Checking date: 21/04/2023

Course: 2024/2025

Experimental Project I
Master in Electronic Systems Engineering (Plan: 327 - Estudio: 304)

Coordinating teacher: HERNANDEZ CORPORALES, LUIS

Department assigned to the subject: Electronic Technology Department

Type: Compulsory
ECTS Credits: 3.0 ECTS


Requirements (Subjects that are assumed to be known)
Analog and Digital Subsystem Design Electronic & Photonic Devices Fundamentals of Signals and Electronic System Modelling
Basic competences and skills -Ability to apply acquired knowledge and problem solving skills in new environments within wider (or multidisciplinary) contexts related to their area of study. - Ability to integrate knowledge and face the complexity of making judgments based on information that, incomplete or limited, includes reflections on social and ethical responsibilities linked to the application of their knowledge and judgments. - Acquisition of the learning skills that allow students to continue studying. General competences and skills: - Ability to prepare concise, clear and reasoned documentation and specify the work to be done for the development, integration and application of complex electronic systems with high added value. - Acquisition of teamwork capacities integrating multidisciplinary approaches. - Adoption of the scientific method as a fundamental work tool to apply both in the professional and research fields. Specific competences: - Ability to design, implement and manage a set of tests and experimental measures to evaluate the operation of an electronic system. - Ability to participate in a multidisciplinary technical work team in the field of electronic engineering, with the ability to react to technical and operational difficulties in the framework of development of a technological project. - Ability to verify experimentally in the laboratory the compliance of the specifications required to a new electronic system after its design After completing this subject the student will have acquired the ability to: - Design and develop a complete electronic system using the subsystems learnt in other courses within the master, analog and/or digital electronic circuits, interfaces, power electronic circuits, etc. - Design and develop a test bench to measure and evaluate the performance of an electronic system. - Apply their knowledge in the electronic field, at both system and device level, in a real and practical environment. - Collaborate within a multidisciplinary team (different disciplines in electronic engineering field), reacting to operational and technical difficulties, in a project development scenario - Properly report the developed project and defend it against third parties.
Skills and learning outcomes
Description of contents: programme
A number of laboratory projects will be offered for both courses. Each project will consist of a medium complexity complete electronic system, covering a certain application. We will consider for the project offer especillay the contents of the previous master topics, covering several disciplines in the electronic engineering field. The students will collaborate in teams according to the assigned project, requiring some coordination between them. Both team and individual performance will be assessed. Experimental Project I. Project offer will include a set of minimum requirements and specifications. As this course is mandatory, every student must collaborate in developing, debugging and testing the project.
Learning activities and methodology
Lectures Laboratory project development Tutoring Group Work Individual study Docent methodology Practical case resolution in a work gorup Redaction of laboratory workbooks and reports.
Assessment System
  • % end-of-term-examination 20
  • % of continuous assessment (assigments, laboratory, practicals...) 80

Calendar of Continuous assessment

Basic Bibliography
  • Gaonkar, Ramesh S. Fundamentals of microcontrollers and applications in embedded systems. Thomson/Delmar Learning. 2007.
  • M.A. Perez Garcia, J.C. Alvarez Anton, J.C. Campo Rodriguez, F.J. Ferrero Martin, G.J. Grillo Ortega.. Instrumentacion Electronica.. Thomson - Paraninfo. 2003.
  • Sedra, Adel S. Circuitos microelectrónicos. McGraw-Hill Interamericana. 2006.

The course syllabus may change due academic events or other reasons.