- Acquiring knowledge and understanding of physical and mathematical principles, and of the operation of electronic instrumentation systems from an engineering point of view.
- Acquiring the ability to apply knowledge and understanding of electronic instrumentation to identify, formulate and solve engineering problems within the industrial environment, and recognize specifications using established methods of analysis of circuit design and electronic instrumentation systems.
- Acquiring the ability to use appropriate methods to conduct research and make innovative contributions in the field of Industrial Engineering, and specifically in the field of electronic instrumentation.
-Acquiring e the ability to apply the knowledge and understanding of electronic instrumentation to solve problems and to design devices or processes in the field of industrial engineering according to criteria of cost, quality, safety, efficiency and respect for the environment.
- Acquiring basic technical and laboratory skills, handling of electronic laboratory equipment and interpretation of results.
- Acquiring the ability to perform bibliographic searches, use databases and other sources of information to apply them to the design of basic electronic instrumentation systems.
- Acquiring the ability to combine theory and practice to solve engineering problems by applying electronic instrumentation technologies.
- Knowing the reference model of an electronic instrumentation system, the main electronic components used in instrumentation systems, the main sensors of physical magnitude and the basic structure of industrial instrumentation systems.