Course
code EE724
credit_hours 3
title Advanced Electrical Drives
arbic title
prequisites None
credit hours 3
Describtion/Outcomes Review of Power semiconductor devices and circuits. Matching between motor and load characteristics, DC or AC drives, AC and DC machines for drives. Power electronics converters for electric drive systems. Direct and indirect vector control of induction machine. Direct torque control of induction machine Modeling and simulation of direct and indirect vector control and direct torque control of induction machine using MATLAB/SIMULINK. Vector control of Doubly-Fed Induction Generator (DFIG). Vector control of Permanent Magnet Synchronous Generator (PMSG). Applications of electrical drives in tension control. Sensor less speed control. Automated Variable Speed Drives (VSD). Industrial VSD.
arabic Describtion/Outcomes
objectives The student should be able to: Know the representation of electric machines in their complex vector models. Choose the power electronic device suitable for the nature of the ed power supply and drive. Understand the different techniques for driving AC machines. Simulate and analyze different electric drive systems. Study some important applications of electric machine drives.
arabic objectives
ref. books Boldea and S. A. Nasar, "Vector control of AC Drives", CRC Press, 1992. S. Yamamura, "Spiral Vector Theory of AC Circuit and Machines", Clarendon Press, Oxford, 1992. P. Vas, "Electrical Machines and Drives: A Space Vector Theory Approach", Clarendon Press, Oxford, 1992. B. K. Bose, "Modern Power Electronics and AC Drives", Prentice Hall, 2002.
arabic ref. books
textbook
arabic textbook
objective set
content set
Course Content
content serial describtion
1 Introduction to electrical drive systems.
2 Vector control of induction machine.
3 Modeling and simulation of direct vector control of induction machine using MATLAB/SIMULINK.
4 Modeling and simulation of indirect vector control of induction machine using MATLAB/SIMULINK.
5 Direct torque control of induction machine.
6 Modeling and simulation of direct torque control of induction machine using MATLAB/SIMULINK.
7 Vector control of DFIG.
8 Modeling and simulation of vector control of DFIG using MATLAB/ SIMULINK.
9 Vector control of PMSG.
10 Modeling and simulation of vector control of PMSG using MATLAB/ SIMULINK.
11 Applications of electrical drives in tension control.
12 Sensor less speed control (1).
13 Sensor less speed control (2).
14 Automated VSD + Industrial VSD.
15 Recent developments and applications of VSD.
16 Final Exam.