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Mathematical model representation of physical control systems which involve mechanical, hydraulic, pneumatic and electrical components. Open and closed-loop control system analysis. Block diagram algebra. First, second and higher order system stability analysis using techniques such as: Bode diagrams, Routh-Horowitz analysis, Root Locus analysis. Introduction to system compensation such as Lead-Lag Compensators.
Weekly Contact: Lab: 1 hr. Lecture: 3 hrs. Tutorial: 1 hr.
GPA Weight: 1.00
Course Count: 1.00
Billing Units: 1
Mentioned in the Following Calendar Pages
*List may not include courses that are on a common table shared between programs.
- ELE 719 - Fundamentals of Robotics
- MEC 617 - Manufacturing System Control
- MEC 751 - Measurements, Sensors and Instruments
- MEC 809 - Integrated Manufacturing
- MEC 830 - Mechatronics Systems Design
- MTE 701 - Real-Time Digital Control Systems Design
- MTE 751 - Measurements, Sensors and Instruments
- MTE 801 - Hardware in the Loop and RCP
- MTE 811 - Design of Modern Control Systems
- MTE 812 - Autonomous Robots and Vehicles
- MTE 829 - System Models and Identification
- Mechanical Engineering
- Mechatronics Engineering