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Syllabus 2018-19 - 13112010 - Electrotechnics (Electrotecnia)

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  • Level 1: Tutorial support sessions, materials and exams in this language
  • Level 2: Tutorial support sessions, materials, exams and seminars in this language
  • Level 3: Tutorial support sessions, materials, exams, seminars and regular lectures in this language
DEGREE: Grado en Ingeniería electrónica industrial (13112010)
FACULTY: SCHOOL OF ENGINEERING OF JAÉN
DEGREE: Doble grado en Ingeniería eléctrica e Ingeniería electrónica industrial (13712014)
FACULTY: SCHOOL OF ENGINEERING OF JAÉN
DEGREE: Grado en Ingeniería eléctrica (13512009)
FACULTY: SCHOOL OF ENGINEERING OF JAÉN
DEGREE: Doble grado en Ingeniería eléctrica e Ingeniería mecánica (13612011)
FACULTY: SCHOOL OF ENGINEERING OF JAÉN
DEGREE: Doble Grado en Ingeniería mecánica e Ingeniería electrónica industrial (13912013)
FACULTY: SCHOOL OF ENGINEERING OF JAÉN
DEGREE: Grado en Ingeniería de organización industrial (13012006)
FACULTY: SCHOOL OF ENGINEERING OF JAÉN
DEGREE: Grado en Ingeniería mecánica (13412008)
FACULTY: SCHOOL OF ENGINEERING OF JAÉN
DEGREE: Doble grado en Ingeniería mecánica e Ingeniería de organización industrial (13812009)
FACULTY: SCHOOL OF ENGINEERING OF JAÉN
ACADEMIC YEAR: 2018-19
COURSE: Electrotechnics
SYLLABUS
1. COURSE BASIC INFORMATION
NAME: Electrotechnics
CODE: 13112010 (*) ACADEMIC YEAR: 2018-19
LANGUAGE: English LEVEL: 3
ECTS CREDITS: 6.0 YEAR: 2 SEMESTER: PC
2. LECTURER BASIC INFORMATION
NAME: SÁNCHEZ SUTIL, FRANCISCO JOSÉ
DEPARTMENT: U120 - INGENIERÍA ELÉCTRICA
FIELD OF STUDY: 535 - INGENIERÍA ELÉCTRICA
OFFICE NO.: A3 - 230 E-MAIL: fssutil@ujaen.es P: 953212466
WEBSITE: -
ORCID: https://orcid.org/0000-0001-9508-1728
LANGUAGE: - LEVEL: 3
NAME: LÓPEZ VALDIVIA, ANDRÉS
DEPARTMENT: U120 - INGENIERÍA ELÉCTRICA
FIELD OF STUDY: 535 - INGENIERÍA ELÉCTRICA
OFFICE NO.: A3 - 233 E-MAIL: alopezv@ujaen.es P: 953212461
WEBSITE: http://www10.ujaen.es/conocenos/departamentos/ingele/contactos?page=1
ORCID: https://orcid.org/0000-0003-4967-691X
LANGUAGE: - LEVEL: 3
3. CONTENT DESCRIPTION

Topic 1. FUNDAMENTALS
1.1 Electric dipole. Current of a dipole.
1.2 Potential difference between the terminals of a dipole.
1.3 Power of a dipole.
1.4 Short circuit and open circuit.
1.5 Definition of electrical circuit.
1.6 Active elements. Passive elements
1.7 Waveforms.


Topic 2. CIRCUIT ANALYSIS TECHNIQUES
2.1 Definition of knot and mesh.
2.2 Law of knots or 1st Law of Kirchhoff.
2.3 Law of meshes or 2nd Law of Kirchhoff.
2.4 Association of passive elements. Association of active
elements.
2.5 Analysis of electrical circuits using the mesh method
3.6 Analysis of electrical circuits using the knot method.


Topic 3. CIRCUITS IN SENOIDAL STATIONARY REGIME
3.1 Introduction. Fundamental magnitudes Complex notation
3.2 Resistance Coil. Condenser.
3.3 Complex Impedance.
3.4 Series RLC circuit.
3.5 Analysis of circuits in alternating current.
3.6 Power in alternating current.
3.6.1 Instantaneous power and active power.
3.6.2 Active, reactive and apparent powers.
3.6.3 Balance of powers.
3.6.4 The power factor.


