Energy facilities, automation, according to the standards and using the advantages of technology makes efficient management. 

ADVANTAGES OF THE SYSTEM

The biggest benefit to the consumer of an electricity distribution system controlled and monitored by the automation system is; The most efficient way is to use existing energy and eliminate risks in terms of life and property safety. Besides Since energy parameters can be monitored continuously, energy consumption can be controlled and since the failure conditions of the equipment in the system are monitored through the automation system, it is possible to intervene quickly. Since the automation system, which operates according to the scenario of the user, will control the equipment without errors, it will be much safer and safer than the systems operating at the initiative of the operator, and the operating system with a small number of personnel will be operable

In the system, the loading and unloading systems meet the needs of the companies operating in parallel with the network and consuming energy from the network. It also extends the life of the equipment in the system. The load-taking and load-taking processes activate or deactivate these points according to the load (current or power drawn) at the electricity generation points (transformer / generator) or at certain electricity consumption points. This minimizes energy consumption.

Energy automation system established with the latest technology, and SCADA software are open systems. It has the ability to expand and change later. Other systems can even be integrated into the automation system.

As Dac-el Engineering, we provide the following services regarding energy automation:

■ Project design of the system to be installed
■ Configuration of PLC / RTU and SCADA system
■ Field acceptance tests of PLC / RTU and SCADA systems and commissioning of these systems in the field

• Energy Monitoring and Control Systems include the control of all equipment in the Medium Voltage and Low Voltage distribution panels in the factories.
• Control and monitoring of all circuit breaker equipment
• Instantaneous and retrospective monitoring of data from Energy Analyzer, Protection Relays, Reactive Power control relays. Creation and reporting of alarm, trend records related to these values
• WEB-based reporting of all energy data on a daily, weekly, monthly and yearly basis
• Control and monitoring of SCADA system on WEB
• Preparation of shift and time based reports
• Implementation of load shedding and receiving scenarios
• PLC / RTU, SCADA Computer etc. monitoring diagnostic data via SCADA
• Monitoring of Transformers and Generators via SCADA
• Monitoring and control of the positions of all circuit breakers in LV Distribution Boards
• Monitoring of medium voltage breakers and motorized disconnectors
• Remote monitoring and control of power supplies such as Transformers - Generators and UPS
• Easy fault analysis with detailed Fault Reports
• Energy detail reports modeled according to user requirements
• Operation based on user access levels
• Service with remote connection

■ Preparing, testing and providing all kinds of customized software
■ Providing consultancy services in the field of energy automation
■ Training on RTU, SCADA and communication protocols (IEC 60870-5-101 / 103/104, IEC 61850, DNP3, Modbus, SNMP) in the field of energy automation

We provide engineering and commissioning services of the following systems:

• Cogeneration Automation
• Load Shedding and Load Automation
• Electrical Distribution Automation
• Energy Billing And Automatic Meter Reading (Amr) Solutions
• HEPP - Hydro Power Plant Automation
• RES - Wind Power Plant Automation

ENERGY AUTOMATION SYSTEM STRUCTURE
The system consists of three main parts:
Control and Control System,
Command Sending and Monitoring System (SCADA),
Field Control Equipment,

Control and Control System
Control and control in energy automation This is the part where the desired control scenarios are realized. PLC (Programmable Logic Controllers) are mostly used.
Digital signals to PLC system; open / closed and thermal fault signals of motorized switches, automatic / manual signals, and some other fault signals. The signals from the current / voltage / power / power factor converters are analog signals (4-20 mA, 0-10 VDC, etc.). Energy analyzers send parameter information to PLC or SCADA via communication line. The communication is mostly based on RS-485 or IP based (Modbus, Modbus TCP, Profibus, Profinet etc. protocol). The PLC system generates digital signals to control the motorized switches according to these signals from the field.

Command Sending and Monitoring System (SCADA)
It consists of a computer where all the points under the control of the control and control system can be monitored and controlled. This software is generally called SCADA / HMI (Supervisory Control and Data Acquisition / Human Machine Interface). This program is in continuous communication with the PLC. All data in the communication between PLC-SCADA / HMI are refreshed in the specified sequence according to the need.

Our links to articles and solutions concerning energy automation:

• For the electrical and power industry: Industrial Network for Critical Applications - IEC 61850