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Syllabus 2017-18 - 13012006 - Electrotechnics (Electrotecnia)
- 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 de organización industrial (13012006) |
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 de organización industrial (13812009) |
FACULTY: | SCHOOL OF ENGINEERING OF JAÉN |
DEGREE: | Grado en Ingeniería electrónica industrial (13112010) |
FACULTY: | SCHOOL OF ENGINEERING OF JAÉN |
DEGREE: | Grado en Ingeniería mecánica (13412008) |
FACULTY: | SCHOOL OF ENGINEERING OF JAÉN |
ACADEMIC YEAR: | 2017-18 |
COURSE: | Electrotechnics |
NAME: Electrotechnics | |||||
CODE: 13012006 (*) | ACADEMIC YEAR: 2017-18 | ||||
LANGUAGE: English | LEVEL: 3 | ||||
ECTS CREDITS: 6.0 | YEAR: 2 | SEMESTER: PC |
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 | |
NAME: SÁNCHEZ MARTOS, CARLOS | ||
DEPARTMENT: U120 - INGENIERÍA ELÉCTRICA | ||
FIELD OF STUDY: 535 - INGENIERÍA ELÉCTRICA | ||
OFFICE NO.: A3 - 228 | E-MAIL: csanchez@ujaen.es | P: 953212859 |
WEBSITE: - | ||
ORCID: https://orcid.org/0000-0002-1772-3972 | ||
LANGUAGE: - | LEVEL: 3 | |
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 |
CHAPTER 1: BASIC CONCEPTS
1.1 Electric dipole
1.2 Current through an electric dipole
1.3 Voltage across an electric dipole
1.4 Power in electric circuits. Power sign convention
1.5 Open and short circuits
CHAPTER 2: CIRCUIT ELEMENTS
2.1 Definition of electric circuit
2.2 Active elements
2.3 Passive elements
CHAPTER 3: METHODS OF ANALYSIS
3.1 Network topology: branch, node and loop
3.2 Kirchhoff's current law (KCL)
3.3 Kirchhoff's voltage law (KVL)
3.4 Association of passive elements
3.5 Association of active elements
3.6 Conversion of voltage into current source and vice versa
3.7 General method
3.8 Analysis of electric circuits by using mesh currentmethod
3.9 Analysis of electric circuits by using node
voltagemethod
CHAPTER 4: SINUSOIDAL SIGNALS
4.1 Introduction
4.2 Fundamental magnitudes
4.3 Phasor notation
CHAPTER 5: SINUSOIDAL STEADY-STATE ANALYSIS
5.1 Resistance
5.2 Inductance
5.3 Capacitance
5.4 Complex impedance
5.5 Voltage dividers
5.6 Current dividers
5.7 Series RLC circuit
5.8 AC circuit analysis
CHAPTER 6: AC POWER ANALYSIS
6.1 Instantaneous and average power
6.2 Average power, reactive power and apparent power
6.3 AC power for circuit elements: resistors
6.4 AC power for circuit elements: inductors
6.5 AC power for circuit elements: capacitors
6.6 AC power for circuit elements: impedances
6.7 Boucherot's theorem
6.8 Power factor correction
CHAPTER 7: THREE-PHASE CIRCUITS
7.1 Definitions
7.2 Balanced three-phase circuits
7.3 Phase and line-to-line magnitudes
7.4 Three-phase instantaneous power
7.5 Three-phase average power
7.6 Power factor correction in three-phase circuits
CHAPTER 8: INTRODUCTION TO MACHINERY PRICIPLES
8.1 Introduction
8.2 Definitions
8.3 Classification of electric machines
8.4. Principles of construction: stator, rotor, windings.
8.5. Energy balance and efficiency. Ohmic losses, core
lossesand mechanical losses
8.6. Rated values and rating plate
CHAPTER 9: TRANSFORMERS
9.1. Introduction
9.2. Types and construction
9.3. Ideal transformer
9.4. Referring of transformer's sides
9.5. The equivalent circuit of a real transformer
9.6. The open-circuit and the short-circuit test
9.7. Voltage regulation and efficiency
9.8. Three-phase transformers
CHAPTER 10: INDUCTION MACHINES
10.1. Introduction
10.2. Induction motor construction
10.3. The equivalent circuit of an induction motor
10.4. The short-circuit test
10.5. The open-circuit test
10.6. Characteristics curves
10.7. Energy balance
10.8. Starting three-phase induction motor
10.9. The single-phase induction motor
LABORATORY CLASSES
Session one: Handling basic instrumentation
Session two: Kirchhoff Laws
Session three: AC circuits. Analysis of series and
parallelcircuits
Session four: Three-phase systems. Power measurement
Session five: Transformers. Open-circuit and
short-circuittest
Session six: Induction machine. Starting methods
The main support resource will be the use of the virtual platform named as ILIAS. The student will find all the necessary information to overcome successfully the course, recommended readings, problems and another material of interest. In the virtual course, different forums will be created in order to clarify different doubts on the subject.
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
For the assessment of the theoretical knowledge of the subject a theoretical written examination in the official call will be made.The mark for the theoretical part will involve 60% of the final grade. Through a written exam the CC4 competency will be evaluated. Passing this theoretical part will prove that 41, 42, 44 and 46 outcomes have been reached.
For the assessment of practical laboratory skills students must carry and present a comprehensive lab notebook where answers to the questions that arise and where should present the results obtained in the practice sessions conducted, which will be evaluated by the teacher and will correspond to 15% of the final grade. With the completion of the practice sessions, the CC4 and CT4 competencies will be evaluated. Passing this practical part will prove that 29 and 37 outcomes have been reached.
The realization of individual work (academically supervised activities) and the completion of group work will be evaluated by the teacher and will account for 15% of the final grade. With the completion of the work the CC4, CT4 and CT1 competencies will be evaluated. Passing this activities will prove that 37 outcome has been reached.
Attendance and active participation in class will be evaluated by the teacher and will account for 10% of the final grade. The final grade is a weighted mark according to the weights set forthabove, but to achieve the final approved at least it is necessary to reach a mark of 4 out of 10 in the theoretical written exam.
- Applied circuit analysis. Edition: -. Author: Sadiku, Matthew N. O. Publisher: New York : McGraw-Hill, c2013 (Library)
- Electric machinery fundamentals. Edition: 4th. ed. Author: Chapman, Stephen J.. Publisher: Boston [etc.]: McGraw-Hill, cop. 2005 (Library)
- Schaum's outline of theory and problems of electric circuits. Edition: 3rd. ed. Author: Edminister, Joseph A. Publisher: New York, [etc.] : McGraw-Hill, cop. 1997 (Library)
- Digital circuit analysis and design with simulink modeling and interoduction to CPLDs and FPGAs. Edition: 2nd ed.. Author: Karris, Steven T.. Publisher: Fremont, CA : Orchard Publications, c2007 (Library)
- Circuit analysis II: with MATLAB computing and Simulink SimPowerSystems modeling. Edition: -. Author: Karris, Steven T.. Publisher: Fremont (California : Orchard Publications, 2009. (Library)