Vacancy expired!
- Develop, document the engineering requirements for automotive traction battery systems. Lead other engineers and teams to balance requirements.
- Develop battery system usable energy walk system model by taking account of all system factors in usable energy walk. Create initial models, and develop the improvement plans and targets to optimize the system usable energy.
- Develop and apply battery data analytics and predictive system engineering tools (1D, simullink/matlab) for prediction and verification of battery system performance and thermal.
- Develop battery usage profiles and mission profiles for battery life modeling/ prediction/simulations and component designs for durability and other applications.
- Analyze battery and vehicle usage data from Fleet Test Vehicles to compare and validate battery life and performance models.
- Support development of appropriate battery usage history statistics and their online recording
- Analyze critical battery performance during the entire product lifecycle including power and energy performance, battery life, safety performance.
- Help develop tests as needed for verifying battery system performance and execute product design improvements.
- Lead the data analysis activities and interpretation related to battery field performance to guide requirements development and product improvements
- Bachelor's degree in Electrical, Chemistry, Applied Physics, Aerospace, Industrial, Systems, or Computer Engineering, or related Engineering field
- Good understanding of Li-ion cell electrochemistry, cell/battery life models and battery life behavior.
- Excellent Matlab scripting skills or other languages e.g., Octave, Python
- Knowledge of design of experiments, parameter fitting, optimization, and data regression methods
- General knowledge of xEV Battery/BMS systems, xEV Vehicle/powertrain operation
Vacancy expired!