The electrical technologies cluster focuses on developing more efficient and robust electrical systems and technologies to optimize energy resources in a sustainable and competitive manner over the long term. This grouping encompasses the design and development of highly efficient and compact power systems, electronic instrumentation for passive components and scientific equipment, optimization of energy consumption in renewable energy systems and energy storage through digital twins, prototypes and laboratory tests. The laboratories of the cluster (Electrical Laboratory: EMC-Safety, Instrumentation and Zero-emissions) provide support to research and development activities, performing electromagnetic compatibility and electrical safety tests, and expanding their offer with new services.
This technology consists of two distinct technology areas:
The first area specializes in electromagnetics and electronic instrumentation design. In the field of electromagnetism, methodologies are developed to characterize electrical systems and components, improving their efficiency, safety and controlling Electromagnetic Compatibility (EMC) phenomena in high electronic density environments. In the field of electronic instrumentation, high-sensitivity and low-power devices are designed and developed for scientific instrumentation, as well as for adding new functions to existing components. Both areas aim to promote technology and its applications in different fields.
The second area specializes in the design and development of complex, compact and efficient electrical systems for the electrified world of the present and future. The section aims to create sustainable electrical systems, such as microgrids, that integrate renewable energies and electrical power systems with batteries and supercapacitors. We work on the optimization of energy flows to ensure system reliability and stability through complex control algorithms. This grouping consists of three sections: power electronics, storage systems and electrical networks. Our focus is on efficient and compact high-frequency power electronics, incorporating GaN and SiC technologies, together with advanced control algorithms and modulation techniques.
The technology cluster Advanced Electromagnetic Technologies and Electronic Instrumentation is associated with the technology line L6 Sustainable Energy Electrical Systems and EMC, where it seeks to respond to four nuclear pillars:
Development of new technologies with high electronic density, low consumption, based on energy storage systems and renewable energies. The focus during these years is on optimizing energy resources in a sustainable manner to achieve an environmentally friendly energy growth model.
The activity of the technological group responds to a transversal dynamic and tries to support the following ITAINNOVA missions of clean transport and sustainable mobility, efficient, innovative and circular industry and climate change and clean energy.
CMSUPG “Actividades de ITAINNOVA para los” Upgrades” de alta luminosidad del LHC: Inner Tracker y Endcap timing layer”. Este proyecto cuya referencia es PID2020-113705RB-C33 (2020- 2023) , 243.000 € de presupuesto. IP: Dr.Arteche
EUROLABs (EUROpean Laboratories for Accelerator Based Sciences ) Horizonte Europa – 101057511 (2022- 2026). El proyecto por el INFN (Italia) cuanta con un presupuesto es de 15 M€ (ITAINNOVA 160k€)
AIDAINNOVA Advancement and Innovation for Detectors at Accelerators, H2020-101004761, (2021- 2025), presupuesto con 10M (ITAINNOVA 65k€) de euros.
Tecnologías avanzadas para la exploración del universo y sus componentes Este proyecto dotado con un presupuesto de 5M€ (ITAINNOVA 239 k€). se enmarca en los Planes Complementarios (PC-MMR)
GanCAP4CMS Diseño y desarrollo de un sistema de protección contra transitorios basados en fuentes de corrientes con transistores GaN y superCondensAdores integrados para el nuevo detector de Pixeles de CMS – Fase II (Ref: LMP239_21). (2021-2023). Presupuesto de 98 k€. IP: Dr. Arteche).