SCIENTIFIC ABSTRACT TERENTYEV, B.P. - TERENTYEV, G.V.

Electric Power supply (cont.) SOV/1554 6. Current in the transformer primary winding 24 Transformer losses and rectifier efficiency 26 ;06 Utilization factor of a transformer 27 9. A-c voltage component 31 10. Rectifier external characteristic 33 Ch. IV. Lossless Rectifier Operating Under an In- due'-ive Reactance Load 35 le Rectified voltage 35 2. Secondary winding current 36 3. Volt-amperes of the secondary winding 36 4. Primary winding current and line current 37 5. Volt-amperes of the primary winding and of the whole transformer 39 60 Effect of residual magnetism 40 Ch. V. Rectifier With Losses Operating Under an In- ductive Reactance Load 43 1. Rectifier operation with inductance in the plate circuit 43 2. Rectifier operation with resistance and re- actance in the phases 48 Card 4/1o  Electric Power Supply (Cont.) SOV/1554 3. A-c voltage component of the rectified voltage 49 Ch. VI. Rectifier Circuits 50 1. Single-phase circuits 50 2, Two-phase circuits 51 3. Rectifier circuits with voltage multi- plication 60 40 Three-phase circuits 63 5. Six-phase circuits 63 Ch. VII* Smoothing Filters 71 1. General considerations 71 2. Design of filters for smooothing ripples R 3. Design of filters for 1-f amplifiers 0 4. Design of filters for radiotelephone transmitters 85 5. Design of filters for radiotelegraph transmitters 88 60 Overvoltage in filters 92 Card 5/10  Electric Power Supply (Cont.) SOV/1554 Ch. VIII. Design of Rectifiers 96 1. Design procedure 96 2. Designing a rectifier for a receiver 101 3. Designing a rectifier for telegraph-tele- phone transmitter 107 4. Design of filter chokes 115 50 Example of filter choke design 119 Ch. IX. Regulation of Rectifier Voltage 124 1. Types of voltage regulation 124 2. Voltage regulation on the d-c side 124 3- Voltage regulation on the a-c side 125 4. Voltage regulation by changing rectifier parameters 128 5. Protection of rectifier equipment 135 Ch. X. Current and Voltage Regulators 141 1. Current regulators 141 2, Circuits with gas-tube voltage regulators 142 3. Vacuum-tube voltage regulators 144 4. Voltage regulators with saturable reactor 148 Card 6110  Electric Power Supply (Cont.) SOV/1554 5. Electromechanical voltage regulators 152 Ch. XI. Mechanical Converters 153 1. Vibrators 153 2. Electric machines for power supply of radio equipment 155 Ch. XII. Chemical Sources of Electric Power 16o 16 Applications 16o 2. Galvanic cells 160 3. Storage batteries 162 Ch. XIIIs Transformer Substetions 172 1. Step-down substation 172 2. Power transformers 173 3. Oil circuit breakers 176 4. Disconnect switches 180 Instrument transfomers 180 Emergency and breakdown protection 182 Card 7/10  Electric Power Supply SOV/1554 Substation circuit diagram 184 Layout of equipment in substations 186 Ch. X1V* Power Supply Radio Transmitting Stations 187 1. General layout 187 2. Control and blocking equipment for radio- transmitters 190 3. Power supply of filament circuits 196 4. Independent electric power stations 202 Ch. XV. Power Supply of Radio Receiving Stations 204 1. General requirements of power supply sources 204 2. A-c power supply 3. Power supply from d-c sources 207 Ch. XVI. Power Supply of Radio Relay Stations 210 1. Power supply systems 210 2. Power supply from a municipal system 210 3. Power supply from auxiliary power stations 211 4. Thermoelectric generators 211 5. Power supply from storage batteries and Calvanic cells 213 Card 8/10  Electric Power Supply (Conto) 6. Remote power supply List of Symbols Subscripts Bibliography Appendices - Basic Technical Data I* Low-power kenotrons II. High-power h-v kenotrons III. Gas-tube rectifiers IV* Thyratrons V. Mercury-aro lamps VI. Germanium junction diodes VII. Selenium rectifiers VIII. Current regulator's (barretters) IX.. Gae-discharge voltage stabilizers SOV/1554 224 216 217 218 219 219 220 221 222 223 223 224 224 224 Card 9/10  Electric Power Supply (cont.) SOV/1554 X. Motor-generator sets 225 XI. Rectifiers with inductive load 226 AVAILABLE: Library of Congress (TK6561.T38 1958) qPlrj 6-8-59 Card 10/10  sov/lo6-59-3-7/12 AUTHORS: Terentlyev, B.P. and Mazhugaq A.F. ................................................................ TITLE: A Study of the Phase Relationships in Decimeter Wave Oscillators (Issledovaniye fazovykh sootnosheniy v generatorakh dtay) PERIODICALtElektrosvyazl. 1959, Nr 3, pp 46-54 (USSR) ABSTRACT: A measuring apparatus is described for decimeter wave oscillators under practical conditions, when account is taken of the subsidiary phase shifts in the various connectionn to the oscillator valve. Previous measurements by R.A.Granovskiy (Ref 1) had not taken the subsidiary shifts into account. Fig I shows a block diagram of the apparatus. In the oscillatcr circuit points are provided to which the measuring probes may be attached at specified distances from the electrodes of the valve. Betureen the valve caziillator and the indicator proper there 13 a supplementary circuit in duplicate containing variable attenuators and phase shifters which control the outputs of the two probes before passing them to the indicator circuit. The latter consists of two matched lengths of co-axial Card 1/4 lines connected by a length of wave-guide. A detector  sov/lo6-59-3-7/12 A Study of the Phase Relationships in Decimeter Wave Oscillators in the centre of this guide is followed by a detector, amplifier and indicator. The device is essentially a balance indicator and the contrals in the supplementary circuit enable phase shifts and amplitude ratios relative to a reference condition to be measured. The principle therefore avoids the effects of parasitic capacitances and inductances in the various f-lements, harmonic components in the signals, no"-se and the accuracy of the indicator itself, since ths latter is m.