Published by Monash University, Australia
Maintained by wwwdev@monash.edu.au
Approved by R Chaffey, Faculty of Engineering
Copyright © Monash University 1997 - All Rights Reserved - Caution
R P Lisner
4 points
* 26 lecture hours and 26 laboratory/tutorial
hours
* First semester
* Caulfield
* Prerequisites: ELE3252
Objectives The student will achieve an understanding of the issues involved in design and application of power electronic converter technology.
Synopsis Power semiconductor device theory. Thyristor firing circuits, control and trigger arrangements. Principles of phase control and zero voltage switching. AC voltage controllers, AC line commutated rectifiers and inverters. Forced-commutated converters. Half-controlled rectifiers and free-wheeling diodes. Effect of supply reactances, overlap. Output voltage and current relationships. Rectifier transformer connections, ratings and currents. Output power, input power and power factor. Harmonics. Protection of power electronic circuits from overvoltages and overcurrents. High-frequency switching power converters.
Assessment Examination (3 hours): 60%
* Practical
work, laboratory and project work: 40%
Recommended texts
Lander C W Power electronics 3rd edn, McGraw-Hill,
1993
Mohan N and others Power electronics: Converters, applications and
design 2nd edn, Wiley, 1995
Rashid M H Power electronics: Circuits, devices and applications 2nd
edn, Prentice-Hall, 1993
Published by Monash University, Australia
Maintained by wwwdev@monash.edu.au
Approved by R Chaffey, Faculty of Engineering
Copyright © Monash University 1997 - All Rights Reserved -
Caution