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Electrical Power Engineering Fundamentals, 2020
This is a basic course that introduces the fundamentals of electrical power engineering, making special emphasis on the analysis of electric circuits. The course is directed to students of first and second year of Engineering degrees.
After taking the course students will be able to analyse DC and AC circuits of different degrees of complexity. The provided tools will be applied in further courses such as Electric Machines or Electronics. The study of balanced three-phase systems is also included in the course as introduction to power systems analysis.
BELÉN GARCÍA FRANCISCO ARREDONDO
Departamento de Ingeniaría Eléctrica Universidad Carlos III de Madrid
Bachelors in Industrial Technologies Engineering, Electrical Engineering, Industrial Electronics and Automation Engineering and Mechanical Engineering,
December, 2020
Nikola Tesla with his equipment courtesy of Dickenson V. Alley via Wikimedia Commons
Theorethical and Lab hours: 56 Total hours: 6 ECTS
PRERREQUISITES AND RECOMMENDED PREVIOUS KNOWLEDGE
Students should have background in Physics, Algebra and Calculus.
GENERAL DESCRIPTION OF THE SUBJECT
This is a basic course that introduces the fundamentals of electrical power engineering, making special emphasis on the analysis of electric circuits. The course is directed to students of first and second year of Engineering degrees.
After taking the course students will be able to analyse DC and AC circuits of different degrees of complexity. The provided tools will be applied in further courses such as Electric Machines or Electronics. The study of balanced three-phase systems is also included in the course as introduction to power systems analysis.
OBJECTIVES: KNOWLEDGE AND SKILLS
After taking the course students will be able to analyse DC and AC circuits of different degree of complexity. The provided tools will be applied in further courses such as Electric Machines or Electronics. The study of balanced three-phase systems is also included in the course as introduction to Power Systems analysis.
TEACHING MATERIAL
The provided material includes the theory notes for the four modules and the slides that contains a summary of the contents of each module
PRACTICAL ASSIGMENTS AND ASSESSMENT ACTIVITIES
The course includes a collection of exercises that may be use to practice the contents of the course. The exercises are distributed in 11 worksheets that correspond to the contents that are taught each week of the term. The numeric answers to the problems are included for self assessment.
Additionally some examples of exams that have been proposed in previous years are provided.
Course Contents
Course guide
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Exercises
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Evaluation tests
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Instructors
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Syllabus
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Bibliography
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Lecture notes
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Course introduction
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imagenPortadaOCW.png
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apuntes de teoria
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module1.pdf
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module2.pdf
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copy_of_module2.pdf
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copy2_of_module2.pdf
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FIE__notes_module_2_25sep.pdf
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copy_of_FIE__notes_module_2_25sep.pdf
, 2020
Module 1
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Ordinary call 2020
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Nikola_Tesla_with_his_equipment_EDIT.jpg
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FIE_Module_1_notes.pdf
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Module1_notes.pdf
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Module2_notes.pdf
, 2020
Module3_notes.pdf
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Module4_notes.pdf
, 2020
Exam1_solution.pdf
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Exam2_solution.pdf
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Exam3_solution.pdf
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copy_of_ordinarycall_jan20_solution.pdf
, 2020
primer parcial_soluciones.pdf
, 2020
copy2_of_ordinarycall_jan20_solution.pdf
, 2020
tercer parcial2019_sol.pdf
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2nd_partial_test_solution.pdf
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tercer parcial_sol.pdf
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3rdpartialsolution.pdf
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tercer parcial.pdf
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copy_of_tercerparcial.pdf
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copy2_of_tercerparcial.pdf
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1st partial exam_solution.pdf
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2nd partial exam.pdf
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Module3_notes.pdf
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Module4_notes.pdf
, 2020
Module1_slides.pdf
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Module2_slides.pdf
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Module3_slides.pdf
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Module4_slides.pdf
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copy2_of_DC_Week_1_KVL_KCL_OL.pdf
, 2020
Worksheet Week1
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Worksheet Week2
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Worksheet Week3
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Worksheet Week4
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Worksheet Week5
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Worksheet Week6
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Worksheet Week7
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Worksheet Week7
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Worksheet Week9
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Worksheet Week10
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Worksheet Week11
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Worksheet Week8
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Profesores
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Ejercicios
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Examenes
, 2020
Download this Course
, 2020
Copyright 2015,
UC3M.
Esta obra se publica bajo una licencia
Creative Commons License
Reconocer autoría/Citar obra.
García, B. (24/03/2020). Electrical Power Engineering Fundamentals. Obtenido el 09/03/2021, desde el sitio Web de : http://ocw.uc3m.es/ingenieria-electrica/electrical-power-engineering-fundamentals.
archivado en:
Power factor,
Reactive power,
Thevenin equivalent,
Grado en Ingeniería Eléctrica,
Three-phase system,
Active power,
Node voltage method,
Reactive power compensation,
Frequency domain,
Phasor,
One-phase equivalent,
2020,
Phasor diagram,
Mesh current method,
Electrical circuit,
Two wattmeters method,
Power factor correction,
Circuit analysis,
Ingenieria Electrica
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