Coordinating unit: Teaching unit: Academic year: Degree: ECTS credits: 2017 205 - ESEIAAT - Terrassa School of Industrial, Aerospace and Audiovisual Engineering 710 - EEL - Department of Electronic Engineering BACHELOR'S DEGREE IN AUDIOVISUAL SYSTEMS ENGINEERING (Syllabus 2009). (Teaching unit Compulsory) 6 Teaching languages: Catalan, Spanish Teaching staff Coordinator: Others: JOSÉ ANTONIO SORIA PÉREZ JOSÉ ANTONIO SORIA PÉREZ LUIS JORGE FERRER ARNAU Opening hours Timetable: - José Antonio Soria Pérez: Tuesday from 10 to 13:30h and from 14 to 17h. Prior skills Aferage skills of Linear Algebra and Infinitesimal Calculus Degree competences to which the subject contributes Specific: 1. AUD_BASIC:Ability to understand and have a full command of the basic concepts of linear systems and related functions and transforms, theory of electrical circuits, electronic circuits, physical principle of semiconductors and logic families, electronic and photonic devices, materials technology and how they can be applied to the problems inherent to engineering. Transversal: 2. TEAMWORK - Level 1. Working in a team and making positive contributions once the aims and group and individual responsibilities have been defined. Reaching joint decisions on the strategy to be followed. 1 / 5
Teaching methodology Directed learning hours include large group lectures in which the lecturer briefly presents the general learning objectives related to the basic concepts of the subject. The lecturer then uses practical exercises to motivate and encourage students to participate actively in their learning. Support material in the form of a detailed course plan will be used via ATENEA: learning objectives by content, concepts, examples, assessment activity programming, directed learning and bibliography. They also consist of problem-solving classes in which students work in groups of 3 or 5 on exercises or numerical problems related to the specific learning objectives of each of the course contents. These sessions aim to develop generic competencies such as teamwork. Thus, cooperative learning methods are applied in the classroom. The last type of directed learning hours consists of laboratory practicals as pairwork, aimed at developing basic instrumental skills in an electronic laboratory and at introducing students to applications of the scientific method of problem solving in the electronic laboratory. Before and after each session, students are asked to perform tasks outside class either individually or in groups. These tasks form the basis of directed activities. Other self-directed learning activities include directed reading and problem solving. Learning objectives of the subject On completing the subject, students will be able to do the following: - Apply laws for solving electronic circuits. - Understand how the main electronic circuits and devices work. - Circuit analysis with electronic devices - Use CAD tools for solving the problems related to electrical circuits. - Identify componentsand perform basic electronics assemblies - Use the basic tools and instruments of electronic laboratories. Study load Total learning time: 156h Hours large group: 30h 19.23% Hours medium group: 15h 9.62% Hours small group: 15h 9.62% Guided activities: 6h 3.85% Self study: 90h 57.69% 2 / 5
Content Topic 1: CIRCUIT ANALYSIS TECHNIQUES Learning time: 70h Theory classes: 24h Laboratory classes: 4h Self study : 42h Electrical quantities. Device and circuit. Independent sources. Linear resistance. Naked and mesh circuit. Kirchhoff's laws. ground concept. Connecting elements. Systematic methods for solving linear circuits. Equivalent circuits. Superposition principle. Dependent sources. Signal transfer. Activity 4: Mid-semester test Topic 2: ANALYSIS OF CIRCUITS WITH INDUCTORS AND CAPACITORS Learning time: 40h Theory classes: 14h Self study : 24h Definition of phasor Capacitors and inductors Serial and parallel capacitance and inductance RC, RL and RLC circuits Activity 4: Mid-semester test 3 / 5
Topic 3: DIODE Learning time: 20h Theory classes: 6h Self study : 12h I-V characteristic od diodes Circuit analysis with diodes Diode applications Specific diodes Activity 5: Final-semester test Specific objectives: Understand the operation of diodes and analyze circuits with diodes TEMA 4: THE TRANSISTOR Learning time: 20h Theory classes: 6h Guided activities: 0h Self study : 12h I-V BJT characteristic DC and operation point analysis. BJT in switching operations. BJT in amplification Activity 5: Final-semester test Specific objectives: Analysis of BJT circuits 4 / 5
Qualification system The grading of the subject (NF) is calculated as: NF = max(0,3 NP1+0,3 NP2; 0,6 EF) + 0,1 LAB1+0,15*LAB2+0,15*PRB The laboratory activities are required to pass the course. The course can be recovered by means of the final exam grade Regulations for carrying out activities - Carrying out both lab activities (LAB1 and LAB2) and exercises (PRB) are necessary for grading the course. - NP1 and NP2 correspond to 1st. and 2nd. midterms, whereas EF is considerd as reconduction (or Final) Exam. - NP1 is carried out during the 1st midterm period according to the schedule of ESEIAAT (October-November) - NP2 is carried out in the last session of the course. - EF is carried out during the 2nd. midterm period according to the schedule of ESEIAAT (January). - A document containg formulae used in the curse must be downloaded from ATENEA and printed for developing the exams (NP1, NP2 and EF). The use of mobile phones or any other device with Internet connection is strictly forbidden. - The NF formula above takes into acount two possibilities: 1) the improvement of NF when results from NP1 and NP2 are favorable, and 2) the reconduction of the grading of this subject when results from NP1 and NP2 are not favorable. Bibliography Basic: Prat, Lluís [et al.]. Circuitos y dispositivos electrónicos: fundamentos de electrónica. 6ª ed. Barcelona: Edicions UPC, 1999. ISBN 848301291X. Floyd, Thomas L. Principios de circuitos eléctricos. 8ª ed. México: Pearson, 2007. ISBN 9789702609674. Floyd, Thomas L. Dispositivos electrónicos. 8ª ed. México: Pearson, 2008. ISBN 9789702611936. Complementary: Bruce Carlson, A. Circuitos: ingeniería, conceptos y análisis de circuitos eléctricos lineales. México D.F: International Thomson, 2001. ISBN 9706860339. Edminister, J.A.. Circuitos eléctricos. 3ª ed. Madrid: McGraw-Hill, 1997. ISBN 8448110617. Malvino, Albert Paul; Bates, David J. Principios de electrónica. 7ª ed. Madrid: McGraw-Hill, 2007. ISBN 9788448156190. Others resources: 5 / 5