level testing and analyse rig test results to guide system improvements. • Bachelor’s degree in Electrical or Electronics Engineering. Desirable: • Master’s degree in Electrical or Electronics Engineering. • 8+ years of hands-on experience in high-voltage power electronics systems. • Direct experience with BEV, MHEV, and PHEV powertrain architectures and technologies. • Familiarity with complex high-voltage system design and compliance with applicable regulatory requirements. • Proficiency in specifying and designing low- and high-voltage hardware, including protection and diagnostic systems. • Experience using simulation/analysis tools for thermal performance, reliability, and durability verification. • Solid understanding of automotive product development processes, including design release cycles. • Ability to interpret and create detailed electrical schematics and system wiring diagrams. Key Interactions: • Design Validation Engineers (DV) • Team Managers / Group Leader(s) • Technical Specialists • Subject Matter Experts (SME) • Purchasing Team • Integration Team • Programme Team • Powertrain Research Team • Powertrain EDU and Power Electronics Team. • Vehicle Packaging team • Vehicle electrical team Personal Profile Essential: • An individual with a customer first mindset who is easy to do business with and makes people feel special, driven to deliver experiences that are personalised, transparent, and dependable • An individual who is results driven with the ability to deliver operational plans in a highly demanding environment • A passion for continuous technical improvement (Enthusiastic to create differentiating products in industry) • Ability to follow accurate and robust working practices • An individual with the ability to prioritise their workload • A good communicator with the ability to communicate complex ideas • An effective collaborator who supports team members Desirable: • Resilient and enthusiastic, an individual able to deliver results under pressure • Excellent communication and people skills, with strong influencing and engagement skills
About JLR: Innovative. Trusted. Pioneering. These three qualities have always summed up Jaguar Land Rover. They have been encapsulated within the performance, luxury, and excellence of all our products. They are what every person working for us lives and breathes. From creating intelligent hybrids to building driverless vehicles, evolving existing technologies to discovering new energy storage, our ambition for the future of our vehicles and the industry beyond is endless. Skills, experience, and qualifications : Essential: Perform Power Electronics Systems Engineering and Failure Analysis for electrified powertrain projects, ensuring robust design and issue resolution. Apply strong technical knowledge of chargers, converters, inverters, electric machines, batteries, thermal management, EMI/EMC, and mechanical systems. Act as the Electrical SME for HV powertrain systems - developing and maintaining high-voltage electrical schematics and block diagrams. Coordinate and manage electrical specifications across multiple system components and engineering teams. Conduct electrical modelling and simulation for power electronics and powertrain integration (e.g., MATLAB/Simulink). Drive system-level requirements engineering and ensure verification through traceable validation methods. Root cause investigations and corrective/preventive actions for quality issues using structured methodologies like 8D. Support DFMEA development, Functional Safety (ISO 26262) activities, and overall powertrain integration. Contribute to the design and release of HV system architectures across electrified powertrain platforms, including production-intent programs. Provide technical support during system-level testing and analyse rig test results to guide system improvements. Bachelors degree in Electrical or Electronics Engineering. Desirable: Masters degree in Electrical or Electronics Engineering. 8+ years of hands-on experience in high-voltage power electronics systems. Direct experience with BEV, MHEV, and PHEV powertrain architectures and technologies. Familiarity with complex high-voltage system design and compliance with applicable regulatory requirements. Proficiency in specifying and designing low- and high-voltage hardware, including protection and diagnostic systems. Experience using simulation/analysis tools for thermal performance, reliability, and durability verification. Solid understanding of automotive product development processes, including design release cycles. Ability to interpret and create detailed electrical schematics and system wiring diagrams. Key Interactions: Design Validation Engineers (DV) Team Managers / Group Leader(s) Technical Specialists Subject Matter Experts (SME) Purchasing Team Integration Team Programme Team Powertrain Research Team Powertrain EDU and Power Electronics Team. Vehicle Packaging team Vehicle electrical team Personal Profile Essential: An individual with a customer first mindset who is easy to do business with and makes people feel special, driven to deliver experiences that are personalised, transparent, and dependable An individual who is results driven with the ability to deliver operational plans in a highly demanding environment A passion for continuous technical improvement (Enthusiastic to create differentiating products in industry) Ability to follow accurate and robust working practices An individual with the ability to prioritise their workload A good communicator with the ability to communicate complex ideas An effective collaborator who supports team members Desirable: Resilient and enthusiastic, an individual able to deliver results under pressure Excellent communication and people skills, with strong influencing and engagement skills Show more Show less
