340470 - DSCE-T7P10 - Design and Simulation of Electronic Circuits
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Last update: 08-04-2015 340470 - DSCE-T7P10 - Design and Simulation of Electronic Circuits Coordinating unit: 340 - EPSEVG - Vilanova i la Geltrú School of Engineering Teaching unit: 710 - EEL - Department of Electronic Engineering Academic year: 2015 Degree: BACHELOR'S DEGREE IN ELECTRONIC SYSTEMS ENGINEERING (Syllabus 2010). (Teaching unit Optional) ECTS credits: 6 Teaching languages: Catalan, Spanish Teaching staff Coordinator: JOSE ANTONIO SORIA PEREZ Others: JOSE ANTONIO SORIA PEREZ Opening hours Timetable: Pending Prior skills The folowing attitudes and technical skills are recommended in this subject, though not strictly necessary: - Advanced level of circuit analysis with passive components and basic semiconductors (both time and frequency domain). Advanced knoledge and usage of lab instrumentation: power supply, function generator, multimeter and osciloscope. Advanced prototyping skills in Breadboard. Medium level of software-based electronic circuit design (recomended: OrCad and Matlab) Requirements Having passed the following list of subjects from previous semesters is required for proper follow-up of the course. - The Fundamentals of Electronics (FOEL) Circuit Analysis (ANCI) Electronic Components and Circuits (COCE) Analog Electronics (ELAN) Control Systems (SIEC) Teaching methodology The methodology used combines in-class lectures, web-based learning by means of video-tutorials, exercices and activities of electronic prototyping and measuring, supported by software simulation. Learning objectives of the subject This subject continues on with the content seen at the end of the 4rth. semester in Analog Electronics (ELAN) and comprises two main goals: 1) To continue in the study of more advanced and sophisticated analog electronic circuits, in terms of precission and speed response, in the field of analog signal processing. 1/3 Universitat Politècnica de Catalunya Last update: 08-04-2015 340470 - DSCE-T7P10 - Design and Simulation of Electronic Circuits 2) Getting used to the common processes involved in the construction of PCBs and put them into practice. Study load Total learning time: 150h Hours large group: 15h 10.00% Hours medium group: 0h 0.00% Hours small group: 30h 20.00% Guided activities: 0h 0.00% Self study: 105h 70.00% Content (ENG) Block 1 - Introduction: Extension of Linear Amplifier Circuits Degree competences to which the content contributes: (ENG) Block 2 - Precission Analog Circuits Degree competences to which the content contributes: (ENG) Block 3 - Mixed Analog and Digital Electronics Degree competences to which the content contributes: (ENG) Block 4 - Printed Circuit Board Design (PCBs) Degree competences to which the content contributes: 2/3 Universitat Politècnica de Catalunya Last update: 08-04-2015 340470 - DSCE-T7P10 - Design and Simulation of Electronic Circuits Qualification system Theory and laboratory activities have both the same weight in the final mark of the course(50%). The theory mark is obtained through one mid-term exam (P1) and a final 2nd. mid-term exam (P2). Lab skills, on the other hand, are evaluated through a two-stage project (PJ). This work requires the implementation of a true electronic system on a PCB. The necessary skills to manufacture PCBs, both software and technical implementation, are evaluated in the first part of the course (LNG), whereas the project itself is evaluated during the 2nd. halve of the corse (PRJ). The global mark (GM) is obtained as follows: GM = 0.25xP1 + 0.25xP2 + 0.5xPJ = 0.25xP1 +0.25xP2 + 0.2xLNG + 0.3xPRJ Regulations for carrying out activities - Mid-terms: A handwritten sheet form is allowed during the exam. Participants are also allowed to use a calculator during the exam and answer the exam using a pencil or a blue/black ball pen (red colour is reserved for professor annoitations). Using any king of computer device with Internet connection (laptop, tablet, mobile phone and so on) is strictly forbidden and causes a negative evaluation. - Laboratory: Participants are encouraged to print lab activities from Atenea and bring them to the lab. The use of the PC is restricted to only the common tasks related to circuit design and simulation: Pre-installed software, acquisition of mesures from the instruments and annotation of results. Accessing the Internet for other issues out of the lab activities is strictly forbidden (i.e. Social Networks, e-mail, or any form of personal messaging, among others) as well as using using mobile phones during the lab session. No respecting these rules may have negative consequences in the valuation of both LNG and PRJ fields). The lab project PRJ can be carried out individually or in groups (2 people maximum). Each group must develop a real elctronic system in PCB, get it to work and demonstrate its proper operation. The evaluation of the project is carried out by means of a speech presentation in tthe last lab session of the course which includes the demostration of circuit operation Bibliography 3/3 Universitat Politècnica de Catalunya
