This course is archived

Go here to see the updated course for the current academic year

POWER ELECTRONICS

Course Code: EA3107 • Study year: III • Academic Year: 2021-2022
Domain: Electronic engineering and telecommunications • Field of study: Applied Electronics
Type of course: Compulsory
Language of instruction: English, German
Erasmus Language of instruction: English, German
Name of lecturer: Adrian Alexandru Tulbure
Seminar tutor: Calin Petrascu
Form of education Full-time
Form of instruction: Class / Seminary
Number of teaching hours per semester: 56
Number of teaching hours per week: 4
Semester: Autumn
Form of receiving a credit for a course: Grade
Number of ECTS credits allocated 4

Course aims:

C5.1 Define the specific elements for power electronic devices and circuits: power ecomponents, automatic systems, electricity management, medical electronics, automotive, consumer electronics
C5.2 Qualitative and quantitative interpretation of the operation modes for: power electronics, automatic systems, electricity management, medical electronics, auto electronics, consumer goods;
C5.3 Design of technical specifications, installation and operation of equipment in the fields of applied electronics.
C5.5 Designing and using some subsystems with reduced complexity, from the fields of applied electronics.
- Behaviour simulation of complex/average power electronic systems

Course Entry Requirements:

Fundamentals of electronic circuits; Measurement in electronics and telecom; Electrotechnics

Course contents:

• I. Modern systems for electricity conversion (Structures and concepts of the converters, Technical characteristics of power modules, Energy consumption, Application areas) • II. Power modules from open loop ac-ac converters (Power and control dedicated circuits, Open loop power converter architecture, The u / f operating mode, Design aspects, Selection and commissioning) • III. Power modules from closed loop ac-ac converters (Power and control circuits, Closed loop power converter architecture, The SVC (sensorless) and FIRE (sensor) operating mode, Design aspects, Selection and commissioning) • IV. Power modules from dc-ac converters ( Inverters architecture, Operation and programming procedure, Design aspects, Selection and commissioning) • V. Intelligent power modules IPM (Technical and functional characteristics, Configuration and design environment; Safety and reliability in operation) • VI. Accessories for power converters (Control panels, Connections and communication ports, Active and passive filters, Braking and dispersal resistors) • VII. Programming environments of converters (IndraWork Platform Engineering, IndraWork Operation Platform, Open core flexible interface, Industrial Standards specific to modern electrical drives

Teaching methods:

Technical presentation and experimental works

Learning outcomes:

- Understand international terminology in the field of power electronics; - Know relevant power electronics and control topologies for industrial use, - Know the modern concepts of modeling-simulation with self-developed or imported models. - Design of the protection circuits relative to power switching - Operations modes of the PE components and systems

Learning outcomes verification and assessment criteria:

Theoretical – 60%; experimental – 40%.

Recommended reading:

R.W.Erickson,, Fundamentals of power electronics, Kluver, Masstricht, 2001, xx.
J.C.Bennet, Practical computer analysis of switch mode power, CRC Press, London, 2006, xx.
Ghe. Palaghita, Electronica de putere, ediamira, cluj, 2002, xy.
. D.Suciu, Electronica de putere. Principii si aplicatii, Matrixrom, Buc., 2010, 300.
A.Tulbure si colab, ElectroProbleme, Aeternitas, ALBA IULIA, 2015, 220.