.It takes the brightest minds to be a technology leader. It takes imagination to create green energy for the generations to come. At Siemens Gamesa we make real what matters, join our global team. Siemens Gamesa is part of Siemens Energy, a global leader in energy technology with a rich legacy of innovation spanning over 150 years. Together, we are committed to making sustainable, reliable, and affordable energy a reality by pushing the boundaries of what is possible. As a leading player in the wind industry and manufacturer of wind turbines, we are passionate about driving the energy transition and providing innovative solutions that meet the growing energy demand of the global community. At Siemens Gamesa, we are constantly seeking talented individuals to join our team and support our focus on energy transformation. Find out how you can make a difference at Siemens Gamesa: Position Overview We are looking for a Power System and Converter Control Engineer to join our Grid Connection department. How to Contribute to Our Vision Development of Wind Turbine and/or Wind Farms Regulator electrical simulation models in Electromagnetic Transient models with specific features (snapshot, encryption, multi-run). Develop converter control algorithms for grid features. Integrate DLLs or automatically generated code. Test model performance and analyze results. Provide inputs to other departments. Assess model performance against WTG capabilities. Modeling issues analysis. Documentation of activities: design report, validation reports, user manuals. Develop automation tools so that they can run simulations and create reports automatically. What You Need to Make a Difference Technical Knowledge: Power System Engineering: Transmission and distribution networks. Grid elements: (power transformers, power cables, reactive power compensation devices, protection and distribution of MV grids...). Power electronics. Electrical machines. Harmonics analysis. Converter Control Engineering: Power electronic converter design and control. Control theory and application. Power electronic drives, vector current control, Pulse Width Modulation. Grid Forming control systems. Real-time embedded control and implementation. Power System Studies: Transient stability (mainly LVRT and OVRT). Electromagnetic transients simulation (EMT). Dynamic studies (response to grid events or changes in power plant set points). Simulation and modeling of control and electrical systems. Small Signal Stability analysis of power systems. Software Skills: PSCAD: Very important to have knowledge about the Fortran compilers, compatibility issues and encryption techniques. Creation and integration of compiled code (DLLs) into simulation tools allowing advanced features: multirun, multi-instance and snapshot features. Fortran and C programming. MATLAB and Simulink. RSCAD (software package) – Real-Time Digital Simulator