General information / Title and code of subject, number of credits / Electrical Power Supply - 6 credits
Department / Electronics and Telecommunications
Program / Bachelor
Academic semester / 2017 fall
Lecturer / Associate Professor, Doctor of philosophy (PhD) in physical Sciences
Sevda N. Garibova
E-mail: / ,
Phone number:
Lecture room/Schedule / 11 Mehseti Street, AZ1096 Baku, Azerbaijan(Neftchilar campus), room
Lectures:
Consultations
Course language / English
Type of the subject / Major
Textbooks and additional materials / Textbooks:
1.Keith Billings, Taylor Morey. Switchmode power supply, London 2011.
2.Saurabh Kasat .Analysis, design and modeling of DC-Dc converter using simulink. India 2004.
3.V.Ramanarayanan. Course on material on Switched mode power conversion. Indian Institute of science.2008. E-book pdf
Teaching methods / Lecture / 15
Group discussions at seminars / 15
Assessment / Components / Date/ Deadline / Percent (%)
Tests / During the semester
Active participation and discussion / At each lesson / 10
Assignment and quizzes / During the semester / 20
Attendance
Midterm exam / 30
Final exam / 40
Final / 100
Course description / This course is an introductory subject in the field of electric power systems and electrical to mechanical energy conversion. Electric power has become increasingly important as a way of transmitting and transforming energy in industrial, military and transportation uses. Examples of new uses for electric power include all manners of electric transportation systems (electric trains that run under catenary, diesel-electric railroad locomotion, 'maglev' medium and high speed tracked vehicles, electric transmission systems for ships and diesel-electric locomotives, replacement of hydraulics in high performance actuators, aircraft launch and recovery systems, battery powered factory material transport systems, electric and hybrid electric cars and buses, even the 'more electric' airplane). Electric power systems are also at the heart of alternative energy systems, including wind and solar electric, geothermal and small scale hydroelectric generation.
Course objectives / In the course of training students will be able to examine the basic concepts of power electronics. At the end of course the students understand how to electronic devices are developed, will examine the main types of power devices, what is a converter, DC-DC converter, inverter, power switching devices characteristics, will study the work principle and application of power devices.
Learning outcomes / What students should know by the end of the course:
Power supplies, power processing, converters, power transistors, flyback converter, DC-DC converter, controller, switch realization, rectifiers, inverter, functions of converters and their applications, Faraday screen, AC converter, types of power supplies, inrush control, working principles and design of switchmode power supplies.
Rules (Educational policy and behavior) /
Lesson organization
General information on the subject will be provided for the students during lectures.
Student’s knowledge on the previous topics will be evaluated and new topic will be explained by mins of visual aids during seminars. Student’s knowledge level will be tested oraly and in written forms before midterm and final exams. Submission of the individual works by the end of course is obligatory.
AttendanceParticipation of students at all classis is important. Students should inform dean’s office about missing lessons for particular reasons (illness, family issues and etc.). Students, missing more than 25% of lessons, are not allowed to take the exam.
Lates
Those students who are late for lessons for more than 15 minutes are not allowed to participate at the lesson. Despite this, the student is allowed to take part in the second part of the lesson.
Tests
Those students who have informed the teacher and the dean’s office about missing the test in advance for particular reasons, are allowed to take the test next week.
Exams
All the issues related to the participation and admission to the exam are regulated by the faculty dean.
Topics of midterm and final exams are provided for the students before the exams. The questions of midterm exam are not repeated in the final exam.
Violation of the rules of the exams
Disrupting the test and taking copy during midterm and final exams is forbidden. Test papers of the student who do not follow these rules are canceled and the students are expelled from the test by getting 0 (zero).
The rule for completing the course
In accordance with the University rules the overall success rate to complete the course should be 60% or above. The students who failed the exam would be to take this subject next semester or next year.
Rules of conduct for Students
Disruption of the lesson and not following ethical norms during the lesson, as well as conduction of the discussions by the students without permission and using mobile phones is forbidden.
This program reflects the comprehensive information about the subject and information about any changes will be providedin advance.
Week / Dates(planned) / Subject topics / Textbook/
Assignments
1 / 19.09
21.09 / Lecture №1.Introduction to electrical power supply: introduction to power processing, several applications of power electronics, some elements of power electronics, power supply.
Seminar 1. /
2 / 26.09
28.09 / Lecture №2Power switching devices characteristics: ideal switches, real swiches,practical power switching devices
Seminar 2. /
3 / 03.10
05.10 / Lecture №3Functions and requirements common to most direct –off-line switchmode power supplies.
Seminar 3. / [1] chapter 1 p.1.3
4 / 10.10
12.10 / Lecture №4.AC powerline surge protection
Seminar 4. / [1] chapter 2
p.1.17
5 / 17.10
19.10 / Lecture №5.Reactive components in power electronics system: electromagnetics, inductor, transformer, capacitor. Issues related to switches, energy storage –capacitor, energy storage –inductor.
Seminar 5. /
6 / 24.10
26.10 / Lecture №6.Faraday screens as applied to switching devices
Seminar 6. / [1] chapter 4
p. 1.43
7 / 31.10
02.11 / Lecture №7.Converters: converters, primitive converter , DC converter, isolated and non-isolated converter.
Seminar 7. /
8 / 07.11 / Lecture №8.Line rectification and capacitor input filters for direct –off-line switchmode power supplies. / [1] chapter 6
p.1.55
9 / 14.11 / Mid term exam
10 / 16.11
21.11 / Lecture №9. Inrush control
Seminar 9. / [1] chapter 7
p.1.73
11 / 23.11
28.11 / Lecture №10. Start-up methods
Seminar 10. / [1] chapter 8
p. 1.77
12 / 30.11
05.12 / Lecture №11.Control , drive and protection of power switching devices: base drive circuits, requirements of base drive, drive circuits. Copper or DC to DC.
Seminar 11. /
13 / 07.12
12.12 / Lecture №12. Controller basics: DC to DC controller, buck and boost converter, DC –to –DC converter dynamics, idealized DC-DC converter, generalized state space model of converter.
Seminar 12. /
14 / 14.12
19.12 / Lecture №13 Overload protection
Seminar 13. / [1] chapter 13
p.1.107
15 / 21.12
26.12 / Lecture №14.Flyback transformer design,flyback converter
Seminar 14. / [1] part 2, chapter 2 , p.2.53
Final Exam