Electronics and Artificial Intelligence
The Applied Electronics R&D line focuses its work on the design of custom hardware and software electronic solutions, developing and integrating electronic systems based on innovative technologies in computing, data processing, sensing, communications, and control. The development of these solutions includes the design, prototyping, and verification of multilayer printed circuit boards (PCBs) in accordance with requirements for signal and power integrity, electromagnetic compatibility, and safety, as well as the creation of firmware and software to implement their logical functionalities.
Characterized by the diversity of its research areas and a strong commitment to innovation and technology transfer to industry, the group’s research experience spans a wide range of sectors, including automotive, industry, telemedicine, consumer electronics, elevators, agri-food, and defense. This experience provides the ability to design specifically tailored and optimized solutions according to the needs of each case, the application sector, and the applicable regulations.
These capabilities enable the Applied Electronics team to add value at all stages of the development process, from the creation of entirely new designs adapted to the specific needs of each project, to the evolution and refinement of existing prototypes for industrialization, or the optimization and correction of mature developments—ensuring efficiency, functionality, and compliance with required standards.
ITCL’s electronics laboratories are equipped to carry out the various stages involved in the manufacturing of electronic prototypes, from the initial design phase to the fabrication of prototypes or small series in the lab. This capability provides significant added value to the development flow, allowing for the testing and validation of both design stages and final projects, reducing design and validation times, optimizing overall development time, and improving process efficiency.
CAPACIDADES DE I+D EN ELECTRÓNICA APLICADA
Electronic Design
- Selection of components and processors tailored to each specific case.
- Multilayer electronic and PCB design (from 2 to over 16 layers).
- Rigid, semi-rigid, and flexible PCBs.
- HDI designs compliant with SI, PI, and EMC standards.
- Adaptation to critical applications: high-speed, RF, mixed-signal.
- Support for testing and regulatory certifications.
Software and Advanced Algorithms
- Firmware and software design/programming for MCUs, MPUs, SoCs, SoMs, and MPSoMs.
- Software development for embedded systems with operating systems: FreeRTOS, Linux (Yocto, Debian…), Windows.
- Implementation of advanced algorithms in embedded systems: data analytics, AI models, neuromorphic computing, audio/video processing, and real-time streaming.
Edge Computing
- Design and prototyping of multiprocessor devices with high local processing capacity for industry, consumer, healthcare, and automotive sectors.
- Solutions based on commercial modules (e.g., Nvidia Jetson, Raspberry Pi Compute Module, etc.).
- Advanced solutions with PCB-level processors (Microchip, Xilinx, STM, NXP, Espressif, etc.)
IoT-Industrial IoT
- LPWA devices (LoRa, NB-IoT, LTE-M, LTE Cat 1).
- Custom IoT gateways and integration with existing systems and platforms.
- Design of IoT devices with rechargeable batteries and ultra-low power consumption.
- Monitoring of industrial variables and smart city infrastructure.
- Environmental monitoring.
- Asset tracking and localization (indoor/outdoor).
Sensor Systems
- Design of electronics for signal acquisition, conditioning, and conversion from analog and digital sensors.
- Integration of custom or commercial sensors into embedded devices for industry, mobile robotics, IoT, wearables, automotive, agri-food, etc.
- Sensor selection and characterization based on the application.
Embedded Solutions
- Design and prototyping of custom and commercial solutions to extend functionalities in mobile robotics, autonomous vehicles, and automotive prototypes.
- Integration of solutions into target systems at both hardware and software levels.
Advanced Connectivity
- Implementation of next-generation wireless technologies:
- 5G
- Redes privadas 5G (MPN)
- MIOTY
- WI-SUN
- Integration of the most suitable wireless technologies for each application:
- Celular (5G/LTE)
- LPWA (NB-IoT, LTE-M, LoRaWAN)
- Wi-Fi
- Bluetooth-Bluetooth Mesh
- Zigbee
- Integration of standard communication buses and interfaces:
- CAN / CAN-FD / CANopen / LIN
- RS-485 / 422 /232
- UART / I2C / SPI
- TCP / IP / UDP / MQTT
Electronic Prototyping
- In-house manufacturing of prototype electronics, pre-series, and small batches.
- SMD components down to 0402 and fine-pitch packages (e.g., BGA).
- Assembly of prototypes and small production runs during development stages.
OUR TEAM
The department is composed of a multidisciplinary team of hardware, firmware, and telecommunications engineers with extensive experience. They are capable of transforming concepts into fully developed products across a wide range of applications and project types, bringing innovation and a forward-thinking technological approach.
Alberto Navarro Benito
Head of the Applied Electronics R&D Unit at ITCL
A hardware designer with over 14 years of experience in electronic hardware design and embedded systems programming. His areas of expertise include advanced electronic and multilayer PCB design (High-Speed, Signal and Power Integrity, Electromagnetic Compatibility, and Safety), as well as embedded system programming, both bare-metal (C) and OS-based (C, C#, Python, Linux).
He has participated in numerous national and European R&D projects and also coordinates multidisciplinary projects and teams that span various fields such as Electronics, Robotics, Artificial Intelligence, and Intelligent Perception Systems.
RESEARCH PROJECTS
AI4SwEng – AI Engineering Suite to support Agile Efficient Software Engineering
AI4SWEng boosts agile software development through AI, delivering tools for code generation, automated testing, security, and regulatory compliance.
ICONICA: Research in Safe, Intelligent, Connected and Autonomous Driving
The project investigates solutions for connected and autonomous vehicles, focusing on V2I and V2V information exchange using 5G communication networks, which offer high speed and ultra-low latency.
Duration: October 2024 - December 2025
BIOTECARE – Data-Driven Technological Advancement for the Optimization of Biotechnological, Healthcare, and Care Processes
The project aims to drive research and development of innovative solutions based on data science, AI, and Deep Learning to enhance the integration of medicine with these technologies. This will improve how diseases are diagnosed, treated, and prevented, as well as optimize overall healthcare management and patient experience.
Duration: 2024 - 2026
QuantumCrip – Research on the Ambivalence of Quantum Computing for Solving Optimization Problems and Post-Quantum Encryption
Project Description: The QuantumCrip project encompasses two major lines of research and development. The first focuses on exploring quantum computing algorithms and applications, including their execution on both quantum computers and simulators. The second line...
AGROTECYL – Sustainable, autonomous, and intelligent fertigation system for crop irrigation.
Project Description: The AGROTECYL project focuses on the research and development of a sustainable and autonomous fertigation system for crops, based on artificial intelligence. This system will be capable of predicting the irrigation and fertilization needs of...