--rely used as a null device. The errors %,hioh &re relawart, however, are as follows: variations in the phase chara-~teristics of the coaxial lines; inequalit-'sa in ti-e probes and in their couplings to the oscillat,~-- cir-tuit-, inaccuracy in establishing zero on the output indicator; changes of delay in the attenuators as the value of attenuation changes; changes in the frequency of the oscillator during measurements. Where appropriate, forapilae for each of these contributions to the total error- are Card 2/4 derived on pages 48 to 50. In reckoning the overall  sov/lo6-59-3-7/12 A Study of the Phase Relationships in Decimeter Wave Oscillators error separate contributions are added on an rms basis. When the measuring line impedance 1;,95% of its load the overall error is reckoned at + 151 and when the fraction is 86% the error is +-50301. Measured at any probe point the oscillator may be represented as a short length of line with a load at one end. Curve I in Fig 2 shows how an ideal oscillator will look, while curve 9 shows how a real oscillator will appear when losses are present. The valve chosen for the measurements was type QI-7B working at a frequency of 1150 Mc/s. Circuit diagram of the oscillator is shown in Fig 3. The . phase curves in Fig 2 were taken at a bias voltage of -7 V. From the measurements the effect of load resistance offered by the anode-grid circuit is equivalent to 0.10f1; the value calculated from the resonance -Virve of the circuit in the cold valve amounts to 0.09JL Using the measured value the efficiency of the circuit is 63%. The phase shift between two points in the grid--cathode circuit is shown in Fig 4 as a function of bias. Fig 5 - 10 show how the frequency deviation, anode Card 3/4 current, power and inter-electrode phase shift vary as  sov/106-59-3-7/12 A Study of the Phase Relationships in Decimeter Wave Oscillators a funct-ion of anode voltage, grid-bias and load voltage. There are 10 figures and 4 references, 3 of which are Soviet and I English. SUBMITTED% 5th June 1958 Card 4/4  sov/lo6-59-6-4/i4 AUTHORS: Belotsvetov7 Yu.V., and Terentlyev, B.P. (Professor Dr.Tech.Sol.) TITLE: A Frequency-Divider Circuit Using aNlse-Phase Detectoz, (Skhema deleniya chastoty s ispolIzovaniyem impul'sno-fazovogo detektora) PERIODICAL: Elektrosvyazl, 1959, Nr 6, pp 25-30 (USSR) ABSTRACT: The article describes a frequency-divider circuit which enables a dividing ratio 'In" of the order of several hundreds to be obtained. n where fjM and fBr are the reference and the controlled frequency respectively. The block diagram is given in Fig 1. The sinusoidal voltage of the controlled oscillator (VV) is converted to a pulse of duration in the pulse forming stage QV). The duration of the pulse is chosen so that -V u = T,% M (M + 0 Card 1/3 where T9m is the period of the reference frequency and M = 01 1) 2) as.*@ *The pulse is compared in phase  R~~M SOV/106-59-6-4/iL, A Frequency-Divider Circuit Using a Pulse-Phase Detector with the voltage of the reference frequency in the pulEe- Phase detector (,IM ). If the frequen(.:y ratio of cn-I to the other is not a whole numbert then at the output of the pulse-phase deteotor appears a voltage with a frequency f P equal t-:~ fp :r_ f 3 M fvo- This controlling voltage is passed through a low-fvequrjzv:y filter (~.~ 'I to a rea--tive valve ( RL ) whir:h ~,ont'-A-ols the frequenci of the controlled oscillator. The f:rPq-aer,.-;j of tho Qontrollerl oscillator will change until its harmonic nfVr, equals the referenca froquency. Tho natural frequenoy of the cont~rolled oscillator shoald t,- near to -LAA- fVT ri and for stable operation, the stability of the Card oscillator A f 2/3 _iVQ' - __ fVG must not be worse than 1/2n  Jov/lo6 - 59 - 6-4/j-4 A Frequency-Divider Circuit Using a Pulse-Phase Detector V5. < 1 ( _31) 2n The experimental circuit (Fig 3) is described and the experimental results given. The controlled oscillator operated at 10 kc/s with values of n from 1 to 750. The locking-on and holding-on characteristics7 the amount of parasitic frequency-modulation, the temperature stability, and the stability against supply voltage variation, were investigated. Finally, this type of frequency-divider is recommended for use in cases wher6: 1) n > 20; 2) a frequency net, free from low frequency harmonics, is required; 3) an ultra-low Card frequency oscillator (of the order of 1 - 0.1 c1s) is 3/3 required. Transistors can be used for all the stages and the circuits then become very compact and economical. There are 6 figures, 1 table and 1 Soviet reference. SUBMITTED: November 15, 1958  67378 9.32-40 SOV/106-59-9-5/13 AUTHORS: Belotsvetovq Yu.V.2 and Terently"2_11AI TITLE: Analysis of Frequency-Multiplier Circuits with a Pulse- Phase Detector .1b PERIODICALS 91ektrosvyaz', 1959, Nr 9) PP 35-43 (USSR) ABSTRACTS The block diagram of a frequency-multiplier circuit with ~ pulse-phase detector is given in Fig 1. (Fig 2 gives ~ similar diagram for a frequency-divider circuit). Block 1 Is the local driving oscillator tuned to a frequency approximately n times smaller than the reference frequency f). The output voltage of the local oscillator is converted in the pulse-forming circuit (block 3) into pulsesl the duration and shape of which are not critical. These pulses must satisfy only one condition: their spectrum must contain the nth harmonic of the local oscillator frequency. The generated pulses are compared in phase with the reference voltage in the pulse-phase detector (block 5). The Card constant component (or the low-frequency voltage) from 115 the detector is filtered in the low-frequency pass filter (block )+) and applied to the grid of the control element (block 2). This element tunes the local oscillator until  67378 SOV/106-59-9-5/13 Analysis of Frequenoy-Multiplier Circuits with a Pulse-Phase Detector its.frequency is equal to one nth part of the reference frequency. In practical circuits, such as described in the author's previous work (Ref 1) values of n between 500 and 800 can be easily obtained. The authors then show how the locking-on and hold-on bands depend on the parameters of the filter. It is shown from theoretical considerations and experimental results (Table 1) that the output voltage of the detector is proportional to the harmonic used, and further that the interaction of the pulse train and the sinusoidal reference voltage in the pulse-phase is equivalent to the action of two sinusoidal voltages, one of which is the nth harmonic of the pulses of the synchronising train. This is generalised to the application of any two periodical time-functions to any multiplying circuit, providing that a voltage is obtained at the output of the non-linear circuit which has an angular frequency Card 6w = nwl - kw2. Providing that wl and W2 are 2/5 related by some vhole numbers p and f, then integers n and k can be foundq such that aw = 0. Then  67378 sov/lo6-59-9-5/13 Analysis of Frequency-Multiplier Circuits with a Pulse-Phase Detector the detector output will have a constant component, the magnitude of which is determined by the phase difference of the harmonics '!' T = Tn - %0 K After filtering, this constant component can be used for tuning either of the original functions. Furthermore, since