SCIENTIFIC ABSTRACT SEMENOV, V.V. - SEMENOV, YE.I.

The Committee, on Stalin Prizes (of the Co=,cil of Ministers USSR) in tho field-- of science -Rnd Inventions annoum"s that the folloving 2cieutifle -jovis, pop-,Ala zcjaa- tific booke, and textbooks have been submitted for ccmuetition r Stalin rizes f to or the years 1952 a,-,I 1953. (SovetskaNLA Vlost:ov,, -TO~ 22-40, *-DO Feb Title of Work Vom-Insted- "An :1,1---l~rod-ma-ic LofIel Institute of Autor,-atics and Lat-,-,anizov, 1'.V. of a Po~.,."-~2r Acade~-,ly of Urusov, I.D. 3cie=,s Ivanov, V. I. Ziokolov) T.':. se-icnov, 17 - - 42h, so: w-,3o6o4, 7 July 19R4  SF.iMOV,V.V., dotsent, kandidat tekhnicheskikh nauk .:Lvdroelectri elements for calculating a series of hydroelectric power stations. Trudy MEI no.12:57-87 '54. (MLRA 8:10) (Hydroelectric power stations)  FATEMOV, A-leksandr Vasillyevich; SEMOV.-J,,Y.. redaktor; ZABRODINL. A. I, tekhnicheskiy redaktor. [Principles of the linear theory of automatic control] GsnoTy lineinoi teorii aTtomaticheskogo reguliroTaniia. Moskva, Goo. energeticheakoe izd-To, 1954. 295 p. (MIMA 8:2) (Automatic control)  VORONOV, A.A.; PERVOZVAIISKIT, A.A.; SMWOV, V.V Electrodynamic models of hydraulic turbines and their speed regu- lators. Izv.Aff SSSR.Otd.tekh.nauk no-1:30--46 Ja '56. (MLRA 9:5) (Hydraulic turbines--Models)  8(6';, 14(6) SOVI I I Z-59 -4-6716 Translation from: Ref erativnyy zhurnal. Elektrotekhnika, 19 59, Nr 4, p 46 (USSR) AUTHOR: Semenov, V. V. a~ TITLE: Electrodynamic Simulation of Hydraulic Turbines and Their Governors PERIODICAL: V sb.: Mezhvuz. konferents,-ya po primenc-aiyu fiz. modeliravanlys. v elekt-rotekhn. zadachakh i matem. modelirovaniya. M., 1957, P 59 ABSTRACT: Simulating hydroturbines by means of a separately excited DC motor is considered. The peculiarities of Kaplarx-turbine characteristics are reproduced by means of magnetic amplifiers, and govez-nor characteri stir; 9 a--.-e represented by DC computer-type amplifiers. V. R. S. card I It I  SOV/124-58-7-7659 D Translation from- Referativnyy zhurnal, Alekhanika, 1958, Nr 7, p 46 (USSR) AUTHOR: Semenov, V.V. TITLE- Electrodynarnic Analog Studies of Water Turbines, Speed Reg- ulators, and 13enstocks on Dynamic Power-system Analogs (Elektrodinamicheskoye mod,~lirovaniye gidroturbin, regul- yMorov skorosti i napornylrh truboprovodov v dinamicheskikh inodelyakh energosistern) ABSTRACT~ Bibliographic entry on the author's dissertation for the de- gree of Candidate of Technical Sciences, presented to the Leningr. elektrotekhn. in-t tLeningrad Electrotechnical Insti- tute), Leningrad, 1958 ASSOCIATION~ Leningr. elektrotekhn. in-t (Leningrad Electrotechnical Institute), 1958 1. Turbines--Analysis 2. Speed regulaicrs,Analysis 3. Hydraulic conduiz.s--Analysis 4. Pover nlants--Equicir.,en, Card I/ I  SEMOV, V. V. ; ."i: - , Blectrodynamic modeling of the hydraulic part of hydroelectric power stations. Nauch. dokl. vys. shkoly; energ, no.2:219-230 158* (MIRA 11:11) 1. Institut elektromakhaniki AN SSSR. (Hydroelectric power titations-Models)  AUTHOR: SOV 30-58-10-10/53 ;'iemenov, V. V. TITLE: 'Representation of Pressure Dischar-e Electro-Dynamic Model Pipes 'Slektrodinamicheskoye modelirovaniye napornykh truboprovodov) PERIODICXL: Vestnik kkademii nauk S6SR, Nr 10, pp 61-63 (USSR) ABSTR'XT: The electro-dynamic models of electrical systems also include models of water turbines with discharge pipes and speed reg- ulators. The closest approximation to the processes in the hydraulic parts of power plants can be obta,~ned by model L-,~-Dresentarj.on on a physical basis. This, hoi-iever, involves a number of technical and construction problems. Therefore, in recent times the mathematical representation of the hydraulic parts of po-.