UNIT OF STUDY
This unit is mainly concerned with the application of feedback control to continuous-time, linear time-invariant systems. It aims to give the students an appreciation of the possibilities in the design of control and automation in a range of application areas. The concepts learnt in this unit will be made use of heavily in many units of study in the areas of communication, control, electronics, and signal processing.
The following specific topics are covered: Modelling of physical systems using state space, differential equations, and transfer functions, dynamic response of linear time invariant systems and the role of system poles and zeros on it, simplification of complex systems, stability of feedback systems and their steady state performance, Routh-Hurwitz stability criterion, sketching of root locus and controller design using the root locus, Proportional, integral and derivative control, lead and lag compensators, frequency response techniques, Nyquist stability criterion, gain and phase margins, compensator design in the frequency domain, state space design for single input single-output systems, pole placement state variable feedback control and observer design.
Our courses that offer this unit of study
- Bachelor of Commerce
- Bachelor of Commerce (Liberal Studies)
- Bachelor of Commerce and Bachelor of Arts
- Bachelor of Commerce and Doctor of Medicine
- Bachelor of Computer Science and Technology
- Bachelor of Computer Science and Technology (Advanced)
- Bachelor of Design Computing
- Bachelor of Engineering Honours (Aeronautical)
- Bachelor of Engineering Honours (Biomedical)
- Bachelor of Engineering Honours (Chemical and Biomolecular)
- Bachelor of Engineering Honours (Civil)
- Bachelor of Engineering Honours (Electrical)
- Bachelor of Engineering Honours (Mechanical)
- Bachelor of Engineering Honours (Mechatronic)
- Bachelor of Engineering Honours (Software)
- Bachelor of Engineering Honours and Bachelor of Commerce
- Bachelor of Engineering Honours and Bachelor of Music Studies
- Bachelor of Engineering Honours and Bachelor of Science
- Bachelor of Engineering Honours with Advanced Engineering
- Bachelor of Engineering Honours with Space Engineering Major
- Bachelor of Information Technology
- Bachelor of Information Technology and Bachelor of Arts
- Bachelor of Information Technology and Bachelor of Commerce
- Bachelor of Information Technology and Bachelor of Laws
- Bachelor of Information Technology and Bachelor of Medical Science
- Bachelor of Information Technology and Bachelor of Science
- Bachelor of Project Management and Bachelor of Arts
Further unit of study information
Lecture 2 hrs/week; Tutorial 2 hrs/week; Laboratory 3 hrs.
Through semester assessment (40%) and Final Exam (60%)
Norman S. Nise/Control Systems Engineering/sixth/2011/13 978-0470-54756-4//
Faculty/department permission required?
Unit of study rules
Prerequisites and assumed knowledge
ELEC2302 AND (MATH2061 OR MATH2067 OR MATH2961 OR AMME2000)
Specifically the following concepts are assumed knowledge for this unit: familiarity with basic Algebra, Differential and Integral Calculus, Physics; solution of linear differential equations, Matrix Theory, eigenvalues and eigenvectors; linear electrical circuits, ideal op-amps; continuous linear time-invariant systems and their time and frequency domain representations, Laplace transform, Fourier transform.
Study this unit outside a degree
If you wish to undertake one or more units of study (subjects) for your own interest but not towards a degree, you may enrol in single units as a non-award student.
If you are from another Australian tertiary institution you may be permitted to underake cross-institutional study in one or more units of study at the University of Sydney.