Control Systems:
A control system is a device or
set of devices to manage, command, direct or regulate the behavior
of other devices or systems.
There are two common classes of control systems, with many variations and combinations: logic or sequential controls, and feedback or linear controls. There is also fuzzy logic, which attempts to combine some of the design simplicity of logic with the utility of linear control. Some devices or systems are inherently not controllable.
The term "control system" may be applied to the essentially manual controls that allow an operator to, for example, close and open a hydraulic press, where the logic requires that it cannot be moved unless safety guards are in place.
An automatic sequential control system may trigger a series of mechanical actuators in the correct sequence to perform a task. For example various electric and pneumatic transducers may fold and glue a cardboard box, fill it with product and then seal it in an automatic packaging machine.
There are two common classes of control systems, with many variations and combinations: logic or sequential controls, and feedback or linear controls. There is also fuzzy logic, which attempts to combine some of the design simplicity of logic with the utility of linear control. Some devices or systems are inherently not controllable.
The term "control system" may be applied to the essentially manual controls that allow an operator to, for example, close and open a hydraulic press, where the logic requires that it cannot be moved unless safety guards are in place.
An automatic sequential control system may trigger a series of mechanical actuators in the correct sequence to perform a task. For example various electric and pneumatic transducers may fold and glue a cardboard box, fill it with product and then seal it in an automatic packaging machine.
Control Systems Notes
| 1 | Control Systems Course Outline (CECOS University Only) |
| 2 | Experiment No. 2: Laplace Transform & Transfer function Lab Exercise. |
| 3 | Experiment No. 3:Introduction to Simulink. Lab Exercise |
| 4 | Experiment No. 4: Modeling First and Second Order Systems in Simulink. Lab Exercise |
| 5 | Experiment No. 5&6: Modeling of Dynamic Systems. Lab Exercise |
| 6 | Experiment No. 7: Open loop speed control of DC Motor |
| 7 | Experiment No. 7: Solution |
| 8 | Experiment No. 8: OPEN LOOP POSITION CONTROL OF DC MOTOR |
| 9 | Experiment No. 8: Solution |
| 10 | Experiment No. 9: PID Speed Control of a dc Motor |
| 11 | Experiment No. 9: Solution |
| 12 | Experiment No. 10: PID Position Control of a DC Motor |
| 13 | Experiment No. 10: Solution |
| 14 | List of Practicals |
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