-,er plants has been used. Ye. L. Birotinskiy, A. 2L. Pervozvanskiy, and R. A. Poluektov made suggestions in this respect which, however, could hardly be realized. At the Insti- tlit elektromekhaniki Akademii nauk SS-,R (Institute of Blectro- Mechanics of the AS USSR) a model was worked out on behalf of the Leningradskiy metallicheskiy zavod (Leningrad Metal Works). This model serves for the exploration of regulation dynamics of Card 1/2 high-pressure hydrounits and derives from the equations of  sov/30-~8- -10- 10/;,5 Electro-Dynamic Model Represpntati.on of Pressure Discharge Pipes N. Ye. Zhukovskiy for the movement of liqaids in a pressur.? discharge pipe. In figure I an electric block pattern of a zrod-el plant is ahown and in figures 2, 3, and A osciiloarams taken at the model. A standard block of tbp NZ-1 type was 4'(,-r model. There are A figures. Card 2,,2  BO.BROY, Y.M.; VORONOV, A.A.; GLKBOY, I.A.; IVAIOV, Y.I.; KARPOV, G.Y.; KASHTELTAN, V.Te.;_aMGNOY, T.Y.; SIRWO, Y.K.; SIRTr, U.S.; SUKEANOY, L.A.; URUS0V FETISOV, T.T.; FOHINA, Te.H.; KOSTMKO, M.P., akademik, red.; DCDQ'pOY, P.S., red.izd-va; M4IRNOVA, A.V., tekhn.red. [Blectrodynamic modeling of power engineering systems] Elektro- dinamicheakoe modelirovanie energeticheskikh SiBt8M. Pod red. M.P.Kostenko. Moskva, 1959. 406 p. (MIRA 13:2) 1. Akademiya nauk SSSR. Institut elelctromekhaniki. (Electric networks-Blectromechanical analogies)  0 fit 1.4 c 0 Ile w wa W;L ;L tig! R 51  SIMIOV, VoV., doteent 'r lundamentals of calculating cascaded water power regulation using the logarithmic characteristija of reservoirs. Ix.*.,# vys. uoheb, zave; energe 3 nos 7s134-141 ii 16o. (MMA 13 *-. 8) 1. Hookovskiy ordena Lenina energetichenkiy inatitut. Predetavlens. kafedroy gidroeaergetiki. (4droelectric power stations)  SaSNOV, VX., dotsents kand.tekhnnauk Methods of calculating water power cont3*olling stages using the logarithmic characteristics of water rei3ervoirs, Izv. vys. ucheb. zav.; energ. 3 no. 12:92-102 D 1160. (MIM 14:2) 1. Moskovskiy ordena Lenina energetichookiy inAtitut. Predstavleno Wedroy kidroewrgetiki. (Water,-power) (Automatit,, control)  PHASE I BOOK EXPLOITATION SOV/5533 Akademiya nauk SSSR. Institut elektromekh~nlki. SpetE;Iallnyye voprosy avtomatizirovannogo elektroprivoda (Special Problems of the Automatic Electric Drive) Moscow,. lzd-vo.AN SSSR, 1961. 248 p. Errata slip inserted. 6, 500 copies printed. Sponsoring Agency: Akademlya nauk SSSR. Institut f.-lektromekhaniki. Eda. (Title page): D. A. Zavalishin, Corresponding Member, Academy of Sciences USSR, and V.V. Rudakov, Candidate of Technical Sciences; Ed. of Publishing House: N.V. Travin; Tech. Ed.: R. A. Arons, J PURPOSE: This book Is intended for technical personnel engaged In de- signing or operating regulated and automated electric drives for ma- chines and mechanisms. It may also bb uotful to students in advanced courses working on term and degree projects. Card4:tg  Special Problems of (Cont.) SOV/5533 COVERAGE: The book discusses the principles of operation and the methods of computation of regulated drives with a-c and d-c motors. Special attention is paid to problems