DEE-34017 Control of Electrical Drive Systems, 5 cr

Additional information

Suitable for postgraduate studies.

Person responsible

Kirsi Nousiainen, Petros Karamanakos

Lessons

Implementation Period Person responsible Requirements
DEE-34017 2017-01 1 - 2 Petros Karamanakos

Learning Outcomes

Advanced control techniques, such as field-oriented control (FOC) and direct torque control (DTC) have become the industrial standards in low-voltage (LV), and medium-voltage (MV) drives. The superior dynamic performance of the aforementioned control schemes, combined with their implementation simplicity, have enabled their widespread use. The objective of the course is to provide an understanding of advanced control methods for electrical drives. Exercises based on induction motor drives are used to consolidate the presented control theoretic concepts and to assist the learning process. Matlab/Simulink simulations further improve the understanding of the control methods, their benefits and intrinsic challenges. Finally, hands-on experience is to be gained by running experiments in the laboratory to allow theory to be linked to real-world contexts.

Content

Content Core content Complementary knowledge Specialist knowledge
1. Coordinate transformation  Modulation methods (pulse width modulation (PWM), including carrier-based PWM (CB-PWM), space vector modulation (SVM))  Optimum adjustment of control systems (modulus optimum, symmetrical optimum) 
2. Voltage source inverter fed drives (two-level inverter)  Direct torque control (DTC) for a drive consisting of a two-level inverter and an induction machine (IM)   
3. Induction motor drives modeling     
4. Field-oriented control (FOC) for a drive consisting of a two-level inverter and an induction machine (IM) (direct/indirect FOC)     

Prerequisites

Course Mandatory/Advisable Description
DEE-33036 Electric Drives Mandatory    
DEE-33116 Power Electronics Converters Mandatory    

Additional information about prerequisites
* Basics of control systems (ASE-1251 Järjestelmien ohjaus or ASE-1257 Introduction to Control) * Power converter systems (analysis and modeling) (DEE-33116) * Basics of dc/synchronous/PM drive systems (DEE-33036) * Matlab/Simulink



Correspondence of content

Course Corresponds course  Description 
DEE-34017 Control of Electrical Drive Systems, 5 cr DEE-34016 Modeling and Control of Electric Drives, 5 cr  

Updated by: Karamanakos Petros, 15.06.2017