Lectures
- XMUT315-Lecture-1a-Introduction to course.pdf:
- XMUT315-Lecture-1b-Introduction-to-control-system.pdf:
- XMUT315-Lecture-1c-Introduction-to-control-engineering.pdf:
- XMUT315-Lecture-2-Laplace transforms.pdf:
- XMUT315-Lecture-2-Laplace transforms (table).pdf:
- XMUT315-Lecture-3-Physical systems modelling.pdf:
- XMUT315-Lecture-4-Block diagram modelling.pdf:
- XMUT315-Lecture-4-Block diagram modelling - Guideline.pdf:
- XMUT315-Lecture-5-Feedback control systems.pdf:
- XMUT315-Lecture-6-Stability analysis.pdf:
- XMUT315-Lecture-7-Time-response analysis.pdf:
- XMUT315-Lecture-8-Steady-state analysis.pdf:
- XMUT315-Lecture-9a-Introduction to Controllers and Compensators.pdf:
- XMUT315-Lecture-9b-Applications of Controllers and Compensators.pdf:
- XMUT315-Lecture-10a-Introduction to Bode Plots.pdf:
- XMUT315-Lecture-10b-Analysis with Bode Plots.pdf:
- XMUT315-Lecture-10c-Bode Plots Straight Line Approximation - Revision.pdf:
- XMUT315-Lecture-11a-Introduction to Root Locus.pdf:
- XMUT315-Lecture-11b-Analysis with Root Locus.pdf:
- XMUT315-Lecture-12a-Introduction to Nyquist Diagram.pdf:
- XMUT315-Lecture-12b-Analysis and Design with Nyquist Diagram.pdf: