LLC EnergyindustryAvtomatization uses its own software and hardware solutions for engineering, development and implementaion of automated energy management system. Open architecture of the energy management systems facilitate extension and modernization in the future.


Systems aimed at increased observability and reliability of the network with remote control at the single-area power system. 

   HSS NPT Expert is offered for automation of facilities' networks within a single complex solution at power facilities managed by JSC IDGC HOLDING and other companies. Our goal in creation of this complex is management of power facilities with Voltage Grade from 0.4 to 35 kV within a single dispatching control room (single-area power system). Besides that there are provisions for integration with control systems of large energizing facilities with Voltage Grade 110 kV and higher.

   The HSS provides control of several power facilities operating without constant human presence from a single-area power system control room. 


   Unrestricted network extension is possible by connecting new facilities.

   Complex automation of network nodes with data transmission to the single control room allows: 


  • increased energy efficiency of electricity supply;
  • switch to new energy-saving technologies;
  • full control over the system as a whole, as well as with possible detalization of main parameters (including power quality) up to each single user;
  • increases observability and reliability of network nodes. 
  • full operative control over energy transmission process;
  • optimization of electricity distribution management;
  • minimization of risks and losses caused by power lines failures;
  • use of the most recent developments in decision support;
  • modern planning technologies.


Implementation of a single-area power system automation is a key stage in switching to SmartGrid.



Main constructive principles of complex control system for single-area power systems


  • Provision of common system time for all the network nodes thus facilitating complex evaluation of power facilities network;
  • Distributed nature and redundancy of automation devices and data transmission channels;
  • Provision of more complete information by means of integration of all the subordinate microprocessor devices; 
  • Organization of data in a common integral GUI;
  • Ample opportunities for data displaying;
  • Use of different channels for communication with remote facilities.