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Institutionernas kurser för doktorander

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Kursplan för

Läsår
ENM075 - Electric drives 2
 
Kursplanen fastställd 2010-02-22 av programansvarig (eller motsvarande)
Ägare: MPEPO
7,5 Poäng
Betygskala: TH - Fem, Fyra, Tre, Underkänt
Utbildningsnivå: Avancerad nivå
Huvudområde: Elektroteknik
Institution: 47 - ENERGI OCH MILJÖ


Undervisningsspråk: Engelska

Modul   Poängfördelning   Tentamensdatum
Lp1 Lp2 Lp3 Lp4 Sommarkurs
0107 Tentamen 7,5 hp Betygskala: TH   7,5 hp   18 Mar 2011 em H,  13 Jan 2011 em M,  19 Aug 2011 em V

I program

MPSYS SYSTEMS, CONTROL AND MECHATRONICS, MSC PROGR, Årskurs 2 
MPEPO ELECTRIC POWER ENGINEERING, MSC PROGR - Core courses, Årskurs 1 (valbar)

Examinator:

Professor  Torbjörn Thiringer


Ersätter

EEK615   Electric drives-2


Behörighet:

För kurser inom Chalmers utbildningsprogram gäller samma behörighetskrav som till de(t) program kursen ingår i.

Kursspecifika förkunskaper

Electric drives I

Syfte

The aim of this course is to provide the students with the knowledge of how to design high-performance electrical drives. In addition to give the students the practical ability to construct such a drive in the computer environment Matlab/Simulink and also the ability to interpret and evaluate the performance of the drive constructed. Moreover a goal is to derive dynamic equations as well as equation set-ups appropriate for simulations, from the physical construction of the electrical machines. Both induction machines as well as permanent magnet synchronous machines are to be treated for both sensored as well as sensorless (speed and position sensorless) operation.

Lärandemål (efter fullgjord kurs ska studenten kunna)

construct/develop a field-oriented control system of an induction and a PMSM machine and to judge the performance of the current and speed controller using a linear power amplifier.
present currents, voltages and fluxes in 3- and 2-phase stationary systems as well as in the rotating 2-phase system, and to be able to move between these representation systems.
describe how a three-phase converter operates and to determine the switching pattern that is created by the converter and the impact that this pattern has on the machine.
describe how a Volt/Hz control operates.
implement a current model flux estimator in direct and indirect field orientation as well as to implement and evaluate active damping, feed-forward and anti-windup of the regulator.
perform a practical experiment in order to determine the equivalent circuit parameters of an induction machine as well as to acquire relevant quantities during a start-up.
set up and perform a simulation of the starting process of an induction machine and evaluate/ judge the validity of the simulated results with respect to the measured ones.
use the state-space representation for simulation of electric machines and be able to derive the state-space equations from the standard equation set-up describing an electric machine.
design speed, current and position controllers of electric machines, based on bandwidth requirements of their performance and the parameters of the machine and supplying power electronic converter.
design a controller that can prevent windup of the controllers and use field weakening of the machines.

Innehåll

Lectures and tutorials:
Mathematical transformations: Transformation of voltages, fluxes and currents between the physical 3-phase system and a fictive 2-phase system. Transformation of currents, voltages and fluxes between a stationary and rotating coordinate system.
Models of electric machines. Starting from the physical descriptions of the machine the equations describing electric machines are derived. Induction machines as well as permanent synchronous machines.
State-space modelling: Implementation of machine equations into a set-up that is suitable for computer implementation.
Controllers: Design of current, speed and position controllers using the Loop-shaping method. Design of anti-windup feature of the controllers.
Power electronic converter: Realisation of control reference values into PWM-switched voltage patterns applied to an electric machine.
V/Hz control: Control structures suitable when the dynamic requirement of the drive is not high.
Field-oriented control: Realisation of a dynamic high-performance controller for an electric machine utilising the field-oriented control idea. Both using indirect and direct field-oriented control.
Flux observers: Voltage and current model flux observer.
Sensorless control: Sensorless control means speed- and position sensorless control, structure for eliminating the need of these sensors.
Field weakening: Usage of the field weakening method to increase the speed of the machine above the nominal one.

Laboratory assignment (compulsory):
The parameters of the induction machine to be evaluated in the project work is determined in a practical 4-hour lab.

Project (compulsory):
One compulsory project work is to be performed. It deals with the design of high-performance drives for induction and PMSM-machines.

Organisation

The course comprises of ca 14 lectures (2 x 45 min) , 7 tutorials (2 x 45 min) , 1 laboratory assignment (4h), a project work on the design of field-oriented control of IM and PMSM drives (42 h).

Litteratur

Compendium: Control of Electrical Drives, Lennart Harnefors, KTH 2002.

Examination

Written examination. Grades: Fail, 3, 4 or 5. Approved laboratory and project work.


Sidansvarig Publicerad: må 13 jul 2020.