Electronics: Embedded Electronic Systems Engineering
Studying the Electronics specialty (Embedded Electronic Systems Engineering) will allow you to delve deeper into one of the most dynamic and transformative fields of modern engineering. You will learn to understand, design, and integrate electronic systems capable of capturing secure and sustainable information through sensors, processing it intelligently, and acting upon the physical world efficiently.
You will acquire a global vision of industrial electronic systems: from physical and electrical fundamentals to their practical implementation in machinery, control systems, IoT networks, or artificial intelligence applications. Discover how electronics drives smart industry and technological innovation.
The specialty combines knowledge of microelectronics, digital systems, cybersecurity, energy management, sensors, and the Internet of Things (IoT), with a strong focus on innovation and product development. You will learn to use tools to understand and design complex systems, connecting electronics with other key areas of industrial engineering such as automation, energy management, or smart manufacturing.
How you will learn
The specialty consists of 6 subjects of 5 ECTS each with learning based on an active and practical methodology, combining master classes, interactive sessions, and project laboratories. From day one, you will come into contact with tools and technologies currently used in the industry, and you will apply theoretical knowledge in experimental and simulation environments.
The semester is organized so that theoretical subjects are intensified at the beginning, leaving space in the final stretch to develop the Industrial Project, a teamwork assignment proposed by collaborating companies where you must respond to a real technological challenge.
You will work with advanced microcontrollers, simulation platforms, FPGAs, AI programming environments, and electronic design tools, learning both Top-Down processes (from global conception to implementation) and Bottom-Up processes (from components to the complete system).
This combination of theory, laboratory, and project will offer you an immersive learning experience, very close to professional reality, enhancing your skills in innovation, teamwork, and complex problem-solving.
Career opportunities
The general profile of the degree prepares you to perform the functions of:
- Project Engineer, Technical Consultant, Process Analyst, Maintenance Manager, Production or Industrial Innovation Manager, R&D Engineer, Innovation Coordinator, Technical Auditor, Technical Sales Engineer, Quality Manager.
The work areas of the specialty include:
- Electrical/electronic power and automation systems, PLC programming, Computer vision, Real-time control, sensors and actuators, Cyber-physical systems and Industry 4.0, Internet of Things (IoT) and applied Artificial Intelligence, Industrial digitalization and Digital twins, Industrial cybersecurity and privacy, Industrial Big Data, MES/ERP systems, Data engineering, Communications.
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