Educational guide | ||||||||||||||||||||||||||||||||||||||||
IDENTIFYING DATA | 2024_25 | |||||||||||||||||||||||||||||||||||||||
Subject | ELECTRONICS | Code | 00709004 | |||||||||||||||||||||||||||||||||||||
Study programme |
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Descriptors | Credit. | Type | Year | Period | ||||||||||||||||||||||||||||||||||||
6 | Basic Training | First | First |
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Language |
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Prerequisites | ||||||||||||||||||||||||||||||||||||||||
Department | ING.ELECTR.DE SIST. Y AUTOMATI |
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Coordinador |
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ralar@unileon.es fjaÑm@unileon.es amora@unileon.es |
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Lecturers |
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Web | http://http://agora.unileon.es | |||||||||||||||||||||||||||||||||||||||
General description | This course presents a brief introduction to analog electronics and covers the fundamental of digital electronics including the study of combinational and sequential circuits. | |||||||||||||||||||||||||||||||||||||||
Tribunales de Revisión |
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Competencias |
Code | |
A18106 | |
B5618 | |
B5619 | |
B5626 | |
B5631 | |
C1 | CMECES1 That students have demonstrated possession and understanding of knowledge in an area of study that is based on general secondary education, and is usually found at a level that, although supported by advanced textbooks, also includes some aspects that involve knowledge from the cutting edge of their field of study |
Learning aims |
Competences | |||
Know the basic concepts of electronic circuits. Know the physical principles of semiconductors and logic families, electronic and photonic devices, and their application to the resolution of engineering problems. Know how to work independently. Knowing how to analyse and solve problems. Organisation and planning. | A18106 |
B5618 B5619 B5626 B5631 |
C1 |
Contents |
Topic | Sub-topic |
Block I: ELECTRONIC DEVICES | 1-FUNDAMENTALS OF ELECTRONICS. Voltage source, Current, Potential, Potential Difference, ground, Kirchoff's Laws. 2- SEMICONDUCTORS, ELECTRONIC DEVICES. Intrinsic and extrinsic semiconductors. PN junction. Basic components: diode (LED, photodiode), transistor. |
Block II: DIGITAL COMBINATIONAL SYSTEMS | 1- LOGIC FUNCTIONS, LOGIC GATES AND TECHNOLOGY. Representation of logic functions. Logic gates. Circuit design. Logic families. 2- REPRESENTATION OF INFORMATION IN DIGITAL SYSTEMS. Numbering systems. Unsigned and signed numbers. Arithmetic operations. 3- ANALYSIS AND DESIGN OF COMBINATIONAL SYSTEMS. MSI combinational blocks: Encoders. Decoders. Multiplexers. Demultiplexers. Comparators. Parity generator / Detector. |
Block III: SEQUENTIAL DIGITAL SYSTEMS | 1- ANALYSIS AND DESIGN OF SEQUENTIAL SYSTEMS. Asynchronous/synchronous flip-flops. Registers. Counters. |
Planning |
Methodologies :: Tests | |||||||||
Class hours | Hours outside the classroom | Total hours | |||||||
Problem solving, classroom exercises | 8 | 12 | 20 | ||||||
Laboratory practicals | 22 | 33 | 55 | ||||||
Lecture | 26 | 39 | 65 | ||||||
Mixed tests | 4 | 6 | 10 | ||||||
(*)The information in the planning table is for guidance only and does not take into account the heterogeneity of the students. |
Methodologies |
Description | |
Problem solving, classroom exercises | Formulation, analysis, resolution and debate of a problem or exercise related to the subject of the course. |
Laboratory practicals | Apply, at a practical level, the theory of a field of knowledge in a given context. Practical exercises through the different laboratories. |
Lecture | Presentation of the contents of the course. |
Personalized attention |
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Assessment |
Description | Qualification | ||
Problem solving, classroom exercises | During some class sessions, students will be asked to solve an individual exercise. It will consist of a short written test for the resolution of practical cases in engineering problems. |
5% | |
Laboratory practicals | Attendance and development of the practical sessions will be assessed | 30% | |
Lecture | There will be a partial exam (25% of the overall mark) and a final exam (40% of the overall mark). Written exams : short answer, tests, multiple choice, problem solving. |
65% | |
Other comments and second call | |||
Sources of information |
Access to Recommended Bibliography in the Catalog ULE |
Basic | |
FLOYDT. Fundamentos de Sistemas Digitales 11a ed; Prentice Hall, Madrid, 2016. GARCÍAZUBÍA, J., ANGULO MARTÍNEZ, I., ANGULO USATEGUI, J. Sistemas digitales y tecnología de computadores, segundaedición, Thomson Paraninfo, 2007. ANGULO,J.M.: Enciclopedia de Electrónica. Paraninfo,1996 |
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Complementary | |
ACHA, S.E. y Otros. Electrónica digital. Teoría, problemas y simulación, RA-MA, 2012. KATZ, R.J.: Contemporary Logic Design; The Benjamin / Cummings Publishing Company, Inc., USA, 1994. SAVANT, C.J.: y otros: Diseño Electrónico. Circuitos y Sistemas; Addison-Wesley Iberoamericana, Wilmington, 1992. TOCCI, R J.: Sistemas digitales. Principios y aplicaciones. Prentice Hall, 1996
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Recommendations |