Electromechanical Engineering

We specialize in the design, integration, simulation, and execution of testing for the fine-tuning and qualification of electromechanical systems.

We offer tailored technical solutions, ranging from the design of equipment to their integration into complex systems, as well as validation and performance testing to ensure their reliability and efficiency.

Electromechanical design and modeling.

Design and modeling of electromechanical systems: CAD, design of electric machines, actuators, motors, generators, transmission and control devices.

Development of electromechanical prototypes: feasibility study, detailed design, thermal, mechanical, and electromagnetic simulations to optimize performance.

Analysis and optimization of electromechanical performance: considering thermal, vibrational, and electrical constraints in equipment design.

Integration of electromechanical systems.

Integration of electromechanical equipment into complex systems: motors, generators, control and regulation systems for industrial or propulsion applications.

Coordination of the integration of electromechanical subsystems into installations, managing mechanical, electrical, and control interfaces.

Electromagnetic compatibility (EMC) and interference testing to ensure proper coexistence between electromechanical components.

Development of thermal and vibration management solutions for the integration of equipment in demanding industrial environments.

Validation testing of electromechanical systems.

Functional validation testing of electromechanical systems: verification of the performance of motors, generators, and actuators under real operating conditions.

Durability and endurance testing of electromechanical systems: thermal, mechanical, and electrical simulations to validate equipment longevity.

Vibration and thermal testing of electromechanical equipment: vibration analysis, deformation measurement, and thermal controls to ensure system robustness.

Development of complex electromechanical systems.

Test analysis and optimization.

Monitoring and analysis of test results to validate equipment compliance with technical specifications and regulatory requirements.

Optimization of testing processes: implementation of testing methodologies, analysis of test data to improve the design and performance of electromechanical systems.