this is a d.c. voltageg RC filters and other circuits, having "inertial' can be connected in the circuit. Thus, the hold-on regime can be described by the usual differential equations applicable to a phase) automatic frequency control system having equal controlled and reference frequencies. From these equations, the locking-on band is obtained from p = CZ3m IJB r (3) OBr Card where JI p is the angular frequency of the voltage formed as a result of a non-integer frequency 3/5 multiplication; a.). is the reference angular frequency; c-58r is the angular frequency of the controlled  67378 sov/lo6-59-9-5/13 Analysis of Frequency-Multiplier Circuits with a Pulse-Phase Detector oscillator. Before the voltage from the detector is applied to the grid of the control element (a reaction valve), it is modified by the transfer function of the filter. The well known function for a pulse system of phase, automatic frequency control with an integrating filter e+ E) 2X + F(G 81 (4) is used. e is the variable phase difference; 2X is the attenuation; F(G) is the normalised characteristic of the phase detector; 8 is the relative detuning increment. This equation was considered in previous works (Refs 2, 3t 10 for the case when F(E) ) = cos 9 and the relationship (Eq 5) between the relative locking- on band 84 = and the dimensionless time constant of the filter & =(8/70.aTt (T is the filter time constant) was evolved. Fig I shows graphs of 6~) against 6 . The author next investigates the Cclird stability of the circuit by using the frequency method 1+15 described in Refs 5 and 6, and application of the Nyquist criterion. The following conclusions are made.  67378 sov/lo6-59-9-5/13 Analysis of Frequency-Multiplier Circuits with a Pulse-Phase Detector 1)With small values of Tj I the region of stability reduces with increase izr the proportional part (Rl and Cl of Fig 1+) of the proportional-integrating filter. With T large, the stabla region increases under the same colditions. 2) When Tp/T = 0.01-0.25 (where TP is the period of the pulse train), the stable region increases as the value of the proportional part of the filter is increased from zero. After attaining some optimum value the stable region begins to decrease. Finally, the authors consider the case for a half-T section LCR filter for which Eq (13) is applicable. The results of the analysis were checked experimentally. The circuits used were as given in Ref 1 and also in Card Fig 8. The experimental details and procedure are 515 described. There are 8 figures, 1 table and 9 references, of which 8 are Soviet and 1 English. SUBMITTED: February 25, 1959  it IL A- 0:6;. tp .. ~j 12 (c 10.w 16 IL NL I-n-4 --P4~ -P. IL km~ P. A. ltjw~ A~v a :lv~arw It It in 22 AL C. ctow"ll Ititanxillms "me (c 10 so 14 Lc ox It CV.4"" era w4bat"d ew fjbp C~Wb=Kj" nft%&" ot MW S~Ioo*lrlo of m.ju sg&.wim ma Mmkiml Omwmalmtl~ Is. A. 8. Popw MIMS), ll~, &22 is=.  pq IL la ClItIRIS 19FL4AAMn MPOSUB F"-~ IL L %*- so" Qz N! 14 OL t x4_ ;a 27 L IL 08 W,"- (e 10 A" is ~ftj r- IL t~ -4-4 am L It has- M.-A v---mwb se .6"v-& t. tw O..6,MUAJ nwtlns at Uo a-le"U" tvabNolmelft, *"10", or ftj~ mostnowto =A sloswuma Commoloation 21L. a. 4. PVPW Mash WOOMOWO Ws avo.  BELOTSVETOV Yu. V. 1. TERKIT YiN , D. F Possibility of fractional matipli.catiqn and division of frequen--jr. Nauch. dokl. vye. shkolyj radiotekh. i e'lektron. no.2tll?-125 159. (MIRA 14:5) 1. Kafedra radioperedayushchikh ustroystv Moskovskogo elektrotekhni- cheskogo instituta svyazi. (Frequency cliangers)  9.3270 '(81,45 sov/lW-i~-5-6/iy AUTHORz Terentlev', B. P. TITLEi --d-nPlate Modulation in a Cascade Operating With Common Grid PERIODICALi Radiotekhnika, 1960, Vol 151 Nv 3j PP 31-1~54 (USSR) ABSTRACTiq The paper, describes the chartictertatici of plate modulation In a cascade with common grid. The baiic peculiarity of' thli cz.,.scado c-onslntj In tho Ca(A that the oscillation voltage UO of the circuit eqwals the sum of the plate voltage U,, and the grid voltage U 91 I.e ., UO =z UEL + UE, The dynamic characteri-.Aics are shown on Fig. 1 where they are plotted under the assumption that Ug, and the grid bias voltage E 9 are conot'rint'. Jt~j tjjj..,j (!,twl tll(-, alaximum 1.n,,;tarjtaneou-,, grid Voltage 0g, max 111 111:10 conlit"mil, Thl"I rilenno C.avd 1/11 that at any value of the cf-c supply plate volta-e E a)  MP ''late Modulation In a 'Ang With Cojunon Grid Fig. 1. 7 8 14 SOV/108-15-3-U the upper end of the dynamic characteristic Is on the oab line (Pig. 1). When E adecreases, the plate current decreases and also U 0 decreases in proportv'ion. However, the alternating plate voltage U a will de- Card 2 /4 crease more rapidly than E asince U a = U0 - U9 and  oti i,,tate ModulatIon it, a o!)evating With Comr-rion GvId mv/l I - IJ conot. Thoreforc, t he dywimic charactei-if-01-ic will approach a vertlell illie (compavL~ E' atid E,~ -'n I I When 110 = U[P the voltage tj a equalo 0 and the dynamic charactevis~lc 1:3 zi ver-tical line (E on FIC. I) . A fUlA110V 01, lead:, to ~% III the U Ll sit"ll nrld tile dynairlic t i dLvectloil of* the left Oil L A t, E, C) , t i i,-- tube OpCL-atulu I.; ;A:Aud tiiat It, tiie above ca,.*~e .-ilicn U con-,t md P"i, ~ c- C) n.3 l; the Url,2--rlty Of the modulation Churactet-1:0,1C at I o w H, V~IIUC:~ IS d I s t u i-bed . In ovdev to Improve the purforitiarice, of the cascade under conoider-,-ition, U i!~ to made to vat-Y In accoi.~dance viLth E while E cori.-~t. It 1~3 ohoiin that in this case, It' U Triax Z-i n C1 U mIn Live knowrij L, rrlo-ju- .:n "d lation coefficient  On Plate Modulation In a Cascade Opevating With Common Grid 4- 1 '01143 ~j SOV/103-15-3-ViT may be obt-ained for wh[ch the modulation characteL-- Istic to itnear. in mo.,,3t tubes the optimum U 1, r. I n 'Is within 0.1 to 0.1~ U g, max, and m Ilf ~ 0.3 to 1Y . In the case of grld-leak bLa:3, tile nlagn It tide of' m, is not critical 31rice the gpid-leak ro-ilutance hoi3 ain equalizing action, so that considerable dev lat ions from the optimum ni i-11 W111 not. 110ticelibly tllt~ modulation characteristic. There are and 2 Soviet references. :',1JN4rr,rLD: September 15, P",) :-11,11 1/)1  89828 S11061601000101110021010 3;~.6 0(a Aso lo 6 7 A055/033 AUTHORSt Terentlyev, B.P. and Shakhgilldyan, V.V. TITLE: Automatic Phase Control as a Means of Obtaining a Highly Stable Regulated Frequency PERIODICAL: Elektrosvyazt, 1960, No.11, PP-15-2o TEXT: Automatic phase control ensures greater stability of a synchro- nized generator than doVs automatic frequency control. An automatic phase control system is therefore described in the present article, this 8YStem allowing to control the frequency Of stable generators within any portion of the frequency range. Inter]polation methods of retuning h.f. generators are widely used nowadays. However, in order to suppress effectively the spurious combination-frequency voltages, the systems based upon these methods require the use of a great number of high-quality filter-chains. The automatic phase control system described by the author of the present article eliminates this disadvantage. This new system is shown schematically in Fig. 1. Oscillations from the synchronized generator (frequency6)') and from the 0 Card 1/4  89828 S/106/60/000/011/002/010 A055/AO33 Automatic Phase Control as a Means of Obtaining a Highly Stable Regulated Frequency standard generator (frequency(jo) enter into the mixer, at the output of which appears the difference frequencyAW-A-Wo. The difference frequency voltage is applied to the phase detector, which receives at the same time a voltage (frequencyQ) from the shift-generator. The comparison of the phases of these two voltages takes place in the phase detectorp and as a result, a re- gulating voltage appears at its output. After filtration of spurious oscil- lations by the low-frequency filter (7), this regulating voltage is applied to the regulating element which produces the correcting detuning. The stea- dy-state (synchronization) conditions are set up in the system when9l is equal to,64). In the first part of the article, the author gives a comprehen- sive theoretical analysis of his circuit. For a given frequency range of the shift-generator, taking into account the Possible absolute instability'A616of the synchronized generator (the synchronized generator frequency having to be fixed in the center of the retuning range),he develops, a formula giving the highest frequency Qlat the output of the phase detector, at which the transmission factor of the filter (considered as ideal) must be equal to one. Card 2/4  C962) S11061601000101110021010 A055/AO33 Automatic Phase Control as a Means of Obtaining a Highly Stable Regulated Frequency He also determines the requirements towards the frequency characteristic of the filter. 'The question of spurious components being -;ery important, he uses, for his phase detector, such circuits as ensure the minimum output level of combination-frequencies. He finally reproduces a formula giving the index cf spurious phase modulation and showing that this index can be reduced either by decreasing the transmission factor of the filter at the spurious frequency or by increasing the signal-to-interference ratio at the filter input, i.e.1by using the most appropriate phase detector circuits (balancing circuits or ring-type circuits). In the last part of his article, V/_ the author gives a detailed connection diagram of the automatic phase con- trol system in question. This diagram is accompanied by a short description of the principal component parts. The method of measuring the synchronizaVon ba:nd and other measuring methods are also described. There are 7 figure3, 1 table and 6 Soviet references. SUBMITTED: May 14, 196o Card 3/4  TFMNTIYEV, B.P. Plate modulation of a stage with a common grid. Radiotekhnika 15 no-3:31-34 mr 6o. (NM 13:6) 1, Deystvitellnvy chlen Nauchno-tekhnicheakogo Obshchestva radiotakhniki i alaktroavyasi iment A.S. Popova, (Modulation (Blectronice))  30139 S/194 61/000/007/069/079 D201%,303, AUTHORS: Shakhgilldyan, V.V. and Lyakhov_ IfMn A9',A TITIS; A UHV radial system of radiOcOmmunicati on with time division of channels PERIODMAL; Referativnyy zhiarnal. Avtomiatika i radioelektronika, no,.7 1961, 2, abstract 7 P (Tr.'uchebn. in-tov avyaxl,, 14-vo avyazi SSSR, 7.960, no. 3, 51-58) TEXT: A system is described of radial U11F radio communication as designed in 1957-1958 at the Moscow Electrical and Technical Insti- tute of Communication, This is a multi-channel system with pulse- position modulation. Operating frequency range 400 me/a. The sys- tem is tuned according to theS3rinciple of a communication grid i.e. there is a central station (C and several exchange stations. Communicatio,n between two oxchange stations is established by the commutator of the CS. '11irough, it, any exchango- gtiLtion nay be cen- Card 1/2  30139 S/194/61/000/007/069/079 A UHF radial system... D201/D305 nected to any of the subscribers of the distribution network. The number of channels at CS: 10. Pulse duration: 1 micro second. Gross-talk interchmmel attenuation Pj 60 db. The peak transmit- ter power of the exchange station: 30 W17. The bloc-diagrams and other particulars of he system are given. Z-Abstracter-s note:. Complete translation Card 2/2  AKSEFOV, Vladimir Nikolayevich; TERENTIIEV,__P.P., otv. red.; NOVIKOVA, YO.S., red.; MkRKOCII, K.G., tekhn, red-*-- (Rectifieri and transformer substations) Vypriaritell i transforma- tornye podstantaii. Moskva, Goo. izd-vo lit-ry po vopronam aviazi i radio, 1961. 439 (MIRA 1/,.:1l) (Electric subst Plons) (Electric current rectifiers) at  XLYAGIN, L.Ye, prepod.; SHTEYN, B.B., prepod.; BOGOSLOVSKIY, Yu.V., prepod.; KALASHNIKOV, N.I., propod.I_TERENTIYEV B P~,~ prepod.; ROZENTSVZYG, I.Ye., prepod.; VASIL'YEV, Ye.K.,, prepod.; PETROV, V.F., prepod.; SHUMILIN, M.S.; GALOYAN, M.A., red.; SLUTSKIN, A.A., takhn. red. (Radio transraftting devices]Radioperedaiushchie ustroiatva. Moskva, Sviazlizdat, 1962. 710 p. (MIRA 16:4) 1. Kafedra radioperedayushchikh tekhnichaskogo instituta avyazi Galoyan, Slutskin). (Radio-Transmitters ustroystv Moskovskogo elektro- (for all except Shumilin, and transmission)  Dr. ~a' sc, ctnces AUTFOR: Zhelu(._1ey T . antcv' (Engineer); T)rentlvov B. P. (Dr. TI-III-E- Calibrating propertio,? cf ferroeIoctric cry3tai-- linving roctangular dielectric-hystereols 'loop SOURCE: Elektrichestvo, no- a, W3, 6-4-70 TOPIC TAGS: ferroelectric cy-jstal, hy3teresis loop, rectangular hysteresis loci), dielectric hysteresis, triglycine bisnutn titanate cr- 103TRACT: A 3uggestion 'Ls made to use ferroelectric ystalz) instead of standard cells in precision voltage stabilizers. As a good crysta-I can svitch practically c- unbe r cons,-a-nt charge, he ys--a- can a age soarce . A 7, of y-cut --nd plates were The latter material tested at 301 coc an,~ 300 ,, croved to be z)articuiarly -4/, gr e as it exhib'-ted a low termerature vo ',P-c-e Coe.'-'L--4-ent 5.6 x 10 de e vithin -72 4-52C range. ThIa charactor-L-c --c c~ b-!.