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Control System is a category of mechanical or electronic devices that control and regulate other devices or systems by using control loops mechanism.
A Control System command manages, directs, and regulates the activity of other devices or systems using control loops. It can range from an individual home heating controller using a thermostat that controls a domestic boiler up to large Industrial Control Systems which are used for controlling processes or machines.
A Control System is seen as a system, which provides the desired response by simply controlling the output. Control Systems are the basic part of the industry and of automation.
The Types of Control Systems processes include:
Some of the elements of Control Loops which are among the parts of Control Systems are:
The Control Loops that make up the Control Systems themselves are made up of:
The Sensor gets its input from the process variable or a measurement that is related to the process.
The Controller gets the signal from the sensor and then sends it to the instrument, which forwards it to the remote terminal units and then to the final control elements.
The Control Element is where the process variable is then adjusted and kept constant at a set point.
Accuracy: Effective Controls produce accurate data and information. Accurate information is important for effective managerial decisions. Inaccurate controls would divert management efforts and energies on Situations that do not exist or have a low priority and would fail to let managers know of serious problems that do require attention.
Timeliness: Inaccuracy should be reported as soon and regularly as possible to the management so that timely actions to restore it can be taken. Delay in actions may be as good as no actions. Fast collection of information on deviations can make the Control System prompt
Future-Oriented: The Control System enforces that mistakes made in the past are not repeated in the future. It is a process that is based on future plans. It helps in recreating the plans by giving out data upon which they should be based.
Multiple Control System: The Control System does not aim to control only one activity. Effective control systems control production sequence simultaneously, inventory, sales, cost, and quality. They should not only target the different areas of operations, but they should also aim at looking deviations of the inputs, work-in-progress (concurrent) and outputs (feedback).
Economical: It is generally expensive to install a control system in an institution. Therefore, the costs of the control system should be far less than its benefits. This is made possible by making corrective measures only on significant deviations. Control by exception at critical points reduces the use of resources on areas that best shows the organizational efficiency.
Flexible: Control Systems should be flexible to adjust operations to environmental changes. The impact of changes on planned performance (or standards) should be installed from time to time.
Operational: The Control System should not only find problems it should also correct them. Managers can manually create a problem and see how effectively the Control System works in such conditions.
Objective Standards: A Control System will be more successful if the standards of performance are objective. Standards must be quantifiable, specific and attainable. Poor or non-measurable standards will defeat the goal of the control system as it may be based on personal favoritism. It may leed to short-term gains at the cost of long-term profits.
There are many Benefits of using a Control System, some of them are:
In The Full Course, you will learn everything you need to know about Control Systems with Diploma Certification to showcase your knowledge and competence.
Control Systems - Introduction
Control Systems - Feedback
Control Systems - Mathematical Models
Control Systems - Modelling of Mechanical Systems
Control Systems - Electrical Analogies of Mechanical Systems
Control Systems - Block Diagrams
Control Systems - Block Diagram Algebra
Control Systems - Block Diagram Reduction
Control Systems - Signal Flow Graphs
Control Systems - Mason's Gain Formula
Control Systems - Time Response Analysis
Control Systems - Response of the First Order System
Control Systems - Response of Second Order System
Control Systems - Time Domain Specifications
Control Systems - Steady State Errors
Control Systems - Stability
Control Systems - Stability Analysis
Control Systems - Root Locus
Control Systems - Construction of Root Locus
Control Systems - Frequency Response Analysis
Control Systems - Bode Plots
Control Systems - Construction of Bode Plots
Control Systems - Polar Plots
Control Systems - Nyquist Plots
Control Systems - Compensators
Control Systems - Controllers
Control Systems - State Space Model
Control Systems - State Space Analysis
Control Systems - Exams and Certification
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