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Power Electronics (06_XDELP)

  • Coefficient : 2
  • Hourly Volume: 50h (including 27h supervised)
    CTD : 18h supervised
    Labo : 9h supervised
    Out-of-schedule personal work : 23h

AATs Lists

Description

  • The objective of the course is an introduction to power electronics. The principles of static converter structures are covered: uncontrolled and controlled rectification, choppers and inverters. The course is taught using the LTSpice simulation tool.

At the end of this course, students will have knowledge of :- power electronic components: power diodes, thyristors and power transistors.- analysis of static converter operation.- component sizing in compliance with electrical constraints.1. Basic concepts of power and energy 2. Three-phase power on a balanced electrical load 3. Essential properties of diodes, thyristors, MOSFETs and IGBTs in switching electronics 4. Relationships between electrical and mechanical parameters of a rotating electrical machine 5. Simulation of H-bridge and three-phase inverter static power converters inverter 6. Principle of speed variation for asynchronous and synchronous machines

Learning Outcomes AAv (AAv)

  • AAv1 [heures:12, B1,B3] : At the end of semester S6, the student will be able to determine the instantaneous and average power consumption and energy stored in a given linear circuit (or described by a statement) including resistive, capacitive and inductive effects.

  • AAv2 [heures:18, B1,B3] : At the end of semester S6, the student will be able, in a single-phase or three-phase rectifier circuit, controlled or uncontrolled, to: - determine the waveforms of the voltage/current electrical quantities and the powers from a given diagram*. - record the electrical stresses of the diode (or thyristor) in order to size it.

  • AAv3 [heures:20, B1,B3] : At the end of semester S6, the student will be able, in a chopper, step-down or step-up circuit, to determine the waveforms of the voltage/current electrical quantities and the powers from a given diagram*. - identify the electrical constraints of the transistor and diode in order to size them.

Assessment methods

One long continuous assessment (coefficient 1) and an average of several short continuous assessments in CTD (coefficient 1).

Key Words

electronic switch; static converters; electric rotating machines; variable speed control; speed reversibility; power reversibility

Prerequisites

Electronics, physics and mathematics syllabus for semesters S1 to S5

Resources

Course handouts and lab reports