Control systems are part of everyday life and used in the fields of mechatronics and process manufacturing. Steering and controlling of control systems include robotic applications in automation, steering and tracking devices, and high-tech temperature, pressure and volume controllers necessary for chemical processes in industry. The [course_title] covers electromagnetic field theory, digital logic design, and application. Engineering graduates would acquire knowledge about microelectronic fabrication, power electronics, microelectromechanical systems and control systems engineering, radar systems, remote sensing and microwave electronics.
Course Curriculum
Control Systems Engineering – Lecture 1 – Introduction | 00:41:00 | ||
Control Systems Engineering – Lecture 2 – Modelling Systems | 00:44:00 | ||
Control Systems Engineering – Lecture 3 – Time Response | 00:37:00 | ||
Control Systems Engineering – Lecture 4 – Second Order Time Response | 00:47:00 | ||
Control Systems Engineering – Lecture 5 – Block Diagrams | 00:41:00 | ||
Control Systems Engineering – Lecture 6a – Frequency Response | 00:50:00 | ||
Control Systems Engineering – Lecture 6b – Frequency Response | 00:55:00 | ||
Control Systems Engineering – Lecture 7 – Frequency Response and Stability | 00:33:00 | ||
Control Systems Engineering – Lecture 8 – Modifying Behaviour | 00:34:00 | ||
Control Systems Engineering – Lecture 9 – The s-plane | 00:47:00 | ||
Control Systems Engineering – Lecture 10 – Root Locus | 00:55:00 | ||
Control Systems Engineering – Lecture 11 – Controllers | 00:43:00 | ||
Control Systems Engineering – Lecture 12 – Simulation Software | 00:22:00 | ||
Control Systems Engineering – Lecture 13 – Discrete Time and Non-linearity | 00:38:00 |
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