related to the frequency method bf Induction motor control, which the authors consider the modt promising. Recom- mendations regarding the use of a-c commutator motors and induction motors with special winding and improved starting characteristics are made. A considerable part of the book is devoted to problems of design 1%. and calculation of the control circuits for automated d-c drives, and to 'i methods of investigating dynamic characteristics of d-c dri 've systems by means of electronic and electrodynamic models. Recent developments i V, in regulated d-c drives and modern methods of analyzing and synthesizing automated d-c systems, based on investigations carried out by the Insti- tut elektromekhaniki AN SSSR ',(Institute of Electromechanics AS USSR), are discussed in detail. The book was written by the following persons: A. A. Dartau (Cho. 11 and III), D. A.; Zavalishin (Introduction, sections 1. 4, 5, and 6 of Ch. I, and Ch. 11); S. V. Korotkov (Ch.. VI, sec. 3); Card-  Special Problems of (Cont.) SOVISS33 1. 1. Laptev (sections 4 and 5 of Ch. V); 9.V. Popov (Ch. IV; sections 4, and 5 of Ch. V) and sec. 3 of Ch. VI, ); V.A. Prozorov (sections _ 2, and 3 of Ch. 1. ); V.,V, Rudakov (Introduc(f&H-,siEJ-&( Ch. V, , _ , - , sections I and 4 of Ch. Vh: V. V. S omenov ( see. 3 of Ch, V); Ye. M. Smirnov (sec. 2 of Ch. VI); 9:77i-epu-r-al sec. 3 of Ch. V): A~V_. Fa.tey-e-v (Introduction). There are 69 references: 59 Soviet, 7 German, 2 English, and I French. TABLE OF CONTENTS: Foreword 3 Introduction. Present State and Paths of Development of Automated Electric-Drive Systems 5 1. Qeneral information 5  tioll  31028 S/'~73/617000/005/020/023 2-7-k DOD D201'/D305 AUTHOBS: Ye-~dokfmovj S.A. Semenov~ V.V,s Sokolov, G.N., and T,arasov, V.A. TITLE. Electronic insiruments for analyzing bio-currents SOURCE-.: Akademiya nauk SSSR. Institul .-.lektromekhaniki. Sbornik rabot po voprosam. elektromekhaniki. no. 5, TMOSCOW? 1961. Avtomatizat5iya, telemekhanizatsiya -i, priboros-troyeniyeg 276 - 2K TEXT: A desk:riplion is given of a eel of ele-c-uronic instruments for amP.L:Lfica-._Jon, aulomatic analysis and recording of biopotentials designed at the Institu"ce of electromechanics in conjunction with the Inst_-a-, Fiziologii im. I.P. Pavlova AY SSSR (Institute of Phy- siology 1,P. Pavlov AS USSR) to increase the accuracy of phy- siologic-.1 in::estigations, simplifying the work of experimentation and part.ially automating the process of results. The equipment has the foil-owing basic units: 1) The bio---urr(!n-. four amplifier unit for am-pl.--fying small pozentuial differences (magnitude of microvolts) Card 1/'3  8~51021 - 73 61/000/005/020/023 Electronic instruments for D201YD305 producing enough power to drive a 100-milliamp vibrator of a loop oscillograph and to drive all following stages. Prequency range is 0.5 - 5 c/s and 50 to 1500 c/B. The reduced input noise level is aPproximately ; microvolt at maximum pass-band. 2) a and 0 rythm filters, for separate detection of corresponding brain pulsations. Each filter is in the form of a multi-stage selective amplifier with a balanced output 'or oscJllograph connection. The first three -L 7 - stages of the selective amplifier have local frequency-selective feedback, comi~osed of a twin-T bridge between anode and Trid. Both filters have a slope of approximately 24 db per cycle; 3 Three in- tegrators. The output from the integrator is then applied to a com- parison circuit vath a type TPi-01/03 (TG1-01/03) thyratron which switches the integrator into its starting situation when the inte.:& grated voltage reaches approx,, 70 V. A special pulse forming cir- cuit applies a pulse to an electro-mechanical counter; the numbe:~ of pulses over a certain period determines the a rythm; 4) A connec- tor panel which permits easy assembly ol' -vhe required circuit. 