What Is SCADA? – Block Diagram, and Its Benefits | Poly Notes Hub
In modern industrial systems, SCADA (Supervisory Control and Data Acquisition) plays a critical role in monitoring and controlling infrastructure processes. From power generation to water treatment, SCADA systems ensure efficient, real-time supervision of large-scale operations.
This article explains what SCADA is, its block diagram, working, and benefits in industrial automation.
What Is SCADA?
SCADA stands for Supervisory Control and Data Acquisition. It is a computer-based control system that collects data from various sensors and instruments located in the field and sends it to a central control room.
Operators can then analyze the information, monitor pe...
What Is SCADA? – Block Diagram, and Its Benefits | Poly Notes Hub
In modern industrial systems, SCADA (Supervisory Control and Data Acquisition) plays a critical role in monitoring and controlling infrastructure processes. From power generation to water treatment, SCADA systems ensure efficient, real-time supervision of large-scale operations.
This article explains what SCADA is, its block diagram, working, and benefits in industrial automation.
What Is SCADA?
SCADA stands for Supervisory Control and Data Acquisition. It is a computer-based control system that collects data from various sensors and instruments located in the field and sends it to a central control room.
Operators can then analyze the information, monitor performance, and issue control commands to maintain safe and efficient operation.
In simpler terms, SCADA systems help industries monitor, control, and optimize their processes automatically.
Working Principle of SCADA System
A SCADA system works by collecting real-time data from remote locations using sensors and control devices such as PLCs (Programmable Logic Controllers) and RTUs (Remote Terminal Units).
The data is then transmitted to a central monitoring station where operators can visualize the entire process using specialized software.
The basic functions of SCADA include:
- Data acquisition
- Networked data communication
- Data presentation and visualization
- Process control
Block Diagram of SCADA System
The block diagram of a SCADA system typically includes the following main components:
- Field Devices (Sensors and Actuators): Collect data such as temperature, pressure, and flow rate from the process.
- RTUs (Remote Terminal Units): Interface with field devices and convert signals into digital data.
- PLCs (Programmable Logic Controllers): Execute control logic and process automation locally.
- Communication Network: Transfers data between field units and the central control station.
- SCADA Master Station (HMI - Human Machine Interface): Displays process data, alarms, and reports for operators.
- Database Server: Stores historical data for analysis and optimization.
Each block plays an essential role in maintaining real-time monitoring and control of industrial systems.