We have extensive experience in the modelling and design of magnetic components, as well as in non-contact energy transfer applications. We perform advanced control of electrical machines and power electronics converters, with the aim of developing customised applications for our customers.
We develop control algorithms for the monitoring of electrical machines and power converters connected to the electrical grid. We carry out model-based designs (MDB) and generate automatic code using Matlab/Simulink, reducing the validation time of the implemented strategies.
We model induction heating processes, such as domestic cooking systems, industrial quenching systems and heating systems for de-icing aircraft wings. Our specialisation allows us to develop wireless charging systems.
Our pioneering and high-level facilities offer the essential tools to carry out tests and validations of different technologies and thus address challenges such as sustainability, energy efficiency and cybersecurity.
We develop advanced control techniques for electrical machines and a multitude of power electronics converters, with the ability to simulate control models focused to the generation of automatic code applicable to microcontrollers.