5) A generator prc,jucing 10 Cls for checking Ihe a rythm channel and 16 c/s for the P-rythm channel. The output voltage is calibrated in 5, Card 2/3  31028 S/573/61/000/005/020/023 Electronic instruments for D201/D305 25, 50, 250 and 500 mi.cro-volts The enerator is made of two inte- grating amplifiers and an inver;er. 65 Programmed control arrange- ment for repetitive experiments in conditioned reflexes and simul- taneouB observations of various physiological processes, The des- cribed Bet of instruments waw installed at the beginning of 1959 at one of the laboratories of the Institute of Physiology im. I.P. Pavlov AS USSR; it is in use and has been highly rated by physiolo- gists. There are 2 figures and 2 Soviet-bloc references. Card 3/3  )30 S/5'7~3'1/61/000/005/022/023 9, ~ S_3 0 D201/D305 AUTHORS: Semenov, V.V., and Stepuraq E.F. TITLE: inireasing the pass-band .of a magnetic amplifier by means of feedback delay SOURCE: Akademiya nauk SSSR. Institut elektromekhaniki. Sbornik rabot po voprosam elektromekhaniki. no. 5, Moscow, 1961. Avtomatizatsiya, telemekhanizatsiya i priborostroyeni-ye, 321 - 324 TEXT: In many practical jjases the magnetic axplifiers operate with heavy negative feedback which increases the pass-band and the amplifier gain. It is shown in the present article that by intro- ducing a delay into the feedback circuit an additional increase of the pass-band may be obtained. Let the amount of feedback be deter- mined by factor 0 and its delay by the time constant To. Let the amplifier parameters be k a and Ta without feedback. Then after in- troducing the feedback the magnetic amplifier must have a gain k and a maximum Dossible pass-band. This corresponds to a certain va- Card 111A  31030 S/573/61/000/005/022/023 Increasing the pass-band of a ... D201/D305 lue of T which has to be determined. Presenting the transfer junc- tion of ~he amplifier in the form of a second order circuit 'W(p) = 'k 2 2pTo + 1 . - p T + 2T Tp + 1 is obtained, where T T+aT0 Ta + To 7 ka 2VT T (I + a 0 a, The shape of the resulting frequency response of the amplifier with delay in the feedback circuit is therefore determined by coeffi- cient t and the ratio of T and T 0. Putting a = T/To and choosing T 0 so that T a 0 a2(1 + Pk a) Card 216  31030 SX573/61/000/005/022/023 Increasing the pass-band of a D201/D305 The attenua-,,ion coefficient is then given by 9. + 1 2 2(l + Pk aT If Pka>> 1, then ;~4a/2. The results are shown in Fig. 2, where W/W 0; Wo being given by 1 + pka o = -Ta In Fig. 2, curve 1 represents the frequency response of magnetic amplifier with heavy negative feedback without delay. Curve 2 is for & , = a/2 = 0.6 and T = 1/1.2w 0. The numerator ot the transfer function is represented by curve 3 when 140 = 1/a2wo = 1/1.44woo Curve 4 is the sum of 41 and 3 and represents the frequency respon- se of magnetic amplifier with delayed negative feedbaekp show~.ng that the pass-band is approximately equal to 1.85d2-. It may be shown that the above method may be considered from the point of Card 3/5  SF1&NUVJ-V.V.., kand.tekhn.nauk., dotsent. 