-,iuih t~,"anate remakes it Supcri-)r to SG23 gas. stabilivolt or D814 sil-icon stabiiivc-'t. Other advantages of bismutn Card 1/2  L 17805-63 ACCESSION 11'.1i &PYD055,072 titanate cryntals are! nonsolubilitY in water, s~:-no'.1cIty, Orig. art. has: 8 filaures, 2 formulas, and 1 tab-c. smil'I and '--w In3titut Kristallcgrafil All 333.11 (.tr;st ~itute of Ci79tallorr anhy. A 3 S OC L%TI C'N : Z S 5 SIR Insti'utc SUP-MITTED -7 -TTOR62 - - c sk c, %, sr~ !,,, E' Ick'~.n - c- r-~ s k, ITm~,*I 1% of Oommun"cat4.onc-' ,!CIQ: 2W-uFvI*Ij 4~ itut ~~ -3c SUB CODIII, OE, NO 5?ZF SOV: OTI FE-RL 00 Cord 2/2  'FAMDOM"Ell, D.A.; SAPRONOV, G.M.; TERENTIYEV, B.P.; SKORIKOV, V.M. Stability of the operation of a reference voltage source using ferroelectric bismuth tetanate crystals. Elektrichestvo no.12t85-86 D 163. (MIRA 17:1)  TERENTIYEV~ B.P.; SHAKIMLIDYMN, V.V.; LYALHOVKIN, A.A. Synchronous multichannel radio cc=mm�cation st~:'.!on. Tm.Jy ucheb. inst. aviazi no.1403-98 163. (YJ1710'. 17:91i 1. Moskovskly elektrotekhnicheskiy institut 5vv,~.Z-l.  ACCESSION NR: AP300.~270 AUTHUR: Terentlyev, 13. 15 tit eyp_,_ B_,~. TITLE: Higher harmonics in short-wave radio transmitters SOURCE: Elektrosvyazt,/,7- no. 7, 196 3, 7-15 TOPIC TAGS- radio transmitter , short-wave transmitter ABSTRACT: A theoretical study of spurious radiation generation in short-,,wave transmitt3rs io offered. The output rtage of a trans-n-iitter is reprerented by an equivalcn, circuit and is conqidcred as a gencrator of higher harmonics, Evt~n and odd 'harynonics are treate(i Formulat for evaluating the har powtr ar,, developed. Equivalent paranicters of the Itarrnonic generator are deterrnin~.-d, It 113 clairned that thia rLcthod permits better quantitative evaluation of the spi-rioua-radiation level and hclpa in t;ol-ing tile problem of haar1rionic suppress,on. Orig. art. ~La5~ 13 fig~rei~ and 18 formul.a.s. CQ rd 4  ACCESSION NR: AP4019324 S/0105/641000/003/0001/0005 P. (Doctor of AUTHOR: Tambovtsev, D. A. (Engineer); _jer.~qly technical sciences); Zheludev, L S. (Doctor of physico-mathematical sciences); Skorikov, V. M. (Engineer), Kucherova, 1. V. (Engineer) TITLE: Voltage and current stabilization by ferroelectrics SOURCE: Elektrichestvo, uo. 3, 1964, 1-5 TOPIC TAGS: ferroelectric, ferroelectric crystal, voltage stabilizer, current stabilizer, ferroelectric voltage stabilizer, ferroelectric current stabilizer, reference voltage, bismuth titanate, barium titanate, triglycine sulfate ABSTRACT: Procedures for the calculation of ferroelectric -stabilized reference -voltage sources are set forth, a new circuit for voltage stabilization is submitted, and some problems in using ferroelectrics for stabilization purposes are discussed. The new bridge-like circuit (see Enclosure 1) has the advantage Card 1/13-  ACCESSION NR: AP4019324 of a high output voltage that can reach one-third of the input voltage. also, a high degree of temperature compensation is possible. The experimentally determined effects of frequency and load on the performance of ferroelectric voltage stabilizers are reported. The possibilities of ferroelectric materials for current stabilization were also explored; a I -cm" barium-titanate plate ensured a stable mean current of 50 ma at 50 cps; bismuth titanate and triglycine sulfate were also tested. Orig. art. has: 9 figures and 6 formulas. ASSOCIATION: Institut kristallografii AN SSSR (Institute of Crystallography, ANSSSR) SUBMITTED: 13Sep63 DATE ACQ-.' 27mar64 ENCL: 0 1 SUB CODE: EE NO REF SOV: 006 OTHM: 001 Card Z/12-  r,j'! V a kintin Yc!vgr-n yevich, i-, r T- r, lye ri preprod.; Prinimala uchaotfyc:~ LYATK~'~V.I'KAYA, A.D.$ inzil.; LYUBSKIY, !.S., oLv. red.; VOLODLISKKIA, V.Ye., red. [Power isystems of con.,r.-iinicco.ion r~ifterprisesj Energetika. pred- prilut.1i oviazi. S-,Iitzt, 19t'!5. 611. p. (MIRA 16t9) 1. Moskovskly institut avyaz.1 (for all exceptI,yub3kiyj  ACC We AF6(12546? SMCE COD31 W0]Mj66/QW004/W40/0M I -ZORS ntlyq (A*Uva mobar)j Shtsyn 9. Be (AeUve ative M;";41 Lo' B. (Active ame-Mbors ve Ve ~A Mt Solontific4echniul Society of Radio Teahnalogy and gleatrooomudmttow in* As So Popov (Hauchno-Uidmichealwye obahcheAvo, 2-adiateldudki'lelaktroavyG91) TITWs Suppression of harmonics In radio trwmdtters with q=wtrical transformers Somm'.: RadioteMudko., v9 219 no* 4, 19669 40-M TOPIC TAGS i eloatric transfo rmo rg radio transmittorg harmonic anLlysiso eloctrio capacitance, electronic component ABSTUCTt - An aq&3.yoip of the possibility of vealmning; single.-c7cle harmonics In a transformer between the transmitter by oonne4kion of symmetrical ooupli6i 66rdensor and the antenna feedere The expression for the tranazdasion coefficUnt of the trans. formor is analyzed* Experimntal material is presented. Proper design of the trans- former used can not on3,v axppresa the higher harmonies, but also reduce the influence of paracitio capacitance between windinese The parameters of the transf r aug- gested (compare schematics below with and without) are ouch that normal loading of tim- transformer is retainod in the operating froquency rangeo X-P Pe Nosov.- 01 V. Bobovt Ve' Furd -And V-' X-. Alekseyev took part in the ouTyAM ou Yu -B. Shumav, Ve 0 t Of wTerimental measurowntse Orig, art. hast 15 fivnve and 16 foratlaso 9FRSi 36008 SUB CODE: 09 SUMI DAW1 lTMOO64 / ORIG REF1 003 Card 1/1 --f!7 UDC s 623.A o61  AUTHORS: Shestakov, V. I., Terentlyov, D. r. SOV/64-53-6---ji5 of -T- -TITLE: The Determination rM-Cjjj emporature Conlitions of Runninj; Contact Apparatus for the Oxidation of Sulfur Dioxide (Opredeleniye opti-,al1noqo temperaturnoeo rezhima deystvuyu- shchikh kontaktnyl-li apparatov (Ilya okioleniya 1vuokisi Sery) PERIODICAL: Khimicheskaya promyshlennoat 1, 1950, Irr 6, PP 350-354 (TISSR) ABSTRACT: optimum conditions for contact apparatus with adiabatic cata- lyst layers are determined accordin,- to the method developed by G. K. Boreskov (Ref 1). During the operation of the appa- ratus the activity of the catalyst decreaseL,. Therefore, an excess of contact subotance is generally used; however, this excess is limited since its presence results in an increase of the hydraulic resistance and this causes efficiency to decrease. If the activity of the contact substance is reduced by the two- or threefold, the operation of the contact appa- ratus is disturbed and a redeternination of optimum operatin-- conditiona conaiderinj the actual state of the catalyst, be- comes necessary. The prenent paper deal.,j with the nolution of this problem. The determination of the optimum operation Card 112 (for each layer separately) was carried out accordin,,, to