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Dynamic modelling and control of electromechanical converters [ LELEC2313 ]


5.0 crédits ECTS  30.0 h + 30.0 h   1q 

Teacher(s) Dehez Bruno ; De Jaeger Emmanuel ;
Language English
Place
of the course
Louvain-la-Neuve
Online resources

Moodle

> https://moodleucl.uclouvain.be/course/view.php?id=8002

Main themes
  • Dynamic models of DC machines
  • Dynamic models of synchronous machines
  • Dynamic models of asynchronous machines
  • Space phasors and variable transformations (Concordia, Park and Clarke)
  • Control of DC machines
  • Vector and scalar control of asynchronous machines
  • Vector control of synchronous machines
Aims

With respect to the AA referring system defined for the Master in Electrical Engineering, the course contributes to the development, mastery and assessment of the following skills :

  • AA1.1, AA1.2, AA1.3
  • AA3.3
  • AA5.6

Specific learning outcomes of the course

At the end of the course, the student will be able to :

- Derive the dynamic model of electromechanical converters (DC and brushless DC machines, synchronous and asynchronous machines) in order to control them, in particular by exploiting the variable transformations (Concordia, Park and Clarke).

- Describe the main control strategies of these converters (scalar V/f control of asynchronous machines, vector and direct torque control for asynchronous and synchronous machines) and choose them according to the application.

- Use the adapted dynamic models in order to simulate the dynamic behaviour of these converters

- Use the adapted dynamic models in order to synthesize type P, PI or PID controllers.

- Use the adapted dynamic models in order to check the robustness and performance of a controller regarding modelling simplifications, external disturbances, changes in the machine parameters, ...

The contribution of this Teaching Unit to the development and command of the skills and learning outcomes of the programme(s) can be accessed at the end of this sheet, in the section entitled “Programmes/courses offering this Teaching Unit”.

Evaluation methods

- Homework reporting (50%)

- Closed book oral examination (50%)

Teaching methods

Teaching is organized in the form of:

- Lectures;

- Homework on modelling and control of the various electromechanical converters seen during the lectures.

The homework are performed in groups of 2 or 3 students and lead to a synthesis report, which is evaluated and is involved in the final evaluation of the course.

Content

- Introduction (1 hour): motivations, types of models, general structure of an electrical drive system, factors of development of electrical drive systems

- DC machine model (2h): structure of the machine; excitation mode, dynamic equations in the time domain and in the Laplace domain; model simplifications (mechanical, electrical and electromechanical time constants); model improvements (armature resistance, saturation)

- Space phasors and variable transformations (2 hour): Concordia Clarke and Park transformations

- Synchronous machine model (4h): equations of the machine in 'abc', 'aß' and 'dq' coordinate systems; round rotor and salient pole machines; particularization to permanent magnet machines

- Asynchronous machine model (4h): equations of the machine in 'abc', 'aß' and 'dq' coordinate systems

- DC machine control (2h): general principle, main types of power supply, control with emf compensation, control with and without current measurement for low power machines

- Synchronous machine control (4h): general principle of vector control in the 'dq' coordinate system; control with emf compensation, taking into account the inverter and the digital controller; flux weakening; particularization to surface mounted and interior permanent magnet machines, salient pole and wound inductor machines; brushless DC machines

- Asynchronous machine control (4h): equations in the rotor flux coordinate system; general principle of vector control in this coordinate system; vector control with emf compensation; scalar V/f control

Bibliography

- Slides, books (available online via the intranet UCL):

  • Wach, P., Dynamics and control of electrical drives, Springer, 2011, 456 p.
  • Veltman, A., Pulle, D. W., De Doncker, R. W., Fundamentals of electrical drives, Springer, 2007, 346 p.
  • De Doncker, R. W., Pulle, D. W., Veltman, A., Advanced electrical drives: Analysis, Modeling, Control, Springer, 2011, 462 p.
Other information

Concerning the homework:

- Supervised sessions are organized weekly in a computer classroom

- The software used is Matlab/Simulink

Faculty or entity
in charge
> ELEC
Programmes / formations proposant cette unité d'enseignement (UE)
  Sigle Crédits Prérequis Acquis
d'apprentissage
Master [120] in Electrical Engineering ELEC2M 5 -
Master [120] in Electro-mechanical Engineering ELME2M 5 -


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