TERMS AND ABBREVIATIONS. ABB MicroSCADA

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MicroSCADA is a supervisory control and data acquisition (SCADA) software developed by ABB. It is used for real-time monitoring and control of power networks. MicroSCADA can be used to supervise and control various electrical applications, such as substations, power grids, and distribution networks. This thesis explores the use of predictive maintenance for MicroSCADA applications.

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TERMS AND ABBREVIATIONS. ABB MicroSCADA | Manualzz

7

PLC

ODBC

OPC

RTU

SCADA

SCIL

SNMP

SMTP

SSS

TLS

UNIX

Zip

TERMS AND ABBREVIATIONS

COM 500

CPU

DoS

GNU GPL

GPS

HMI

IED

Communication gateway

Central Processing Unit

Denial of Service attack

GNU General Public License

Global Positioning System

Human Machine Interface

Intelligent Electronic Device, usually a protective relay

Programmable Logic Controller

Open Database Connectivity

Open Process Control

Remote Terminal Unit

Supervisory Control and Data Acquisition

Supervisory Control Implementation Language

Simple Network Management Protocol

Simple Mail Transfer Protocol

System Self Supervision

Transport Layer Security

Open source operating system

File format used for data compression

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Key Features

  • Real-time monitoring and control
  • Wide range of applications
  • Predictive maintenance capabilities
  • Integration with other systems
  • Scalability and flexibility

Frequently Answers and Questions

What is MicroSCADA?
MicroSCADA is a software application developed by ABB for supervisory control and data acquisition (SCADA) of power networks. It provides real-time monitoring and control of electrical systems.
What are the benefits of predictive maintenance for MicroSCADA applications?
Predictive maintenance can help to identify potential problems before they occur, which can reduce downtime and improve the reliability of the system. It also helps to optimize maintenance costs and increase the lifespan of equipment.
How can predictive maintenance be implemented in MicroSCADA applications?
Predictive maintenance can be implemented by monitoring key parameters of the system, such as communication activity, system resource usage, and alarm frequency. This information can be used to identify potential problems and schedule maintenance proactively.

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