the  f,-0V/64-1:16--'-11/'1 5 The Determination of Optimum Ter,~;) era t tire Conlitions of Runn-Ini, Cc).,,t.,-.ct APparatus for the Oxidation of Sulfur Dioxide Graphic nethol. The diar-,a= in qcestion are Civen. Inter alia, the calculation ic ~;iven for an apparatus of t'-.e K-39-4 type. On principle, the diag-rams refer to contact substances which already have been used for oorle tire and have lost part of their effectiveness. If there is c- rew, con- tact substance the dia,-rana make it possible to evaluate ",e quality of the ziaterial in question. New nubctances should be used in the first t-wo layers in quantities which guarantee a contact from the ignition to a point near the equilibrium. That is why the initial temperature should not be increased, since this would lead to a lessening of the effect. '2here are 0 fijures, 1 table, and 3 references, whicli are Soviet. Card 2/2  man ACC NR-. AP6033827 SOURCE CODr.. UR/0256/66/000/010/0072/0074 AUTHOR: Terent'yev, E. V. (Engineer; Captain) ORG: none TITLE: Deserves to be introduced into practice (Electronic equipment maintenance] i SOURCE: Vestnik protivovozdushnoy oborony, no. 10, 1966, 72-74 TOPIC TAGS: radar equipment, radar equipment repair, radar operator, mairm--a-_ TEC11 AJ JfQUE electronic equipment, V1 C-1 A" 0- ABSTRACT; A number of problems are encountered in the operation and repair o i uf i pmen C electronic equipment in the armed forces. Therefore, the units of on-board eq, are not repaired but rather replaced by new ones. The units removed are repaired by specialists in repair and maintenance shops. To improve the quality and efficiency of specialists' servicing radar equipmentthe entire sequence of checking, testing, repairing, and alignmnet of the components most commonly repaired are outlined. Thus,' i it is said that the rectifiers in power-supply unita frequently need repair, and must therefore first tested using the PPS-1 selenium testing device with the AVO-52M. The AD-3 automatic devices are widely used in power supplies and in commutation systems; they are said to break down more frequently than in other automatic remote- control devices. The technological process of testing and repairing it is described Card J/ - - __ I  AP6033827 in detail. The adjustment and tuning of clystron generator and tracking devices are also treated in detail. SUB CODE; 09, 17/ SUBM DATE. none '2  Tj!~;'- hlN T I ~ F . "U-sp of the Seccrid Tsenkcv Vaccine in Suronine-Scluticn), S-~vetskaya (Soviet lleterin~-.ry Yedicine), !l, Ic34  I --- -- -- -- -- - -- - - - - -- -- --- -- 1 ., .Vji.. j , I..A . - .1 u I'," .,on,-, ernin , tho : I- astkri of' of 'io -~ A,,a~iist -th Dise-ise" . Yeterin-iriva, 19.1,2, 4:u. 2.  TEPI'll'I'l YEV, A. (I'Pro-fe-lorl All-Unim Institute of Experimental lletcrinLry Med.-Icine). About tbf~ "scientii 'ic" crearlw- of (On the "history" of th.-: Anti-'~)ot an(] m.-nitl! chloro-formsapo~Tr So :%letar-inarlya; 23; 1.; Jrinua-i IA6; t.ncA. T ". bC 0 N 0 0 4) q 0 0 0 40 0 0 0 0 40 0 49 0  91T TERFVVY*-,Vf F. ( Prof es:~ or -'llorLous JubilZee - (On the occas3ion of the 35-years of w irk of K. M. "Talinir.). So: Veterinexiya; 23; (R-0); August/Septemcer )9li6; I-ricl. TABCON * 0 0 40 1b 40 0 0 0  TERENT I YEV, FA Lcr.c 'Lmental TEREN'f'YFV, F. A.. and STEFAITOVA, P. (All-Union Institute of -r veterinLrY :,,cdl.c.,'-ne.) On th=- nature c." Lmni-rity in anthrax. Report 1. The significance of postvac~~Ln-al react on in t*,-e 7enesis of i~ Lnity in anthray. So: Veterinariya-; 23; (10-11), Octo*,.)c-r/N0venb(-,r 19L6; 'uncl. TABCON 0 * 0 0 0 0 0 0 0 * 0 0 * a 0 it) 0 is 0 0 0 0 40 0 0 0 40 0  TER'NITIYEV, F. A. (Profci----or, 111-Union In,;LLtute of Experimental Ileter-in.-Iry Medll cine The fL fit against anthrax. Sot Veterinariya; 214;11; Novenber 190; Uncl. TECON * 0 0 0 9 * 0 0 0 0 Is 0 40 0 0 0 0 0 0 0 0 9  NI -- KOLZSOV,-S. G. '. ff -sv F A-; and TAGAM, F. L ft' n;n'_j_aT4et. Medicine All-Union Inst. o Expei "on contemporary condition of immunogenic prop3rties of the second Tsenkovskil vaccine." SO: VET. 26 (7) 1949, ;,. 19 0 0 0 0 0 9 0 0 0 4) 0 0 0 0 * 0 0 0 0 * 0 0 0 0 * 0 0 0  ".'.nfectlons and Invi~uL)n:; of Sheep and Goats) Moscow, Sellk-hoz,-ir- 1'. A. and A. A. Yarko7, Edit-~,rv, 1951- 31 octayo- Price 11 nibl,~s ~10 kop,-cks. Bound. 10,000 coT)Ies. 50: U-1~502i 28 August 1953- (From XJW BOOXS ON VWRINA]LY U_DIC 1� Veterinariyn, No. 11, pp. 63,64, Nov. 1951, Moscow, Russian mo per.) - 0 0 * * 0 0 0 0 0 * 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 40  r. A. 3,T~VXCTI YE. P. Immunity Role of the nervous system In ImnunofcnvRIB In Infertious dinewrien. fk)kl X . sellkhoz 17 no. 8, 1952. Monthly List of Russian Accessions, Librt;ry of Congrcss, Nov. mbcr 1952 UNCUSSIFIED  1. ZMRTIEFIV, F. A., Prof-m STEFANOVA, YE. Ps 2. SSSR (600) 4. Vaccination 7, Role of the nervous system in immunogeneste and the now principle of vaccination by inactivated microbe culture. Trudy Vass. Lust. eksp. vet. 19 No. 1. 1952 9. 'Monthly List of Russian Accessions, Library of Congress, lebruary -1953. Unclassified.  TERENTOYN, F. -A.-,- and-Lthor-s- Vaccination Results of imunizing guinea pigs and sheep by inactivated brucellosis vaccine VIFW. Veterinariia 29 No. 3, 1952. Monthly List of Russian Accessions Library of Congress, July 1952, UNGIASSIFIED.  EE T&RJ;N`T'Y3VJ0 F. A. "Significance of Regional ~~pizootiology in the System of Anti-opizootic Yeasuras" SOURCE: Vetarinariya, Vol 29., No 6,, PP 7-10,, June 1952,, wicl All-Ou'l-" Insf. f r--iper%%,%NrA4sA 4t"ItA'  veterinary - Infecticus -',ep ~32 Diseases ,aklylc VaQ- "Antianthrax Vaccination With Tsenkov :ine II alone," rrof F. A. Terent'ev] Sci T- ti L.. - Lab for Control of Diseases in Yrun.- A imals, -F Prof S. G. Kolesov, State I, f~Sovkrozes RSFSR,- " in S c-; Control Inst "Yelkcrinariya" Vol 7XIX, No 9, pp 21-24 Me authors of this article state that extensive experimentations, conducted on millions of animals:, by practical veterinaries, showed that wide utili- zation of,the Tsenkovskiy's vaccir~:- !I alone is 225T220 practical. Exceptions are admitted in spring-summ3r 7accination of horses, sheep, and goats, because they' are more sensitive to vaccines auring those periods of the year. Originally vaccine I was used to prep the organism in order to avert compli-tions produced by vaccine II. Since virulence of botl& vF.