1, --- Fi-inciples of the theory of ~4e calculation of the installed capacity I- of a cascade of hydroelectric power stations operating in interconnected electric utility systems. Trudy ME~ no-35-.19-64 -161. - (MM 15:12) (Interconnected electric utility systems) (Hydroelectric power stations)  SEMENOV, V.V., kand.tekhn,.nauk~ dotsent Principles of the calculation of relationships-for determining the operating modes of hydroelectric power stations in a consolidated electric power system. Trudy NEI no-35:65-108 161. (14M 15:12) (Iaterconr~cted electric utility systems)(Hydroelectric power stations)  YKVDOKIMOV, S.A.; SEMENOV, V.V.; SOKOLOV, G.N.; TARASO`V, V.A. ;:a, Hogram control in experiments with conditioned reflexes. Fiziol. .V zhur. 47 no.4;522-4524 Ap 161. (MIRA 14:6) -1. From the Pavlov Institute of Physiology and the Institute of Electromechanias, U.S.S.R., Academy of Sciences,, Leningrad. (CONDITIONED RESPONSE)  SEMENOV., N.A.; SEMENOV, V._V,. otv. red.; MAKSAKOVA, A.I., red. [Radiation of center-fed dipoles] Izluchenie simmetrich- nykh vibratorov; uchebnoe posobie po, kursu "Antenny.11 Moskva, Pt.2., ch.l. 1962. 61 p. (MIRA 16:4) 1. Vsesoyuznyy zaochnyy elektrotekhnicheskiy institut svyazi. (Radio-Antennas) (Antennas (Electronics)) (Microwaves)  S/194/62/000/006/061/232 D295/D308, AUTHORS: Sakhmanov, A.V., Sem-enov, V-V., and Stepura, E.F. TITLE: Optimum operating conditions of a symmetrical twin T-shaped bridge in an electro-hydraulic control system of water-turbine sueed PERIODICAI: Referativnyy zhurnal. Avtomatika i radioelektronikap no, 6, 1962p abstract 6-2-149 u (Sb. rabot po vopr. - elektromekhan., In-t elektromekhan All SSISR, no. 5, 1961 95-98) TEXT: I-",- is suggested to use, in circuits determining the devia- tion of the output frequency of the generator from its set vahle, a. twin T-shaped bridge instead of induction coils with a steel core or tunihg forks, which riot only increases the stability of the cir- ." characteristics, but also permits to regulate the slope of the u L U c characteristic of the frequency-deviation detector by varying the voltage-applied at the input of the bridge. An investigation is car- ried out of a twin T-shaped bridge having as the load the control windin-s of a magnetic amplifier. On the basis of equations descri- Card 172  S/19 621000100610611232 Optimum operating coneitions of a D295YD308 t4 OnS bing the steady-state one.rriting condi of the bridge, an expres- sion is found for the sloDe of the frequency dependence of the in- phase current component in the load resistance, and the optimum va- iue of the transformation ratio of the matching transfornier is lound for which this slope -is a maximum. 7 references. LAbstractor's note: Complete transla4- bion.] Card CO-12  SEMENOV) N.A.; SMNOV V V otv. red.; MAKSAKOVA, A.I., red. (Matching of balanced vibrators and transmission lines] Soglasovanie si=etrichnykh vibratorov a fiderom; ucheb- noe posobie po kursu "Antenny.11 Moskva.. Pt.2., ch.2. 1962. 89 p. (MIRA 16:4) 1. Vsesoyuznyy zaochnyy elektrotekhnicheakiy inititut avyazi. (Radio lines) (microwaves)     S/27SJ03/000/662/016/032 An application of, simulation-... D05 D301. s., equations of the band filter -with re ondnce~ circuits.,was 'ef-facted by means of 4 inte&ators.and- a: surmiator. 1-n distinction to actual W-filters, -wl-d6h owing: to their,size -are not feasibl6-~i,*thin. the frequency-range used in electro-encephalogrip~hy, and to.