Tasks
We have been delighting our customers with Porsche-style driving systems for decades. The task of Driving System Development is to explore innovative approaches to developing the best possible driving systems of the future. The Driving System Development department is responsible for the development of driving systems across all model series, taking into account the requirements of driving dynamics, ride comfort, and braking behavior. In addition to the chassis, the driving system also includes driver assistance systems and the development of the electric drive – consisting of the electric motor, pulse-controlled inverter, and transmission.
During your internship, you will gain comprehensive insights into the Porsche working world. In our department, you will have the opportunity to familiarize yourself with the entire drive system and, depending on the focus of your studies, support us in one of the following areas:
Preliminary Development of Electric Drives
Evaluation and further development of electric drive systems, as well as modeling and control of electric drives
Design, calculation, simulation, and testing of electric motors, pulse-controlled inverters, or transmissions
Interpretation and evaluation of measurement data from electric axle, electric motor, or transmission test benches
Further development and evaluation of simulation models for the evaluation of relevant components
Structured analysis of results and optimization of the drive system or individual components with regard to efficiency and performance
Support in the use of Matlab/Simulink and/or FEM simulation (ANSYS Maxwell, FEMAG, etc.) and/or CAD software
Resource Management
Participation in drive system resource management with component usage allocation within the Group
Weight representations of all drive system-relevant components of the respective vehicle projects
Award management of development services and IT development support
Drive system integration
Participation in integration tests, support in preparation and execution of tests and evaluation of results
Support in the creation of test plans, test cases, and test procedures
Collaboration in the integration of software, hardware, and electronic components, as well as support in troubleshooting
Support in the development of methods and tools for automating integration and error management process steps
Support in the use of VBA, JavaScript, and HTML
Driving System Quality
Development of a database for the evaluation of regulatory requirements and test results in driving system development
Evaluation and replication of errors from test drives
Support in the programming of relevant tools in the driving system
Familiarization with and support of processes (e.g., chassis modifications) for type approval/test vehicles
Support in the use of VBA, JavaScript, and HTML
Architecture and Functional Safety
Participation in the application of functional safety (FuSi) in the driving system
Support in the implementation and evaluation of HiL, test bench, and vehicle measurement series for robustness analyses and approvals
Presentation of functional and architectural diagrams for the driving system
Familiarize yourself with and contribute to topics related to Failure Mode and Effects Analysis (FMEA)
Electronics in the Driving System
Support in the area of ??driving system calibration on drivetrain test benches, HiL (hardware-in-the-loop) systems, and on the vehicle
Collaboration in the development of smart actuators for control systems (differential lock, all-wheel drive, parking lock, etc.) in the transmission, as well as support with evaluations
Conducting test bench and vehicle tests as well as error log evaluations for prototype vehicles
Collaboration in the further development of software/functions and optimization of driveline and chassis functions (e.g., tire pressure monitoring)
Support in the use of MATLAB/Simulink, VBA, and Python, as well as in the vector tool chain (CANape, CANoe, and CANalyzer) and ETAS-INCA
For more detail, salary and company information, use the apply link
