Multifunctional measuring devices have been developed using advanced virtual instrument technologies that automate the processes of control, measurement, database generation and management as part of multi-channel measurement and computing complexes of industrial and research physical installations. The State Certificate of Gosstandart RU.C. 34.004.A No. 19324 was issued for the approval of the type of measuring instruments.
Three control panels for three experimental installations based on powerful plasma masers with relativistic electron beams have been developed and are in operation. The remotes provide full automated control system functionality in conditions of the strongest electromagnetic radiation and interference. Work is currently underway to modernize one of the control panels. Development in the interests of Rosatom State Corporation.
The automated monitoring and control system of the ANGARA
A unique measuring complex of the mobile testing laboratory has been developed, which allows testing the grounding circuits of lightning protection systems for power lines and substations of all voltage levels. Development in the interests of the Federal Grid Company.
The factory laboratory for the output quality control of superconducting wire manufacturing, equipped with the Automated control System of the RUDN University, was put into operation. After completing the cycle of work on the creation of superconducting magnets for the ITER fusion reactor, production and the laboratory switched to the manufacture of magnets for medical tomographs. Development in the interests of Rosatom State Corporation.
A portable plasma control system for cutting electrolyte crust in electrolysis cells for aluminum production has been developed and put into operation. The installation allows to significantly reduce heat losses when replacing consumable anodes of electrolyzers. Development in the interests of IMET RAS and OK Rusal.
Six automated control systems for pilot production of plasma chemical synthesis of nanopowders of various morphologies used to modify the properties of materials in metallurgy and composite production have been developed and put into operation. Developments in the interests of IMET RAS, GC Rosatom and GC Roscosmos.
Three automated control systems for industrial titanium powder spheroidization plants used for additive technologies in aerospace and other fields have been developed and put into operation. Developments in the interests of A.A. Baykov Institute of Metallurgy and Materials Science, Rosatom State Corporation, Roscosmos State Corporation, IATHAS (China). Another series of similar installations is currently being produced.