*circuits~ s and t, incorporating twin-T filter ine rep6atcr-a. of.higher complex ty,,~ which are very. difficult to tune,. e Model..'filter i* -these s~;free of shortcomings. The. modcl-fi Iter:. ensure s -a 1 BIJecift ed ~assband iaidth; ~'w_ the I?assbatid ~,atnd-~ uff 3.ent enua-- f adequate - unifloxviity within t I ic att 0 s tion-ste.epness;, it'is easy to rQtUrLC' and has high'input'Impadance. aud low output imped--ice. The m,odel constructedis used for s ling out -various rhytIuas Crom ~the e-_,ectro-encephal6gram for the Ir atl'h~Auri quxatitative and qualitative' evalu .*o ng f ixed-_ intervals of:.~::- ~time. Thz- quantitative estimite-of-the-mean activity-of the various,.,,,:-: rhytlwm m-id of the- integral curve is. effected'by means df.:oPeration-,':,,:.%~ al integ-rator-amplifiers.' -For conv;anien e, the integration result c is coiwcrted into digital form. A -calibration- oscillator was deve--, loped for tentingr and calibration o al I the.channels.of the electro_-~. encephalographic setup; it too, uti izes o crational ai~plifiers :2 s The setup can also be uced for other 1avestigations. ref6ren'ce Z-Ab tracter's notc; Complete trzahs !at' -1 card 2/2:, ~01 L7  KAVUN, Ye.S.; MITRIYEV, A.R.; KONIKOV, V.G.;--~MNOV, V.V.; YAKOVLEV, A.V. Digital tracking systems using ferrite and transistor cells. Avtom. upr. i vych, tekh. no.5:23:iw294 162. (KM 15:9) (Automatic control) (Electronic calculating machines)  S/573/6~/000/007/015/015 D201/D308 'WTHO V RS: Semenov, V.V.*,, Stepura, E.F., Tarasov, A. and .0, TIME: ',,n electronic pass-band filter for an EEG pattern analyzer SOURCE: Zdcademiya n-nifl-: SSSR. Institut elelctromellchaniki. Sbornilc rabot po vopros*am elektromelchaniki. no. 7, 1962. Avtomatizatsiya, telemekhaniz'atsiya i priboro- stroyeniye, 373-375 TEXT: The authors show the possibiLity of designing very low frequency pass-band filters using electronic analog techniques. An analog of a passive pass-band LC filter is taken as an example. . i-tiversion. An It consists of 4 integrators and an adder for si n experimentally designed filter of the analog type had a 3 db pass- band of 4 c/s at a center frequency of 9 cls, The filter was used to detect the ot-rhythm. These filters, having a very high input impedance, may be easily connected to other instruments, their tun- Card 1/2  S/573/61/000/007/015/015 ,',,n electronic pass-band ... D201/D308 ing is simple and they nay quickly be switchcd to other frequencies. Various tT,?cs of filters can be built from the same standard units. There are 3 figures. t Card 2/2  SUIENCIV) f~.A,; POLYKOVSKIY, A.M.; SEIOOV, V.V., otii. red.; VRON.SKAYP, L.S.,, red. -i~_ t-- t - - , [Surface-wave lines for television transmissionI Linil poverklmostnui vobV dlia peredachi televideniia. Moskva, Red.-izd. otdel VZEIS, 1963. 71 p. (MIU 18:3)  VORONOV, A.A.; SEWNOV, V.V~; STEFURA, E.F. Problems concerning tht control of a diasel--alectric drive. Sbor. rab. po vop. alektromakh. no.9:154-160 163. (MIRA 17:2) a  SAKHMANOV, A.V.; SENENOV, V.V.; STEPM, E.F. Regulation of the velocity of a hydraulic turbine.-generator-unit with- consideration of perturbations. Sbor. rab. po vop~eletromekh. no,c): 314-323 163. Network for the automatic control of traction motor load. Ibid.:145- 153 (MIRA 17:2)  S.DEENCII 1'r v Lij-'; BELTYAYEV, kEind. ~Ekhr..ilnuk i ii L, c F fz t I y d e 2 1 C p ow e r ~i n r, e e rni Za i a 4. '1 - 1~;'- of' Slbavian Fi-.glt.