Algebra, Calculus I, Calculus II, Physics and Advanced Mathematics courses in the Electronical Engineering study program provide the basic background for the Tecnología Eléctrica course.

Tecnología Eléctrica course provides the basic competencies considered in the common block of any engineering degree (according to Orden CIN/351/2009): knowledge and usage of the basic principles of circuit theory and electric machines.

Tecnología Eléctrica course is related to the following courses of the Electronic Engineering degree: Physics, Algebra, Calculus I, Electronic Fundamentals, Electrical Network Analysis, Electric Power Systems and Photovoltaic Systems.

Tecnología Eléctrica course reviews concepts of circuit theory that are the basic requirements for any Electric Engineering study and it provides systematic tools to study any electrical installation. Using circuit theory it is possible to make a precise, prompt and efficient analysis of many different electrical problems without the need of recalling the laws of Electromagnetism. Furthermore, this course introduces the electric machines, which are the key components of any power system. In particular, induction machines are the most usual components in any industrial application. Therefore, Tecnología Eléctrica course is essential for the Electronic Engineering profession.

 

Course competences
Code	Description
A02	To know how to apply knowledge to work or vocation in a professional manner and possess the competences that are usually demonstrated by the formulation and defence of arguments and the resolution of problems in the field of study.
A04	To be able to transmit information, ideas, problems and solutions to a specialized audience.
A05	To have developed the learning skills necessary to undertake subsequent studies with a greater degree of autonomy.
A12	Knowledge of basic materials and technologies that assist the learning of new methods and theories and enable versatility to adapt to new situations.
A15	Ability to work to specifications and comply with obligatory rules and regulations.
C04	Knowledge and use of the principles of the theory of circuits and electrical machines.
CB03	Be able to gather and process relevant information (usually within their subject area) to give opinions, including reflections on relevant social, scientific or ethical issues.

Course learning outcomes
Description
Application in electrical installations
Knowledge and characterisation of the components of electrical circuits
Know and know how to analyze magnetically coupled circuits
Know and know how to use the procedures employed for the analysis of circuits in sinusoidal regime
Knowledge of te general principles of electrical machinery
Additional outcomes
Not established.

• Unit 1: Introduction. Fundamentals.
• Unit 2: Components of electric circuits.
• Unit 3: Steady state circuit analysis. Analysis methods and theorems.
• Unit 4: AC steady state circuits. Power and energy.
• Unit 5: Three-phase circuits. Power and energy.
• Unit 6: Magnetically coupled circuits.
• Unit 7: Fundamentals of electric machines.
• Unit 8: Application to electrical installations.

Training Activity	Methodology	Related Competences (only degrees before RD 822/2021)	ECTS	Hours	As	Com	Description
Problem solving and/or case studies [ON-SITE]	Problem solving and exercises	A04 A05 A12 C04	0.4	10	N	N	Solving drill exercises and problems in the blackboard.
Class Attendance (theory) [ON-SITE]	Combination of methods	A04 A05 A12 C04	1.2	30	N	N	Combination of methods: expository method, master lesson, problem resolution and group tutoring.
Laboratory practice or sessions [ON-SITE]	Practical or hands-on activities	A05 C04 CB03	0.6	15	Y	N	After each lab session, the student must fill out a form in Campus Virtual indicating the measurements made in the laboratory, as well as the required calculations.
Formative Assessment [ON-SITE]	Assessment tests	A02 A04 A05 A15 C04 CB03	0.2	5	Y	Y	In the continuous evaluation mode, two partial exams will take place once the explanations are finished. Additionally, after the explanation of each topic, a set of drill exercises will be proposed to be solved, being automatically evaluated. In the non-continuous evaluation mode, a final exam will take place covering all the course' contents. Additionally, an online quizz will be proposed with exercises to be solved the day before the ordinary call.
Study and Exam Preparation [OFF-SITE]	Self-study	A02 A05 A15 C04 CB03	3.6	90	N	N	Group study and/or self-study.
Total:			6	150
Total credits of in-class work: 2.4			Total class time hours: 60
Total credits of out of class work: 3.6			Total hours of out of class work: 90

As: Assessable training activity
Com: Training activity of compulsory overcoming (It will be essential to overcome both continuous and non-continuous assessment).

Evaluation System	Continuous assessment	Non-continuous evaluation *	Description
Laboratory sessions	15.00%	15.00%	Continuous: The students should submit a lab report including all the magnitudes measured in the lab as well as the corresponding computations. The evaluation of the report will consider the mistmaches between the measurements and the calculated magnitudes as well as the exactness of the calculus. The report will be made on an individual basis and will consist of completing a questionnaire in Campus Virtual before deadlines. The reports' assessment will be posted within 1 month after its submission (the automatic rating posted by Campus Virtual is invalid). Non-continuous: There will be an exam corresponding to lab sessions. In the lab, the student should make different circuit connections and take the corresponding measurements.
Mid-term tests	70.00%	0.00%	Continuous: Two midterm exams will take place throughout the course. The first exam corresponds to units 1 to 3 with a weight of 21% and the second one corresponds to the rest of the contents with a weight of 49%. Approximately, in the middle of the course the first exam will take place. If the score obtained is less than 4 out of 10, this exam can be retaken later in the ordinary call, which it will also include the exam corresponding to the rest of the contents. To pass the course it is necessary to obtain a minimum score of 4 out of 10 in each of these exams. Non-continuous: non-applicable.
Final test	0.00%	70.00%	Continuous: Non-applicable. Non-continuous: The final exam may include problems and questions about theoretical or lab concepts. The assessment will not only consider the correctness of the explanations but also the results' consistency.
Assessment of problem solving and/or case studies	15.00%	15.00%	Continuous: The students should upload the solution of selected problems to an online application before deadlines. Non-continuous: The students should answer a online quizz posted in Campus Virtual before the final test.
Total:	100.00%	100.00%

Not related to the syllabus/contents
Hours	hours
Problem solving and/or case studies [PRESENCIAL][Problem solving and exercises]	90
Class Attendance (theory) [PRESENCIAL][Combination of methods]	10
Laboratory practice or sessions [PRESENCIAL][Practical or hands-on activities]	15
Formative Assessment [PRESENCIAL][Assessment tests]	30
Study and Exam Preparation [AUTÓNOMA][Self-study]	5

Global activity
Activities	hours

Author(s)	Title	Book/Journal	Citv	Publishing house	ISBN	Year	Description	Link	Catálogo biblioteca
A. J. Conejo, A. Clamagirand, J.L. Polo, N. Alguacil	Circuitos eléctricos para la ingeniería /			McGraw-Hill Interamericana	84-481-4179-2	2004
Carlson, A. Bruce	Teoría de circuitos: ingeniería, conceptos y análisis de cir			Thomson	978-84-9732-066-5	2004
Fraile Mora, Jesús (1946-)	Circuitos eléctricos /			Ibergarceta	978-84-16228-47-8	2019
Fraile Mora, Jesús (1946-)	Máquinas eléctricas /			Garceta	978-84-1622-866-9	2016