Control Systems

Feedback Control System

The basic elements of a feedback control system are represented by the block diagram below. The functional relationships between these elements are also shown in the diagram.

Feedback Control System block diagram
Feedback Control System block diagram

The block diagram represents flow paths of control signals but do not represent the flow of energy through the system or process.

The plant is the system or process through which a particular quantity or condition is controlled. This is also called the controlled system.

The control elements are components needed to generate the appropriate control signal applied to the plant. These elements are also called the controller.

Related: Principles of Control Systems

The feedback elements are components needed to identify the functional relationship between the feedback signal and the controlled output.

The reference point is an external signal applied to the summing point of the control system to cause the plant to produce a specified action. This signal represents the desired value of a controlled variable and is also called the ‘’setpoint’’.

The controlled output is the quantity or condition of the plant is the quantity or condition of the plant which is controlled. This signal represents the controlled variable.

The feedback signal is a function of the output signal. It is sent to the summing point and algebraically added to the reference input signal to obtain the actuating signal.

The actuating signal represents the control action of the control loop and is equal to the algebraic sum of the reference input signal and the feedback signal. This is called the ‘’error signal’’.

The manipulated variable is the variable of the process acted upon to maintain the plant output (controlled output) at the desired value.

The disturbance is an undesirable input signal that upsets the value of the controlled output of the plant.

Related articles:

Don’t miss out on key updates, join our newsletter  List

Share
John Mulindi

John Mulindi is an Industrial Instrumentation and Control Professional with a wide range of experience in electrical and electronics, process measurement, control systems and automation. In free time he spends time reading, taking adventure walks and watching football.

View Comments

Recent Posts

What to Expect from PCB Assembly Services in China

The importance of printed circuit board (PCB) technology has escalated throughout the years with the…

2 days ago

Magneto-Optic Current Sensors for High Voltage, High Power Transmission Lines

One of the key challenges in measuring the electrical current in high voltage, high power…

4 days ago

How the Wiegand Effect is used in Sensing Instruments

The Concept behind Wiegand Effect Based Sensors   The Wiegand effect technology employs the unique…

6 days ago

Piezoelectric Accelerometer: Principle of Operation & Applications

An accelerometer is a sensor that is designed to measure acceleration or rate of change…

1 week ago

The USB-6009 Data Acquisition Card Features

The USB-6009 is a small external data acquisition and control device manufactured by National Instruments…

1 week ago

How X-Y Tables are used in Position Control Applications

X-Y tables are utilized as components in many systems where reprogrammable position control is desired.…

2 weeks ago