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N PROIZV OB EDINENIE TAJFUN

Overview
  • Total Patents
    19
About

N PROIZV OB EDINENIE TAJFUN has a total of 19 patent applications. Its first patent ever was published in 1989. It filed its patents most often in Russian Federation. Its main competitors in its focus markets micro-structure and nano-technology are SP KT B POLYUS PRI IVANOVSKOM, SOKOLOV IGOR M and INST ANALIT PRIBOROSTR AN SSSR.

Patent filings in countries

World map showing N PROIZV OB EDINENIE TAJFUNs patent filings in countries
# Country Total Patents
#1 Russian Federation 19

Patent filings per year

Chart showing N PROIZV OB EDINENIE TAJFUNs patent filings per year from 1900 to 2020

Focus industries

Focus technologies

Top inventors

# Name Total Patents
#1 Kolomiets Sergej M 3
#2 Vlasova Galina V 2
#3 Chkalov Valerij G 2
#4 Ernestova Lyudmila S 2
#5 Ivanitskij Aleksandr S 2
#6 Levin Rudolf Semenovich 1
#7 Allenov A M 1
#8 Matukhin Pavel G 1
#9 Korovin V Ya 1
#10 Vladimirov Porfirij Sergeevich 1

Latest patents

Publication Filing date Title
RU2125250C1 Wide-angle spectroradiometer
RU94035323A Polychromator
RU2034314C1 Process of calibration of aviation gamma spectrometer
RU2007070C1 Method and apparatus for creation of an artificial cloud in upper atmosphere of the earth
RU2029220C1 Method of guiding of several objects into upper atmosphere with the aid of unguided rocket
RU2000569C1 Method for analyzing water medium for toxicity
RU2007713C1 Method of aqueous medium toxicity assay
RU2006858C1 Method for lower alkylamines determination
RU2003221C1 Pyramid voltage generator
RU2069890C1 Detector of code sequences incorporating tolerance codes
RU2006931C1 System for commutation of processors
RU2008663C1 Meter of flow rate of charged particles
RU1817859C Method for control of discharge of pollutants in atmosphere
RU1777478C Method of determination of paths of particles in atmosphere
RU2006913C1 Device for code comparison
RU1807336C Method and device for determining parameters of suspension particles
RU1793784C Head part of research rocket
RU2006825C1 Method for analysis of pulse pairs for photoelectric meters of aerosols