wwwdev@monash.edu.au
Tue Jul 13 11:18:30 EST 1999
Auth: University Webmaster's Office
Copyright © Monash University 1998 - All Rights Reserved - Caution
D B Keogh
3 points · 26 lectures, 7 tutorials and 6 laboratory hours · Second semester · Clayton · Prerequisites: ECS3311
Objectives The student is expected to acquire a knowledge and understanding of transmission line theory, discrete-time and continuous-time signals and systems, Fourier transforms, convolution, sampling and aliasing.
Synopsis Transmission-line theory: distributed-parameter networks, travelling waves in uniform transmission lines, analysis of transmission-line networks using scattering parameters, transmission-line networks under sinusoidal steady-state conditions, standing waves, impedance matching, the Smith chart. Discrete-time signals and systems: sequences, discrete-time systems, analysis by difference equations, the z-transform, system functions in the z-domain, general analysis of discrete-time systems. Fourier transforms and linear system theory: Fourier analysis of continuous-time and discrete-time signals, the impulse train and its Fourier transform, convolution in the time and frequency domains, frequency and time aliasing, Fourier series in discrete-frequency presentation, the sampling theorem.
Assessment Examination (2 hours): 80% · Assignments: 10% · Laboratory work: 10%
Prescribed texts
Pang K K Advanced circuit theory Dept Electrical and Computer Systems Engineering, Mi-tec, 1998
Recommended texts
Oppenheim A V and Willsky A S Signals and systems Prentice-Hall, 1983
Back to the 1999 Engineering Handbook
wwwdev@monash.edu.au
Tue Jul 13 11:18:30 EST 1999