As Power Electronics Engineer you are responsible for the development of Power electronics converters. You will be involved in the entire design process. This includes responsibilities such as Power converter hardware & software design. Automotive Power electronics for high performance electric vehicles.
DCDC resonant converter, Inverter, On-Board charger design and development.
You will design to best practices and industry standards in terms of Hardware design, EMC, creepage and clearance, thermal management, and reliability.
Schematics design and PCB layout in OrCAD and Embedded microcontroller programming.
• Power electronics converter design
• Magnetics design, Inductor, Transformer, EMI Filter
• Practical experience with analog electronics
• Practical experience with Power electronics
• NXP Microcontroller/INTEL Altera FPGA programming
• Embedded Programming C/C++ , Eclipse IDE
• Design and develop embedded firmware for DSP/Microcontroller
• Communication interface SPI, CAN , I2C
• Digital control of Power electronics converter
• Testing and debugging of power converter hardware and software
• Knowledge of Electrical safety standards, Creepage and clearance
• MEng/MSC Degree in Electrical & Electronics Engineering
• Extensive Power electronics experience with a using wide-bandgap power converter design and Power converter packaging
• Experience designing and working with a range of GaN and SiC applications
• Practical experience with DC/DC and DC/AC converters, gate drivers, high frequency inductive and capacitive components, and EMC/EMI requirements
• Proficient use of various modelling and simulation tools; Anysy Simplorer and Workbench, PLECS, Simulink, Matlab & LT/PSPICE software or equivalent
• Knowledge with development, analysis, and validation of design solutions using prototyping, simulation and test techniques
• Support in development and testing of robust and reliable hardware/software solutions
• Familiarity with relevant automotive legislation and guidelines is desirable
• Experience using and designing inverter power-stages for automotive traction drives, is preferred but not essential
• Knowledge of Electric machine control theory preferred, but not essential
• A practical knowledge of functional safety standards such as ISO26262, is preferred but not essential