1997 Swinburne Higher Education Handbook
1997 Swinburne Higher Education Handbook
1997 Swinburne Higher Education Handbook
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AC Machine Transients: Space phasor description of<br />
machines; The synchronous machine - winding,<br />
transformations, the d.q.y. model; Short circuit analysis;<br />
Three phase induction motor, starting and reconnection<br />
transients; Fault current contributions.<br />
Recommended Reading<br />
General Electric, General Electric: SCR Manual, 6th edn., 1979<br />
Lander, C.N., Power Electronics, 2nd Edn., McGraw Hill, 1987<br />
Leonhard, Control of Electrical Drives, Springer-Verlag, 1985<br />
Mahan, Udeland, Robbins, Power Electronics, USA, John Wiley<br />
& Sons, 1999<br />
Say M.G. Alternating Current Machines, 5th Edn, Longmans,l983<br />
Sen, P.C. Thyristor DC Drives, Wiley 1981<br />
EE562 Computer Electronics<br />
9 credit points 4 hours per week Hawthorn<br />
Prwe(~uisites: EE41i9 Assessment: examination, assipzment -<br />
A final year suabject in the computer systems engineering<br />
stream of the degree of Bachelor of Engineering (Electrical)<br />
Objectives<br />
To provide a grounding in digital systems design with<br />
programmable logic, and CMOS VLSI design at the system<br />
level.<br />
Content<br />
VHDL and High Level Synthesis: High level systhesis,<br />
functional models, HDL, VHDL, design entity declarations,<br />
architectural body, behavioural modelling, transport and<br />
inertial delays, signal assignments, drivers, data structures,<br />
block statements, guarded assignments, structural<br />
description, overloading, chip level and finite state machine<br />
modelling, system synthesis from behavioural models,<br />
algorithmic level design, data flow design, algorithmic<br />
synthesis.<br />
VLSI: overview of processes used in IC fabrication, theory<br />
of MOS technologies, models of MOS transistors, MOS<br />
logic structures and device sizing, pass transistor logic,<br />
layout and desi n rules, extraction of parameters from<br />
layout, circuit c 51 aracterisation and performance estimation,<br />
clockin schemes and various design rules, system design,<br />
the IC &sign flow.<br />
Recommended reading<br />
Bhasker, J., A W DL Primer, Prentice Hall, 1992<br />
Douglas, P., VHDL, McGraw-Hill<br />
Gajski, D., & Dutt, N., High Level Synthesis Introduction to Chip<br />
and System Design, Kluwer Academic Publishers<br />
IEEE Design and Test of Computer Magazine<br />
0 IEEE Transaction on Computer-Aided Design<br />
Schoel, J. Pe&ormance and Fault Modeling with WDL, Prentice Hall<br />
& Tuinenga, P. W. Spice -A guide to Circuit Simulation &Analysis<br />
Using PSPICE, 2nd edn, Englewood, Cliffs, N.J. Prentice Hall,<br />
1992<br />
Weste, N & Eshraglan, K., Principles of CMOS VLSI Design: A<br />
Systems Perspective, Reading, Mass, Addison-Wesley, 1985<br />
EE563<br />
Advanced Computer Techniques<br />
7 credit points 3 hours per week Hawthorn<br />
Prerequisites: EE467 Assessment: assignment/computer<br />
laboratory<br />
A final year subject in the computer systems engineering<br />
stream of the degree of Bachelor of Engineering (Electrical)<br />
Students do one of the following electives:<br />
IT901 Software Process 1<br />
IT906 Human-Computer Interaction (HCI)<br />
IT916 Programming the User Interface<br />
EE576<br />
Electronics<br />
7 credit points 3 hours per week Hawthorn<br />
Prerequisite: EE476 Assessment: examination, assignment,<br />
laboratory<br />
A final year subject in the power and control engineering<br />
stream of the degree of Bachelor of Engineering (Electrical)<br />
Obiecfves<br />
To extend the principles learned in earlier years of<br />
microcontroller power electronics and opto-electronics,<br />
with applications in the power areas.<br />
Content<br />
Part A - Microcontrollers<br />
The application of single chip microcontrollers to electrical<br />
engineering. A/D and D/A conversion. Data<br />
communications and interfacing.<br />
Part B - Power electronics<br />
Protection of sem.iconductor devices. Current protection<br />
over voltage protection high speed fuses. Series and parallel<br />
operation. Design of base and gate driver circuits with<br />
isolation.<br />
Recommended reading<br />
Ayala, K.J., The 8051 Microcontroller: Architecture, Programming<br />
and Applications. West Publishing Co., 1991<br />
Halsall, F., Data Communications, Computer Networks and OSI.<br />
2nd edn, Addison-Wesley, 1988<br />
Intel Imbedded Microcontrollers and Processors, Intel<br />
Corporation, Santa Clara, CA, 1993<br />
Krutz, R.L., Interfacing Techniques in Digital Design with<br />
Emphasis on Microprocessors. Wiley, 1988<br />
Lander, Power Electronics, London, McGraw-Hill, 1981<br />
McKenzie, IS., The 80J1 Microcontroller. Macmillan, 1992<br />
Mohan, Undeland & Robbins, Power Electronics: Conwters,<br />
Applications and Design. Wiley, 1989<br />
Peatman, J.B., Design with Microconrollers. McGraw-Hill, 1988<br />
Phillips IC20, 80CS1 Based 8-bit Microcontrollers.<br />
Williams, B.W., Power Electronics. Macmillan, 1987<br />
EE597 Electrical Power Systems<br />
11 credit points fi hoursper week Hawthorn<br />
Prerequisites: EE47S Corequisite: nil Assessment:<br />
examination, assignments, laboratory<br />
A final year subject in the power and control engineering<br />
stream of the degree of Bachelor of Engineering (Electrical)<br />
Objectives<br />
To continue the study of power systems and in particular<br />
the topics of stability, protection and circuit interruption.<br />
Content<br />
Power Systems<br />
Symmetrical components, unsymmetrical fault calculations,<br />
travelling waves and surges, high voltage direct current<br />
systems, transmission line economics.