Difference Between PLC and RTU

 

PLC vs RTU

PLCs and RTUs are both electronic devices; their functionalities overlap with each other.  RTCs are sold with PLC-like features, and PLCs are sold with RTC-like features. Many vendors sell proprietary alternatives and different associated environments to run these programs since the industry made the functional language running RTUs and PLCs standard.

RTU

“RTU” stands for “Remote Terminal Units.” They are also referred to as “Remote Telemetry Units.” An RTU is an electronic device which is controlled by a microprocessor. The main function of an RTU is to interface the SCADA to the objects present physically. “SCADA” stands for “supervisory control and data acquisition.”  The interface between objects and SCADA takes place by using supervisory system messages to control all the objects connected and by transmitting to the system all the telemetry data.

The RTU does not support control loops and control algorithms. The functionality of RTUs and PLCs has started overlapping because of cheaper hardware, and thus the industry standardized the language for programs on which RTUs run. IEC 61131-3 has been standardized.

It is different from a PLC because it is considered more suitable as it uses wireless communication and is suited to a wider geographical telemetry whereas PLCs are better with local controls, for example, production lines or plants, etc. In plants and production lines, the system is more based on physical media. IEC 61131-3 is used more by PLCs, and RTUs use other proprietary tools.

PLC

“PLC” stands for “programmable logic controller.” PLCs are digital computers. They are used mainly for automating the electromechanical processes, for example, assembly lines in factories, light fixtures, amusement rides, etc. They are specially designed for output arrangements and multiple inputs. They have electrical noise immunity, vibration and impact resistance, varied temperature ranges, etc.

 

Some of the functions of PLCs are; process control, relay control, motion control, networking, etc. They have started matching the desktop computers in storing, processing, communicating, and handling data.