Linear Systems with Matlab Applications

Unit code: NEE2201 | Study level: Undergraduate
12
(Generally, 1 credit = 10 hours of classes and independent study.)
Footscray Park
NEF1201 - Engineering Mathematics 2
NEE2101 - Electrical Circuits
(Or equivalent to be determined by unit coordinator)
Overview
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Overview

This unit treats both transient and steady-state analysis of linear time-invariant systems by using Fourier and Laplace transform methods. In addition to periodic signals, signals represented by singularity function will also be included as forcing functions. The application of system concepts, which include transfer functions, poles and zeros, frequency response functions, and state variables, will be emphasised.

Learning Outcomes

On successful completion of this unit, students will be able to:

  1. Adapt and apply Fourier series, Fourier transforms, and Laplace transforms to the analysis of signals and linear time-invariant systems;
  2. Apply the Fourier series and Fourier transforms to the frequency-domain analysis of linear time-invariant systems;
  3. Apply the Laplace transforms to the time-domain analysis of linear time-invariant systems described by linear differential equations and by state variables; and
  4. Fluently employ MatLab commands and Simulink to analyse and evaluate linear time-invariant systems using Fourier series, Fourier transforms, and Laplace transforms.

Assessment

For Melbourne campuses

Assessment type: Laboratory Work
|
Grade: 10%
Practical Lab Assessment
Assessment type: Test
|
Grade: 50%
Tests (3)
Assessment type: Report
|
Grade: 40%
Laboratory Reports (3)

Required reading

Fundamentals of Electric Circuits
Alexander, C.K., & M.N.O. Sadiku (2020)| McGraw-Hill

As part of a course

This unit is studied as part of the following course(s):

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