Please note - Swinburne University of Technology
Please note - Swinburne University of Technology
Please note - Swinburne University of Technology
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Simple. receiver - antenna and receiver for freq. >150MHz<br />
and simple field strength meter<br />
BPF for freq. >looMHz<br />
Pre-amplifier using u-strip design for freq. >500MHz<br />
Investigating the use <strong>of</strong> light via optical fibres for data<br />
transfers<br />
Investigating the use <strong>of</strong> co-axial cable and its behaviour at high<br />
frequency.<br />
Part B<br />
Data communication networks and open system standards<br />
Electrical interface<br />
Data transmission<br />
Protocol basics<br />
Data link control protocols<br />
Local area networks<br />
Wide area networks.<br />
References<br />
Part A<br />
Bowick, C. RF Circuit Design. Indianapolis, Howard W. Sams & Co.,<br />
1982<br />
Edwards, T.C. Foundations for Microstrip Circuit Design. Chichester,<br />
Wiley, 1981<br />
Edwards, T.C. lntroduction to Microwave Electronics. London, Edward<br />
g Arnold, 1984<br />
5. Gonzalez, G. Microwave Transistor Amplifiers. Englewood Cliffs, N.J.,<br />
4' Prentice Hall, 1984<br />
Kennedy, G. Electronic Communication Systems. New York, McGraw-<br />
% Hill.1970<br />
Kraus, J.D. Electromagnetics. 4th edn, New York, McGraw-Hill, 1992<br />
m Part B<br />
Beauchamp, K.G. Computer Communications. 2nd edn, London,<br />
Chapman & Hall. 1987<br />
Halsall, F Data Communications, Computer Networks and Open<br />
-. Systems. 3rd edn. Wokingham, Addison-Wesley, 1992<br />
m<br />
9 -.<br />
3<br />
~~483 Electronics<br />
w<br />
3 CL<br />
o<br />
E.<br />
No. <strong>of</strong> hours per week: four hours<br />
Prerequisites: EE386 Electronics<br />
Instruction: lectures/tutorials~laboratory<br />
ln<br />
3 Assessment: examination/assignments<br />
Subject aims<br />
To cover the analysis <strong>of</strong> analog integrated circuits and the<br />
hardware aspects <strong>of</strong> the microprocessor.<br />
Subject description<br />
Microprocessor electronics<br />
Interfacing and VO programming <strong>of</strong> 80X88180X86<br />
microcomputers. Hardware and s<strong>of</strong>tware interrupts, peripheral<br />
chips: keyboard scanners, display drivers, UARTs, DMA<br />
controlle;~, disk controllers, bus timing, memory interfacing,<br />
virtual addressing and memory management unit.<br />
Digital signal processing<br />
Nonrecursive digital filter design (using the Fourier series<br />
method), recursive digital filter design (using the Bilinear<br />
Transform method). Implementation <strong>of</strong> digital filters and Fast<br />
Fourier Transform using DSP 56000.<br />
References<br />
Brey, 0. The Intel Microprocessors 808618088.80 186, 80286, 80386<br />
and 80486Architecture, Programming and Interfacing. 3rd edn, New<br />
York, Merrill, Toronto, Collier Macmillan, 1994<br />
DeFatta, Lucas, Hodgekiss. Digital Signal Processing: A System Design<br />
Approach. New York, Wiley, 1988<br />
El-Sharkawy. Real Time Digitalsignal Processing. Applications with<br />
Motorola's DSP 56000. Englewood Cliffs, N.J., Prentice Hall, 1990<br />
Godfrey, J.T. IBM Microcomputer Assembly Language. New York,<br />
Prentice Hall, 1989<br />
Liu, Yu-cheng and Gibson, G.A. Microcomputer Systems: The 80861<br />
8088 Farnib Architecture, Programming and Design. 2nd edn, Prentice<br />
Hall, 1986<br />
Strum, R. and Kirk, D. First Principles <strong>of</strong> Discrete Systems and Digital<br />
Signal Processing. Reading, Mass., Addison-Wesley, 1988<br />
Uffenbeck, J.E. The 808618088 Family: Design, Programming, and<br />
Interfacing. Englewood Cliffs, N.J., Prentice Hall, 1987 (Text)<br />
EE489<br />
Control Systems<br />
No. <strong>of</strong> hours per week: three hours<br />
Prerequisites: EE384 Electrical Power and<br />
Machines, EE389 Linear Systems and Control,<br />
SM394 Engineering Mathematics<br />
Instruction: lectures/laboratory<br />
Assessment: examination/assignment<br />
Subject aims<br />
To introduce the analytical technique <strong>of</strong> state variable analysis<br />
and to use that and classical techniques to design control<br />
systems, linear and non linear to meet a set <strong>of</strong> specifications.<br />
To introduce a concept <strong>of</strong> discrete time control systems.<br />
Subject description<br />
Discrete time systems: introduction to sampling and discrete<br />
data. lntroduction <strong>of</strong> discrete time control system, sampling<br />
and discrete time signal, Z-transform, zero order hold element,<br />
discrete time state space model, controllability, observability<br />
and stability. State space model <strong>of</strong> multi-variable linear<br />
continuos-time systems. Control system performance analysis.<br />
Controllability, observability and stability. System<br />
Transformation.<br />
Design <strong>of</strong> control systems from a classical approach using<br />
compensators P.I.D. controllers and state feedback.<br />
lntroduction to non-linearities and their effect on the system.<br />
Describing functions.<br />
TextsiReferences<br />
D'Azzo Houpis. Linear Control Systems Analysis and Design:<br />
Conventional and Modern. 3rd edn, New York, McGraw-Hill, 1988<br />
Dorf, R.C. Modern ControlSystems. 6th edn, Reading, Mass., Addison-<br />
Wesley, 1992<br />
Miron, D.B. Design <strong>of</strong> Feedback Control Systems, Harcourt Brace<br />
Jovonovich, 1989<br />
Ogata. Modern Control Engineering. 2nd edn, Englewood Cliffs,<br />
Prentice Hall, 1990