POWER ELECTRONICS MODELLING ENGINEER

Skills, experience, and qualifications:

Essential:

• The candidate should demonstrate an in-depth level of knowledge and understanding of electronic components & principles
• Develop behavioural and physics-based models of power electronic components (e.g., converters, inverters, filters, magnetics, semiconductors).
• Develop and validate models of automotive power electronic systems including onboard chargers, DC-DC converters, traction inverters, and battery management systems.
• Perform system-level simulations using tools such as MATLAB/Simulink, PLECS, PSIM, LTspice, or equivalent.
• Collaborate with design engineers to validate models against hardware measurements and refine models accordingly.
• Document modelling methodologies, assumptions, and validation results.
• Contribute to design reviews and provide insights based on simulation results.
• Stay updated with the latest modelling techniques, simulation tools, and industry trends.
• Collaborate with hardware and control teams to integrate models into real-time simulation platforms (e.g., dSPACE, OPAL-RT, Typhoon HIL).
• Analyse thermal, electrical, and EMI/EMC behaviour of power systems under automotive operating conditions.
• Support model-based design workflows and contribute to digital twin development for predictive diagnostics and performance optimization.
• Document modelling methodologies, validation procedures, and simulation results for internal and customer-facing reports.
• Stay updated with automotive standards (ISO 26262, ASPICE) and ensure compliance in modelling practices
• Support control algorithm development and integration through co-simulation environments

Desirable:

• Bachelor's Degree in Electrical or Electronics Engineering.
• 5+ years of experience in modelling and simulation of automotive power electronic systems.
• Strong proficiency in MATLAB/Simulink, PLECS, PSIM, or similar simulation tools.
• Solid understanding of automotive power converter topologies and control strategies.
• Experience with thermal and EMI/EMC modelling in automotive environments.
• Familiarity with automotive communication protocols (CAN, LIN) and embedded systems.
• Excellent analytical, documentation, and communication skills.

Key Accountabilities and Responsibilities, including key performance indicators:

• Effective Develop the simulation for the system
• Optimised the Design using the Simulation output
• Document the simulation result
• Implement the Digital Twin the System level