-~ineo I and II has decreased with time, the use of vaccine I is now unnecessary. Administration of vaccine I now produces neither local nor general reaction in cattle and consequently does not impart immunity. Expts with vaccine II only during all reasons of the year showed that complications or deaths were rare. Cattle can withstand Tsenkovskiyls vaccine II much better than other animals during the fall season of the year, however. Re-examn of immunogenic properties of 225T20 E-  TFMNTIYEV, F.A., professor. Doubtful reactions in intracutaneous tuberculin testing of cattle. Veterinarila 30 no-7:13-17 Jy 153. (MISA 6:7) 1. Nauchno-proizvodetvannaya laborstoriya Ministerstva sel'skogo khozyaystva t zagotovok RSFSR.  T41UNTITU, Y.iL.; STICFANOVA. Ye.P. Role of the nervous system in immunogenests in vaccination with dead bacterial cultures. Zhur.mikrobiol.epid.i immun. no.2:20-24 F 154. (KLRA 7:3) 1. Iz nauchno-proizvodetvennoy laboratorit Hinisteretva sovkhoxov RSYSR. (Vaccination) (Anthrax) (Nervous system)  IVANOV, M., professor; BABICH. M., professor; TERENTIYEV, F., professor; SYURIN, V.. kandidat vaterinarnvkh naar I ---- 1. Practical value of G.H.Boshian's discovery. Zhur.mikrobiol. epid. I immun. no.11:115-120 N 154. (HLRA 8-1) (VIRUSES$ conversion into bact.) (BACTIRIA, conversion Into viruses)  USSR/Medicine Veterinary, Anthrax Vaccines Card 1 /1 Author Terentlyev, F. A., Professor Title Anthrax vaccines Periodical : Veterinariya 31, 6o-61, Apr 1954 Abstract : P. V. Sosnov in his article, published in Veterinariya No 9, 1953, criticized the textbook titled "Veterinarnaya mikrobiologiya (Veterinary microbiology)." He claimed that attenuated cultures of anthrax microbes can generate pathogenic anthrax microbes; animal organism acts only as a medium within which the attenuated cultures of anthrax microbes reproduce pathogenic microbes. Pro- fessor F. A. Terentlyev states that this claim is unfounded, be- cause it contradicts Pavlov's physiology and because no convincing evidence can be found in medical literature to support it. ComDlica- tions that arise as a result of inoculation of an animal with attenuated anthrax cultures depend upon the physiological condition of the organism of that animal. Institution Submitted  TEMMIYXV, FA., professor; STEPAWYA, Te.P., kandidat vaterinarnykh nauk. To the editors of ITaterinarii&O. Taterinarila 32 no-3:91 Mr 155. (VACCIUS) (KMA 8: 4)  TXRINTIYET. 7.A.; STIIFANOTA, Te.P. Overheating the body as one of the causes of npulsonarjrg diseases in lambs in steppe regions, Yeterinarils, 32 no.8:54-57 ()MU BsIO) Ag 1.Nanchno-proisiv6detvannays. laboratoriya po bor'be a boleznyami mo- lodn.yaka sellskokho%Mstvennykh shivotnykh Kinisteretya sovkhozov RSFSR. (SHEEP--DISUBMS) (MUT--PRYSIOIDDICAL ZMGT)  T11141 11 1 professor, redaktor; XAUOV. A.A.. rodaktor; SOIANKO, i.1k .ftictor; DAMIDOT. N.V.. rodaktor; USACHITA, I.G., rodaktor; VESKOVA, To.I., takhnicheskiy redaktor [Infections and parasites of cattle] InfektuionVe i invaziomqe bolezui krupnogo rogatogo skota., KoBkvao Goo. tzd-vo solkhos. lLt-r7, 1956. 630 p. (HIRA 10:1) (Cattle--Diseases and posts)  TMjjT'yigv, F.A.-, SERGMVA, T.Ya.; MOROZOV. I.S.; OLONOVSKIT, Te.A. -0-1, - I racticality of vaccinating mature cattle againBt brucallosis. Vaterinariia 34 no.12:60-64 D 157. (MIRA 11:1) l.Nauchno-proizvodetvanna7a laboratori7a Hinisterstva sellskogo khozyaystva RSFSR. (Brucellosis in cattle)  TZROTIYEV, P.A., prof.; SHCffUREVSKIY. V.Ye., kand.vaterinarrqkh nauk - All-Union Institute for Experimental Veterinary Medicine during forty years of Soviet rule. Trudy VIN 23:29-48 159. (MIRA 13:10) (Veterinar7 medicine)  TERMIrl-M, F.A. -)rof.; VASILIM, K.M., dotsent; ZiMMIT. I.R., Imnd. ;;A" veterin.nauk; KAUJOIN, V.I., dotnent Production nnl una of dry serum against F;wlnn nrynipelas. Votorinarlill 36 no.6:24-26 Je 159. (HIRA 1?-.10) (Sonim) (Hrysipaloid)  I I r .7- P- A L 7 17 (1). 30 (6) AUMCR, ?,A Tstmtk, D,N,, TITLZi Prof.s.., Kh~ On the Nonni- of his Olstl#th Birthday. MIGOICAL, Zhur"al w1broblal6gil. spsd~mtolojtj I lxwjr~btologli, 19W , Mr 4, pp 146 (u3=) AWMACT, Thin rtqr ae-t ~f th* life w4 career of ft*foegcr Kh. rls- ,, !:.a b ne 4m*p**,41-,*-b rff the Akd-ty. WlUt-klkh .-k SM (A.... .. 3~ ----a- %he USM) and - noted Ph-oloal.t, bl- thalat wA Me 16 drditod .1th the din .... ry of miany flow 30vist Gntibloll". card 1/1  17 (2). 3D (6) 30V/16-W-4-45AT AM" NO.t., 9 A TrIu. ftof .... O~ tn. 0--lon of vorty Years of Work. "MODICA.L. Zh~&l mik"blologti, *Fld~lcloxll I le~oblologll, 1%0. Nr 4, 06 (umm) t ADMAM This Is a brief aecT=t of the scimtlfla astivity of hvfod.or A.I. ;,*dA4c&lO and publialst. IPA card 1/1  1-11 II.-Y, TFRETT I YEV , F. A.; 74",*- '7 T L? , V. . ~~. . '~' K I.Y , A.;.; Ki.. 1; Vil, " ,' , V, . ; :,.:.i It y S. 1. Obtaining ans using condensed hyperimmune serums. Veterinariia 38 no.2:43-45 F 161. (141w, le: 1), 1. Moskwvskiy tekhriologicheskiy institut myaqnay i molochnoy pro- mysillennosti.  TEMITIM, , Fedor Aleksandravich (Doctor of Veterinary Sociences, Professor) "His 70th Birthday and the 50th Anniversary of his scientific and pedagogical I work'. Veterinarlyn, Vol. 36, No. 2, 1961, p. 96.  TERENTITEV, G., stnrzhenahchik One point of a plan. Sov.profsniusy, 7 n0-19:33-34 0 '59. (MIRA 13:2) 1. Prodaedatell komiteta profsoyuza litaynogo teekba Koutrom- skogo mashinnstroitellnogo zavoda imnni Kranina. (.Foundz7 macbiner7 and oupplies)  TERENTIM) G, Publication of the transactions of the Bashkir Scientific Research Institute for Petrolewn Refining. Izv.vys.ucheb.zav.; neftl i gaz 5 no.8:50 162. (MIRA 17:3)  -TEWITIYEV, G. NVootok* and %rcury.ff Av. i kosm. 46 no.4126-31 Ap 164. (MIRA 17:3) ~~. I .,. , I  VORONKOV, V.A., red.; DMITRYETK, A.H., red.; INKIN, S.G., red.; K&SIMOY, I.A., red.; ROKMOV, M.Te., red.; YADORKUKO, V.A., red.; CHURKINg A.H., red.; TZMTI M, G.A., red.; KOL9SOVA, Z.H., takhn.rad. Sochi. Loningra'd_,__u~3_._izd'-vo "Iskusetvo.4 1959. 