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ModuleInformation

ELE2024

Circuits and Control 2

Course Contents

  • Analysis of linear systems using mesh & nodal analysis
  • Thevenin's theorem
  • Two-port networks
  • Classical differential equations
  • Fourier methods
  • Laplace Transforms and transfer functions
  • Feedback concepts & Characteristics of feedback systems
  • Modelling of dynamic systems and Block diagrams
  • Performance measures
  • Stability criteria, s-plane approach and Frequency response
  • Design

Supplementary Notes

None

Learning Outcomes

After the completion of this module you will be able to:

  • Derive the system equation of circuits with dependent/independent sources using a range of analysis techniques
  • Analyse two-port networks
  • Analyse circuits containing R, L and C components and time-varying sources using pseudo resistors
  • Analyse linear time invariant systems using Fourier techniques
  • Analyse circuits using Laplace Transforms
  • To provide an introduction to the subject of feedback control systems engineering.
  • To underpin level 3 modules in control engineering.

Skills

During this course of this module you will acquire the following key skills:

  • Numeric
  • Problem solving
  • ICT skills
  • Teamwork skills
  • How to model dynamic systems.
  • Application of Laplace Transforms to system analysis
  • How to predict stability of feedback systems