Topic 4. THREE-PHASE SYSTEMS
4.1 Definition.
4.2 Phase and line values
4.3 Instant power. Three-phase power
4.4 Correction of the power factor


Topic 5: LOW VOLTAGE ELECTRICAL INSTALLATIONS
5.1 Introduction. Elements of an electrical installation.
5.2 Structure of the Electrotechnical Regulation for Low Voltage.
5.3 Electrical calculation of lines. Design principles.
5.4 Grounding.
5.5 Connection diagrams in low tension.
5.6 Protections.
5.7 Lighting installations.
5.8 Electric billing.


Topic 6. GENERAL PRINCIPLES OF ELECTRICAL MACHINES
6.1 Definitions. General classification of electrical machines.
6.2 Basic construction elements.
6.3 Energy balance and performance.
6.4 Nominal values ​​and nameplate.
6.5 Transformers.
6.5.1 Introduction. Constitution and fundamental magnitudes.
6.5.2 Vacuum and short circuit tests.
6.5.3 Load operation: Internal voltage drop. Performance and regulation.
6.5.4 Three-phase transformers. Connection groups.
6.5.5 Special transformers: autotransformers and transformers for measurement and protection.
6.6 Asynchronous machines
6.6.1 Introduction. Physical constitution
6.6.2 Start of the three-phase induction motor
6.6.3 Speed ​​regulation
6.6.4 The single-phase induction motor.


Topic 7. THE ELECTRICAL SYSTEM

7.1 Electric generation. New tendencies.
7.2 Electric charges. The electric vehicle
7.2 Electrical networks. Smart grids



PRACTICES.

1. DC circuits. Kirchhoff's laws.
2. Alternating current circuits. Analysis of series and parallel circuits RLC.
3. Three-phase systems.
4. Asynchronous machine. Startup methods.
5. Control of electrical installations using Arduino.

4. COURSE DESCRIPTION AND TEACHING METHODOLOGY

The fundamental support resource will be the use of the Ilías Virtual Teaching platform, which is necessary for the student to get used to it. The student will find all the necessary information to successfully pass the course, recommended readings, problems and other material of interest. In the Virtual Course, different forums will be created, one of attention to questions about the subject, another one of interrelation of the students among themselves, another one of general topics, and another one of attention tutorial.

Students with special educational needs should contact the Student Attention Service (Servicio de Atención y Ayudas al Estudiante) in order to receive the appropriate academic support

5. ASSESSMENT METHODOLOGY


For the evaluation of the theoretical knowledge of the subject a theoretical written examination will be carried out in the official call. The mark of the theoretical part will represent 60% of the final grade. The CC4 competency will be assessed through the written exam test. The passing of the theoretical exam will prove that the result 29 has been reached. For the evaluation of the laboratory practical knowledge the students will have to make and present a global notebook of practices in which they respond to the questions that are presented to them and where they will have to present the results obtained in the practices sessions, which will be evaluated by the teacher and correspond to 15% of the final grade. The CC4 and CT4 competences will be evaluated during the practice sessions. The overcoming of the practices will certify that the results 29 and 37 have been reached. The realization of individual works (academically directed activities) and group work will be evaluated by the teacher and will suppose 15% of the final grade. With the accomplishment of the works the competences CC4, CT1 and CT4 will be evaluated. When these works and activities are completed, result 37 will be achieved. Attendance and active participation in class will be evaluated by the teacher and will represent 10% of the final grade. The final grade is a weighted grade according to the weights established above, but, to achieve the final passing, at least a 4 out of 10 must be obtained in the theoretical knowledge test of the subject.

6. BOOKLIST
MAIN BOOKLIST:
  • Circuit analysis I: with matlab computing and simulink. Edition: -. Author: Karris, steven T.. Publisher: Fremont (California) : Orchard Publications, 2009  (Library)
  • Circuit analysis II: with MATLAB computing and Simulink SimPowerSystems modeling. Edition: -. Author: Karris, Steven T.. Publisher: Fremont (California : Orchard Publications, 2009.  (Library)