19 P.. illus. (KIRA l2t9) (Sochi--Description)  MINTITV, G.A. Basic tacbnological properties of mixtures of cotton witb higb mimber rayon sts,ple fibers. Isv.v7e.ucheb.xav.; takh.tekst.prom. no.6:63-7i 159. (141RA 13:4) 1. Ivanovskiy tekstillwy Idetitut. (Textile fibers) (Spinning) *  TXR TOYEV, G-A- Using cotton mschinery for processing lov-count rayon fibers mixed with cotton. lzv.vya.ucheb.zav.; takh-toket-prom. no-3:72-85 060. (KIU 13:7) 1. Ivanovdciy tekstill W institut im. M. V. krunzee (Cotton machinery) (Testile fibers, -~ynthetlc)  TEMITIM, G.A.; FROIOV, S.S. Methods for determining the quantikative composition of cotton and rayon staple fiber blends. Izv.v7s.ucheb.zav.;tekh.tekst.prom. no.4: 87-92 16o. (MIU 13;9) 1. Ivanovokiy tekatillnyy inotitut im. H.V. Frunze i Ivanovokiy khImiko- tekhnologicheskiy Institut. (Textile fibers)  TERENTIM. G.A. Using the cotton machinery for the processing of viscose curly mat fibera in a mixture with cotton. Nauch.issl.trudy IvNITI 25:30-41 161. (MW- 15:10) (Textile fabrica)  mmm~ i Ct.,L SARADASH., YU*L'O-; TE'rr"TI.yLlit - %f.e Cf , , sta:-,,,r,g gaF,:Iire 0 fe-+, Cf the luaalt-f OL I-- Ef - 1 51-56 ' &> - *~~,,~'~") !AA r,formir-g- TTudy Barh IMIlp nn.;~: I,  ITRENTIM, G.A. Calculating production costs In petroleum refining. Trudy BashN11 NP no.6:279-283 163. (MIRA 17:5)  TERENTOYEV, G.A.; SABADASH, Yu-S. 11-1 ~ ------- Certain problems of the economics of the production of automobile gasolines. JMim- i takh. topl. i masel 8 no.10: 29-34 0 163. (MIRA 1611l) 1, Baobkirski3r nauchno-issiedovatollakijr Inatitut po pere- rabotke nefti,  S-M-Ft" I" "Of I, A, ~i . , N~-YAGLOV, A .11. ~ WIL(C fffll~ (.,V , I. M, -, "ITRE I IT t IT, V , G A. q su~mly Of 1,1,~ ~,j . * I , L (WPA !I:-,% lrd":-,Lr,ei3. Yhi.IMO PrOl-la 'I '1(4~~16F,170 Mr '415.  V C, r TERE,~'YEV, G. 3., Cand Tech Sci -- (diss) 1-n4e-4kAgailten o f -ttm I .44. j-, i , ,,.1 -~, 161".114 probleras of e-f-f 1-clernt of the longitudinal joints e woodew.vessels on 40ft f utt LOT,, 1958. of maulp o Ck' 3AxjDjDX 14 pp. (Lenlngrinst-` Englneerslwat~TransO, loo copies. %'KL, 9-58, 120) 100  LESYUKOV9 Valentin Antono7ich; TKWITIYEV9 G.B., rod.; VOLCHOK, K.H., takhn. red* [Theory and design of ships for inland navigation] Tqorlia i uotroiotvo sudov vnutrermago plavaniia. laningrad, 1zd--vo "Rechnoi transport"p laningr. otd-nie, 1961. 371 p. (MIRA 14:6) (Fav&l architeoturs) (Tmla,d ravigation)-  IYEVI, Georgiy Borisovich; D010TIDONTOV9 N-K.p prof. 9 doktor tekhn. naAv- jed. ASTAKTM7,--K.A., reteenzart; YHROPKIN, B.I., retsenzent; KLIORINA, T.A., red.; FRUMKINp P.S., tekhns redo (Seagoing wooden meelol Morskie dereviannye suda. Pod red. U.K. Domidontova. Leningrad, Goo. soiuznoe izd-vo sudostroit. promyshl.0 1961. 244 P. (MIRA 14:6) (Ships, Wooden) (Hulls (Naval architecture))  DORMIDONTOV, Nikolay Konstantinovichp doktor tekhn. nauk, prof.; IYSEITKO, Lavr Georgiyevich., kand. tekhn. nauk; PAVLOV, Aleksandr Ivanovichy dot--., kand. tekhn. nauk; Mr-1,01TIYEW., Georriy Borisovich kand. tekhn. nauk; SHWL6r,-9Wo-W-- Leonidovic , st. pod. inzh.; Prinimal-uchastiye KHRETSOVOV.P., kandstekhn.naukjdqtao; !~'&YAKO'Vsp.l~,,pdotootretseasent;GRBUUM,A.F.., insb retsenzent;VAR121OV, P. G. , inzh., rot senzent; ASM,V o V. j, red.;VOLCHOK, X.M., tekhn.red. (Design and arrangement of ships for inland nevigation]Kon- struktsiia i ustroistvo sudov vnutrennego plavaniia. Pod ob- shchei red. I-I.K.Domidontova. Leningrad, Izd-vo "Rechnoi transport," Pt.2. [Metal ship3]Metallich9Bkie suda. 1962. 271 p. 041RA 15:12) 1. Kafedra arkhitektury i proyektirovaniya korablya Lenin- gradskogo instituta vodnogo transporta (for Domidontov, Lysenko# Pavlov, Terentlyev, Sb=Wlov, Kuznetsov). (Naval architecture) (Ships, Iron and steel)  ZAYTSEV, Vikentiy Petrovich, kand. tekhn. nauk, dote.; NITOCHKIN, Aleksandr refimovich, inzh.; POPYRIN, Ivan Andreyeviah, lnzh.; SURVILLO, Vladimir Lyudvigovich, doktor tekhn* nauk, prof.[deceased]; KAN, A.V., inzh., retsenzent; TEM-T!IEV, J. kand. tekhn. nauk, retaenzent; KAZAROV, Yu.S., red.; 9_t B YUDINTSEV, A.F., red.; CHISTYAKOVA, R.K., tekhn. red.; SHISHKOVA, L.M., tekhn. red. [Rafrigqt-ator ships] Refrizheratomyo suda. (By] V.P.Zaitsev i dr. Leningraq, Sudpromgiz, 1963. 523 p. (MIRA 16:6) (Refrigerator ships)  KAWN3MY1 Yo,v.p Tf'fLl!:'N'rlYU, knfol,. '~Ahti. rinuk Al-jerser." --,uJo,.qtrcx-r-Al,i 30 AP,' '64, (141.RA 18;71), PIA""rIff  L 386)4-66 AM5025573 BOOK E(PLOITATIOU Uiv 629-124-72 Zaychik.. Kopell Simonovich; Terentt,!!~r0,9%,o Jy 1~ R~isovi-c.h Co=ercial fishing ships (Horskiye rybopromyshlennyye suda) Leningrad,--Izd-vv "Sudostroyeniyellj, 1965. 368 p. illus., biblio... fold. map. 3,100 copies printed. TIDFIG TAGS: fishing ship, i~tip i,ng _engineering, service craft, ship componen4 refrigeration equipment# co=orcial anlual MRPOSE AAD COVERAGE: Me book describes basic types of co=ercial fishing shipe and their technical and operational characteristics. As"cts of architectural of and constructional designs of ships are presented in relation to the layout commercial end technical equipment.. Alto pointed out are basic types and techniques in the fishing industry as appliod to fishing cqu4pment and machinery. 7bols and machines for catching,, processing and rofrigerating fish are included, 7his book ic raco=cnded for technical engineers in the ohipbuildivg industry. TABLE OF CONTUM (abridged): Authorts note Card 1/2  L 3864-66 ---- ------ AM5023575 Summary of the Russian comorcial fishing fleet 5 Cho 1. Basic types# characteristics and constructioma features of present co=ercial.fi3hing ships -- n Ch. IL Fishing trawlers 68 Ch. III. Fishing seiners 122 Ch. IV# Fishing boatsi tunny fiahing and other fishing boats - 144 Ch. V. Floating baues and fish preserving plants - 152 Ch. VI. Production refrigerators - 172 Ch. VIL Transport refrigeration ships - 196 Ch. VIII. Ship structures and equipment for cat6ing fish - 213 Ch. IX. Ship equipment and mechanisms for processing and storing fish Ch. X. Foreign co=ercial fiddng 359 4 Conclusion - 366 Bibliography - 370 VJB CODE: HS,, GO SUMITTED: 3114ar65 NO Ra sov z 016 OTM: 000 Card 2/2  t k i-.r, I K'j A , I k a T, J "K I-I z 'r"P AK. rt" nji . . ?"IVA, A.I.j --~d . yo.V,. pa, [Seagoin., fishir:y r2i~ir- ryt;qx~~rnyshleraqe sulv.. D--,ningrad~ (,,,IRA 18:10)  Ye, jo IQ I I-, jo r; 11  TFR. F3T I -"I: V (II Y-ind. 7;-~'Yhn. lnzh. Rcfr~vs-acor slip Karl linnej for fish tro--risport.tion. Sudostroenle - L 30 no.11:1..6 N 164. (MIRA 18-3~  N Sulfonation Sulfonation and 3Ulfonic acids of acidophobic substances. Part 21. Sullfc~ratlon of 2,5-dimethylthiophene. Ccnrzrison of the sulfonatinr, action of pyridim.--sulfur U trioxide, pyridine-bis-sulfur trioxidg, and dioxann sulfur trioxide. Zhur. oh. khim. 23, No. 2, 1953- Mlonth-ly: List of Russian Accessions, Library of Conr_ress June 1953. UNCLASSIFILD.  TNROT I YNV, G. P. ~ , "WO Electronic telegraph apparatus. Slek-trosviazi 11 no.6:52-57 Je ~57. (Telegraph-EquIpment and supplies) (MIMA 10:6)  """ -ITIT*,V, G. V. L I'd 15,-. , I.- Terentlyev, G. V. "The Surrical AnatoR; of the Deep Femoral Arteri., ~dth Aspects of Collatenal Blood Circulation (Anatomical and '.4cperimental Investivation).11 Odessa State 'Medical Inst imeni 11. 1. Piropov. Odessa, 1955. (Dissertation for the Degree of Candidate in Medical Science) So: YnIzhnaya letopis') No. 27, 2 July 1955