Electrical energy conversion
D G Holmes
4 points * 24 lectures, 18 laboratory hours * First semester * Clayton * Prerequisites: ECS3351
Objectives The student is expected to acquire an understanding of the topologies of dc-ac inverters for variable speed drive systems and modulation strategies used to control them, the structure and fundamental principles of variable speed operation of ac induction motors, including open-loop, closed-loop and vector controlled systems, and the principles of the d-q analysis technique applied to ac induction and synchronous machines. The student should appreciate the merits and disadvantages of various types of variable speed drive systems in different applications.
Synopsis Voltage and current source inverters, single and three-phase systems, six step and pulse width modulation strategies, variable speed drive systems, stepping motor and brushless dc motor drive systems, d-q analysis of ac induction and synchronous motors, vector control of ac motors, high power drive systems, implementation of drive systems.
Assessment Examination (2 hours): 70% * Written: 15% * Laboratory work: 15%
Recommended texts
Bose B K Power electronics and AC drives Prentice-Hall, 1986
Dubey G K Power semiconductor controlled drives Prentice-Hall, 1989
Krause P C and Wasynczuk O Electromechanical motion devices McGraw-Hill, 1989
Mohan N and others Power electronics Wiley, 1989
Murphy J M D and Turnbull F G Power electronic control of ac motors Pergamon, 1988
Rashid M H Power electronics: Circuits, devices, and applications 2nd edn, Prentice-Hall, 1993
Published by Monash University, Clayton, Victoria
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