Chapter 1: Introduction to control system

CHAPTER 1

INTRODUCTION TO CONTROL SYSTEM

What is a control system?

A control system is an interconnection of components forming a system configuration that will provide a desired system response.A component or process to be controlled is represented by a block.The input-output relationship represents the cause-and-effect relationship of the process.

Depending on the system configuration, there are two kinds of control systems
 1)Open-loop control system
 2)Closed-loop control system

Control system types.
There is THREE type control system that based on supply source.

Systems are the three [c]

1. Pneumati[c]
2. Hydrauli[c]
3. Electri[c]

Pneumatic control system 
Pneumatic control system is a system which uses air that in compress to generate force / energy to carry out work. Pneumatic system many in find out in system industrial like food industry,petrochemical and industry which uses robotics. Generally pneumatic system need:

• Air supply is compressed
• Control valve
• Tube link
• Transducer induce

The pneumatic control system can be handled human and automatic.

Hydraulic control system 

 
Hydraulic control system is a system which uses fluid to generate force / energy to carry out work. Hydraulic system many in use in automobile industry like power system, system brake, crane, jack car,satellite and so on. Fluid that commonly used is oil. Generally hydraulic system need :

• Supply fluid is Hydraulic
• Control valve
• Cylinder

The hydraulic control system can be handled human and automatic. 

Electric control system

Electric control system is a control system which uses electric current whether direct current (AT) or current shuttle as supply source.Generally  Electric Control System requires:

• Electricity supply (AT) or (DC)
• Element entry (switch, sensor, valve,electronic component)
• Element product (Motor, light and so on)
• Connector cable

Electric Control System can be handled human and automatic. 

Term used in process control

• Process variable : The actual value in the control loop, temperature, pressure, flow, composition, pH, etc
• Dynamic variable : Dynamic variable is physical any parameter that variable the value spontaneously or through external influences. 
• Servo control : Servo control is a feedback control system where the product is position, velocity or acceleration.  
• Regulation control : the set point is fixed at constant value
• Feedback control system : Feedback control system where product always compared with entry set point and difference between value made foundation for control
• Set point : The set point is the desired value of the process variable
• Error : In the control loop the error = set point - process value
• Error signal : Difference between entry signal and feedback signal/product.
• Controller : Device which control process certain system and acts against error signal to reduce error to product like is wanted. 

 
 

Basic process of control element

 

process level control

1. A level transmitter (LT), a level controller (LC), and a control valve (LV) are used to control the liquid level in a process tank.
2. The purpose is to maintain the liquid level at some prescribed height (H) above the bottom of the tank.It is assumed that the rate of flow into the tank is random.
3. the level transmitter is a device that measures the fluid level in the tank and converts it into a useful measurement signal, which is sent to a level controller.
4. The level controller evaluates the measurement, compares it wiyh a desired set point (SP), and produces a series of corrective action that are sent to the control valve.
5. The valve controls the flow of fluid in the outlet pipe to maintain a level in the tank.

 process temperature control

 

Measurement

1. To control a dynamic variable in a process, must have information about the entiry or variable itself.This information is obtained by measuring the variable.
2. Measurement refers to the conversion of the process variable into an analog or gigital signal that can be used by the control system.
3. The device that performs the initial measurement is called a sensor or instrument.
4. Typically measurements are pressure, level, temperature, flow , position and speed.
5. The result of any measurement is the conversion of a dynamic variable into some proportional information that is required by the other elements in the process control loop or sequences.

Evaluation

1. In the evaluation step of the process control sequences, the measurement value is examined, comparedwith the desired value  or set point, and the amount of corrective action needed to maintain proper control is determined.
2. A device called a controlle can be pneumatic, electronic or mechanical device mounted in a control panel or on the process equipment.
3. It can also be part of a computer control.
4. System, in which case the control function is performed by software.

Control element

1. The control element in a control loop is the device that exerts a direct influence on the process or manufacuring sequence.
2. This final control element accepts an input from the controller and transforms it into some proportional operation that is performed on the process.
3. in most cases, this final control element will be a control valve that adjusts the flow of fluid in a process.
4. Devices such as electrical motors, pumps, and dampers also used as control elements.

1.3.3 Draw and label block diagram of basic elements of process control.

 Open Loop system

•         no feedback

•         difficult to control output with accuracy

•         a common example of an open- loop control system is an electric toaster in he kitchen.

 

Open loop block diagram

A type of control system that uses only an input signal to actuate an output. There is no automatic feedback to adjust the process, so adjustments must be made manually by the operator.

2. Closed Loop system

• must have feedback
• must have sensor on output
• almost always negative feedback

 

Closed loop block diagram

Systems that utilize feedback are called closed-loop control systems. The feedback is used to make decisions about changes to the control signal that drives the plant. An open-loop control system doesn't have or doesn't use feedback.

Differences between Open Loop and Closed Loop

Automatic Control System

An  automatic  control  system  is  a  preset  closed-loop  control  system  that  requires  no  operator action.  This  assumes  the  process  remains  in  the  normal range  for  the  control  system. An automatic control system has two process variables associated with it:  a controlled variable and a manipulated variable.

A controlled variable is the process variable that is maintained at a specified value or within a specified range.In the previous example, the storage tank level is the controlled variable.

A manipulated variable is the process variable that is acted on by the control system to maintain the  controlled  variable  at  the  specified  value  or  within  the  specified  range. In  the  previous example, the flow rate of the water supplied to the tank is the manipulated variable.

Functions of Automatic Control

In any automatic control system, the four basic functions that occur are:

• Measurement

• Comparison

• Computation

• Correction

Advantages

•  Accuracy:  They are more accurate than open loop system due to their complex construction. They are equally accurate and are not disturbed in the presence of non-linearities.

• Noise reduction ability:    Since they are composed of a feedback mechanism, so they clear out the errors between input and output signals, and hence remain unaffected to the external noise sources.

Disadvantages :

• Construction:  They are relatively more complex in construction and hence it adds up to the cost making it costlier  than open loop system. 

• Stability: It is less stable than open loop system but this disadvantage can be striked off since we can make the sensitivity of the system very small so as to make the system as stable as possible

Cascade System

Cascade control system contain integrated sets of control loops.

• Primary Loop: Monitors the control variable and uses deviation from its set point to provide an output to the secondary loop.
• Secondary Loop: Receives its set point from the primary loop and controls the reference variable accordingly.

Benefits of cascade control

• Effectively accounts for external disturbances
• Reduces dead time in variable response
• Compatible with other control system, such as feed-back and feed-forward control architectures.

Disadvantages of cascade control

• Multiple control loop make physical and computational architecture more complex.
• Additional controllers and sensors can be costly.