The learning materials include the lecture notes, the classroom documentation, and the basic bibliography that is used as a reference for completing the themes and study them in depth. 25% Lectures (1.5 ECTS) where the main concepts are presented on the basis of mathematical tools and circuit analysis tools. Overall, during the 29 face-to-face sessions of the course, the training activities are organized as following: In the remaining 19 sessions, a methodology based on lectures, practical classes for solving exercises and laboratory sessions will be developed. During the face-to-face classes of the week, practical activities will be carried out to reinforce the contents of the SPOC modules, including exercise classes, computer simulations and practical assemblies in the laboratory. Each week the students should watch the videos and complete the self-assessment activities of 1 or 2 modules of the SPOC "Basic concepts for electronic circuits and components". Knowledge of different instruments and measurement techniques and an ability to manage them in the laboratory, the use of commercial simulation tools and their application to characterize electronic circuits complimentarily.ĭuring the first weeks of the course (10 sessions), a flipped classroom methodology will be used. An ability to solve real problems through orientated exercises that are related to each thematic block and global case studies that involve the total contents of the course. In addition, an ability to interpret the results comparing them with manufacturer data sheets. An ability to characterize the electronic parameters associated to passive components and to amplifier circuits. An ability to apply the knowledge of circuits analysis, the analysis of electronic circuits with passive components, active devices and amplifiers, in transient regime and stationary regime, by using partial derivative equations and the response in the frequency domain. The specific skills that are developed in this course are the following: An ability to analyze the main parameters of single and multi-transistor amplifiers in small-signal domain. A knowledge of the electronic instruments, the measuring methods and techniques. A knowledge of how passive and active electronic devices work and their main applications. In order to achieve this objective, it is the aim of this course that the student will obtain the following knowledge and abilities: The objective of this course is to achieve the basic training of the student on the electronic instruments used in lab, the electronic devices and the electronic circuits, and the application of this knowledge to solve some engineering problems related to electronic components and circuits.
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