About JLR: Innovative. Trusted. Pioneering. These three qualities have always summed up Jaguar Land Rover. They have been encapsulated within the performance, luxury and excellence of all our products. They are what every person working for us lives and breathes. From creating intelligent hybrids to building driverless vehicles, evolving existing technologies to discovering new energy storage ,our ambition for the future of our vehicles and the industry beyond is endless. Role Profile The Electrification Core engineering team requires experienced E-machine Engineer to apply world class design and analysis skills to improve Jaguar Land Rover&aposs capability to deliver the next generation eMachines. The objective is to deliver levels of reliability and robustness into the Electric Drive Unit (EDU), exceeding anything that we have seen before by using the latest tools and best practice Engineering Techniques. Skills, Experience and Qualifications Experience - 5 to 8 Years Essential: Masters in Mechanical Engineering with specialization in Mechanical System Design or Vibration (preferred). Minimum 5 years of industrial experience in multi-body dynamics (MBD) analysis of electric or hybrid powertrain. Proven expertise with MBD simulation tools (e.g. Simpack, MSC Adams etc). Strong understanding of powertrain systems and their kinematic and dynamic interactions. Experience with NVH, durability and vibration analysis. Familiarity with finite element analysis (FEA) and modal analysis to deal with flexible bodies Proficient in scripting languages (e.g., Python, MATLAB) for simulation automation. Exposure to AI/ML application in CAE domain Strong analytical and problem-solving skills. Excellent communication and technical documentation abilities. Desired: Experience with structural and thermal co-simulation with MBD simulations (e.g., MBD and Simulink). Familiarity with vehicle system-level simulation tools (e.g., CarSim, AMESim) Knowledge of vehicle dynamics and control systems. Knowledge of drivetrain efficiency, gear dynamics, and torsional vibration. Exposure to electric powertrains and hybrid systems. Experience with data acquisition, data processing and test correlation. Knowledge about the implementation of a data-driven framework in different aspects of virtual simulations for faster and more efficient product development cycles. Basic proficiency with CAD software such as 3DExperience, CATIA, or Unigraphics (UG/NX) Basic Knowledge about Electric Powertrain systems, components, and assembly testing: test standards and specifications, rig setup, execution, and correlation. Key Responsibilities: Develop and validate multi-body dynamic (MBD) models of powertrain systems, including the engine, driveline, and transmission (EDU). Perform simulations to evaluate durability, drivability and NVH (Noise, Vibration & Harshness) behavior of powertrain components subjected to different vehicle operating conditions Collaborate with design, testing, and controls teams to optimize system performance and reliability. Analyze test data and correlate with simulation results to improve model accuracy. Support root cause analysis of powertrain-related issues using Model-Based Design (MBD) tools. Document simulation methodologies, results, and recommendations in technical reports. Contribute to the development of simulation best practices and automation tools. Develop testing plans to validate the simulated outputs and physical interpretation of results to come up with design recommendations for product enhancement. Perform design trade-off and robustness studies for several design iterations during development phases of a product. Key Interactions Powertrain Multi Body System (MBS) Delivery team Team Managers / Group Leader(s) Technical Specialists and Subject Matter Experts (SME) Vehicle MBS, Integration and Durability & Robustness team Personal Profile A passion for the automotive industry Energetic with a positive can-do attitude Project management capabilities with excellent execution skills and the ability to multitask Comfortable with strong influencing and engagement skills - able to challenge existing thinking in a positive way whilst building credibility and trust through experience and personal style Resilient and enthusiastic, an individual able to deliver results under pressure, whilst responding constructively to challenging new ideas and inputs A dynamic and determined individual, highly driven, committed, and results-oriented with significant pace, energy and confidence. Able to deliver quality and consistency in a complex, highly demanding environment with a range of expectations on what customer-focused solutions might look like Show more Show less
You will be joining Jaguar Land Rover, an innovative, trusted, and pioneering company known for its performance, luxury, and excellence across all products. As a Sr. Power Electronics Semiconductor Application Engineer, you are expected to have 6-12 years of experience and possess certain skills, experience, and qualifications: - Demonstrate in-depth knowledge of power electronic components and principles. - Expertise in power semiconductor device characterization, with the ability to evaluate device performance. - Experience with Si, SiC MOSFETs/JFETs, GaN, and other wide bandgap devices preferred. - Proficiency in simulating power semiconductor devices for power electronics applications. - Deep understanding of power modules/discretes, including die construction, packaging, materials, and parasitics. - Design gate drivers optimized for performance, cost, and modularity. - Hands-on experience in designing and preparing power stacks for prototypes. - Develop test benches for functional evaluation of power modules/discretes. - Build and model high-voltage power electronics systems within an electrical powertrain. - Experience in electrical modeling, including inverters, DC-DC converters, OBC, BMS, and power supplies. - Solve power electronics quality issues for xHEV and BEV vehicles. - Proficiency in simulation tools such as PSpice, LTSpice, MATLAB, or PSIM. - Hold a Bachelor's degree in Electrical or Electronics Engineering. Desirable qualifications include: - Master's degree in Electrical or Electronics Engineering. - 5+ years of experience in semiconductors and power electronics design. - Solid understanding of power semiconductor devices and their physics. - Experience in power loss calculations, parameterization, and 1D thermal modeling. - Work experience in high-voltage and high-current systems. - Familiarity with e-circuit breakers, e-fuses, and DC-DC converter design. - Hands-on experience with inverters, DC-DC converters, OBC, BMS, and power supplies. - Knowledge of EMI/EMC considerations in power electronics design. - Understanding of high-voltage and high-current PCB design. Key Interactions will involve collaborating with various teams such as HV Design & Test Team, LV Design & Test Team, Product Owners & Scrum Master, Systems Engineering Team, Embedded SW Team, Mechanical Design Team, Thermal Team, HV System Team, and Materials Team. In terms of personal profile, you should: - Have a customer-first mindset and deliver personalized, transparent, and dependable experiences. - Be results-driven and able to deliver operational plans in a demanding environment. - Possess a passion for continuous technical improvement and creating differentiating products. - Follow accurate and robust working practices. - Prioritize workload effectively. - Communicate complex ideas clearly. - Be an effective collaborator and support team members. Desirable traits include being resilient, enthusiastic, able to deliver results under pressure, excellent communication and people skills, with strong influencing and engagement abilities.,