~e-t-ng t A,- 3~ [I. 'r---,j::V ME' r--I. '6L97-' 10 0' 't~ 18-3) 2. iiuiftidra gidr-ceneiget.,iki i. All Kazakhskoy '~t`skc,gc instl rmta kffu~, -f5 -nov, . s~ go ordarta L~n Ln'N' etltltl'iN-l I A ".1 w erej,g~! dk~m:-'K "! 'nt3 t ttiv, AN SSSR i ::!- Be lyayev  ACCESSION NR: AT4035417 5/0000/63/000/000/0257/0264 AUTHOR: Stepura, E. F.;.Samenov, V. V. TULE: The use of magnetic amplifiers for multiplying two or more electrical signals SOURCE: Vsesoyuznoye soveshchaniye po ferritam i po beskontaktny*rn magnitny*m elementam. avtomatiki. 3d, Minsk. Ferrity* i beskontaktny*ye clementy* (Ferrites and noncont.ict elements); doklady* soveshchaniya. Minsk, Izd-vo AN BSSR, 1963, 257-264 TOPIC rAGS: computer, multiplication, magnetic amplifier, product' unit A13STRACT: A conunon magnetic throttle amplifier -with bridge-circulted alternating~ current coils was examined as the product unit in a study of its possible use for multiplica- tion. As seen From the equation for the outlet voltage of a magnetic bridge amplifier U., A . + Y. /-'C where A is the .-oefficient of proportionality, U.- is the feed voltage I is the current in the amplifier, x is a throttle constant, depending on the core material LYgeometrical dimen- sions, and F. is the magnetizing coil force, to secure more accurate multiplication results it is necessary to make the quantity A as nearly constant as possible, which can be achieved Card 1/2  ACCESSION NR: AT4035417 either by cascade interconnection of the magnetic amplifiers, or by functional modification of" the initial bias of the magnetic amplifier so that within a given range of the variables IY and U^- A- - = const. + it F, (2) The product unit constructed by the authors has the following technical characteristics: the saturation throttle cores are made of E-42 steel with 1500, 650, 185, and 800 turns in the alternating current, bias, balance and control coils, respectively; the total resistance in the balance coil circuit is 220 ohms; Io = 200 ma the magnetizing force = 160 arnpore-turns; 1y -4 0. 12 a; U-::~-. 60 v, and the feed voltage frequency = 50 cps. Products of three and more variables an well as integer powers of one variable as well'as integer powers of one variable can be obtained by means of the product unit. Orig. art. has: 15 figures and 8 for- mulas. ASSOCIATION: none SUBMITTED: 04Dec63 DATE ACQ: 07MayG4 ENCL: 00 SUB CODE: DP \NO REF SOV: 006 OTHER: 003 Card 2/2   J ENT -"L 1947~45 -A ;~Acc 0011. 0 ~j ESSI NRI.' AP40454c, 0., Ad Se -A UTHbA: menov. FA TITLE: Equivalent boundary cohditioni f6 1ka. 'SOURCE. -.Rad'otekbn TOPIC: TAGSf C W4 kyegu, Dry. fielivil, wa VegUl 'e:'L b- :~ABSTRkCT:_-.-F'4 21-141 31r a-fflor . , oun stirnatini:tbe -loose -of gne c- wa e a :.-dection tk ia actual. s" t era from the -corre cros . sec ion al- d:, (a) n Yze 11njpe ancb.- oun ary,-coh Itiol a -in a 4ielectric-sheatim zirikal J_ surface with' LATIO A -SUBMITTED. N6463 lk* 14 S UB - C OPZ E I Cam 4 ,:`1 - 744 700,; 1 V 1196 helida r t ye ppe e P4., Jp p,4. ik;~: sea Vr.ing va .veguidd-la, ng .-a: !V,~coii~ dmi 6t4h~anisph -rm .0 0,  VOROW)V, Avenir trkadlyevich; BE3EKERSKIY, V,,A.,, doktor tekhn. nw.Lk, retsenzent; SEtEI[OV,'K,Y.,q kand. tekhn. nauk, na-ichn, red.; PAVI.OV.~,-'L-.S.9red. [Fundamentals of the theory ot automatic control] Osnovy teorii avtomaticheskogo upravleniia. Moskva, Energiia. P",1. 1965. 395 P. (MIRA 18.7)  SIDELINIKOV,, V.V,2 kand. 