Master's Degree in Electronic Engineering

  • Know advanced techniques of energy conversion, electromagnetic compatibility and system control in the field of industrial electronics.
  • Know advanced techniques of instrumentation and design of electronic, photonic and microelectronic devices.
  • Know advanced techniques of signal and data propagation through hardware to ensure signal integrity, with an emphasis on case studies.
  • Know advanced techniques of digital signal and data processing systems, from conception to implementation in real-time hardware systems.
  • Interpret technical documentation and regulatory standards for equipment and systems in the field of electronic engineering and related multidisciplinary fields.
  • Identify the need for multidisciplinary teams in companies and technological centres in the field of electronic engineering and related multidisciplinary fields.
  • Conduct a critical analysis, evaluation and synthesis of new ideas to solve problems in complex or unfamiliar environments within broader contexts in the field of electronic engineering and related multidisciplinary fields.
  • Gain the professional skills and cooperation abilities that are suitable for practising in the field of electronic engineering and related multidisciplinary fields.
  • Manage, plan and supervise multidisciplinary teams in companies and technology centres in the field of electronic engineering and related multidisciplinary fields.
  • Communicate conclusions (and the knowledge and rationale underpinning these) to specialist and non-specialist audiences clearly and unambiguously.
  • Apply and integrate the knowledge gained and confront the complexity of making judgments with incomplete or limited information but that includes reflecting on the social and ethical responsibilities linked to the application of knowledge and judgments.
  • Promote technological, social or cultural progress in academic and professional contexts within a knowledge-based society.
  • Consider the economic, social and ecological context in electronic engineering solutions, being aware of diversity and multiculturalism and ensuring environmental sustainability and respect for human rights and gender equality.
  • Identify, formulate and solve problems in the field of electronic engineering and related multidisciplinary fields.
  • Create mathematical models and simulations in the field of electronic engineering and related multidisciplinary fields.
  • Project, calculate and design products, processes and installations in the field of electronic engineering and related multidisciplinary fields.
  • Handle specialised software and hardware, as well as design, simulation and programming environments in the field of electronic engineering and related multidisciplinary fields.
  • Design systems and processes that meet electronic, regulatory, economic, social, ethical and environmental specifications.
  • Demonstrate knowledge and have skills for self-directed or autonomous learning that provide a basis or opportunity to be original in developing or applying ideas, often in a research or lifelong learning context.
  • Demonstrate a systematic knowledge and a mastery of technical, personal, social and methodological skills in the field of electronic engineering and related multidisciplinary fields.