'ekiin. nauk, otv. red.; AMBRO30VICH, V,-Tj,, GARBUZOV, A.T.R., red.; SDI-YEENOV, V.V., kand. tf-,kh-r.,. nauk, WILRITYSMA, (Au-tGma-tic a-rid dist-ance-type data trarsmitting systems] klr~onatiche~;kie i teleinfornatsionrrie sistemy. Moskva, Paulka- 1965. 299 p. W11RA 18- 8) '14 Lit elektromel haniki. 1. Leningrad. fnst  L~58544-65-1---Ek(d)/ F( Pc-4TPae-2/Pu-4/0k~-74/Pl-~4   S04RIIJOV. V - V. K-MELT1011 ? !,,V C C I,:~,ndor. -20-25 jaaa 1966 -D proceat a re.,nar ant Vic- Coa.,razlc: u Principles of Control Algorithms Synthesis V. V. Solodovniko-T USSR for Analytical Adaptive Control Systems V. V. Semenov USSR  S-7.~E'."OV) V..,V. . Fast waves in a helical wali-eguide with, a dielectric coa-~-J-ng and metal casinl--. Radiotekh. i elektron. 10 no.12:2240-2242 D 165. (mi.-ru 19:1) 1. In.,;Lltut radl.oteklm.U-1 1 olokIl-'ronjAci AN SSSR.  ACC NR, AP7006034 SOURCE; CODE: UA10288166/66~1602 GRABOVLVSKIY G. V., SEMKOV V. V. AND PETROV E. L... Novosibirsk Institute of Electrical Engineering (No-~6sibirskiy elektrotekhnichoskiy institut) "~hthematical Analysis of the Rectifier-Type Frequency Converter" 1. Novosibirsk, Izveitiya Sibirskogo Otdeleniya Akademii Nauk SSSH (News of the Siberian Division of the Academy of Sciences SSSR), No 6~ 1966,, pp 84-97- -Abstract: The article deals with the rectifier-type frequency converter; this,, ~is a device which finds increasing application in converting power-line frequency. to 500 1000 Hz- The system described here has a stiff external characteristic i and produces a nearly sinusoidal output voltage; it operates over a wide range 0fj loads and that includes no-load, which is impossible'with other known systems., as well as regeneration i.e. pumping energy back into the line. The analysis begins with the no-load condition, whereby both the single-phase and the three- phase versions are considered; the formulae are later modified to account for the presence of a resistive and inductive load. Calculations are made by the method of harmonic components and, thus, the distortion of the output wavefona is shown to be insignificant even at no-load; consequently, it is not necessary to consider the highqr harmonics in these calculations. In addition, the plate .current and the peak-inverse-voltage are determined, also the recovering time .o of the rectifier: namely, the time it.takes for the rectifier to resume control Card  ACC NR,-AL,7006034 after the plate current has ceased to flow. The formulae established here can be useful In designing individual components of this converter circuit., whether the latter emplbys a switch or a conmutator (thV'ratronsjo thyriators)."6Ag.-'art.--' has': 5 figures and 4o formulas. CJPRS.- 39,561i TOPIC TAGS: frequency converter, eleatronio rectifier MB CODEs 09 SM DATEs 01Ju165' ORIG REF: 004 Card Z/Z  L 32635-66 FBPZEiiT(l)./giYp(,-)&~,IT(m)/EEC(k __ I/I./EAP(k 1JEU) 01G_ ACC NRs AP6018740 SCUICH CCDE: UR/0057/66/036/006/1115/1.97 a AU771OR: Yevtushonko, T.P.; Malyshev, G.M.; Ostrovskaya, G.V.4,Sftenov, V.V. ~7 45 ORG: Iraysicotechnical Institute im. A.E.Ioffe, AN SSSR, Leningrad (Piziko-t( iy institut) t TITLE: Investigation of a spark in air with the aid of two synchronized lasers S(XJFCE: Zhurnal tekhnicheskoy fiziki, v. 36, no. 6, 1966, 1115-1117 TOPIC TAGS: ruby laser, laser application, spark shock wave, shadowgraph photography ABSTRACT: The spark produced in air by focusing the 0.54 giant pulse from a ruby,