SCIENTIFIC ABSTRACT VAVILIN, G.I. - VAVILOV, A.A.

VAVILIN, G. I. Roentgen diagnosis of fibrous changes in the pulmonary tissue in tuberculosise Proble tub. no.5:67-68 B-0 154. (KMA 7:12Y 1. Iz Leningradkogo nauchno-iseledovatellskogo tubarkulaznogo instituta imeni A.Ta.Shternberg:& (dir. doktor meditsinskikh nauk A.D.Samenov) (TUMOULOSISp FULMONART, pathology. fibrous changes, x-ray)  VAVILIN.,G...I... kandidat maditsinskikh nauk Modifications in the innervation of the pulmonary arteries and veins in certain clinical forms of pulmonary tuberculosis. Probl.tub. no.1: 53-58 Ja-7 '55- (MIRA 8:4) lo Ix otdola patologicheekoy anatomii 11auchno-issledovatel'skego tubarkulatnogo institute. (dir. doktor maditainakikh nauk A.D.Semenov) (TUBXRCULOSIS, PULMONARY, pathology. pulm. arterial & venous innervation) (ARTERIIIS. PUD40YART, innervation, in tuberc., pathol. changes) (VEINS, PUIJVMY, innervation, in tubere., pathol. changes)  mrun, . G. r. "Morphology of the Cavern Walls in iome ChInicoanatomical Form-3 of P-almanary Tuberculosis in Adults." Cand "led Sci, State inst for tm Advanced Trzaip.-4?17g 0-.;, Physician#, Leningrad Survey of Scientific and Technical Dissertations Def4inded at U33R Higher Educational Institutions (10) SOi Sip~. No. 481',' 5 Mv 55 1  USM/Human and Animal Physiology (Normal and Pat' alogical). T-3 Blood. Blood Diseases. Abe Jour : Ref Zhur - Biol.,, tio 16) 1958., 74690 Author : Kan) Ye.L.,-Vavilin, G.I. Inst : Title : On the Mechanism of the Development of Experimental iinemia Which Appears in Connuction with Denervation of the Spleen. Orig Pub : Lrkhiv patologii, 1957, 19, 11c 2, 61-68. Abstract : In chronic tests on 18 cats, denervation (D) of the spleen (S) was carried out. In all cases, expressed hypochromic normocyotic anemia developed, lasting 1A-7 months. in 14 cats, the most expressed anemia was noted on the 5-24th day. Anemia was caused by strong he lysis, since after D the content of bilirubin in the serum and hemsiderin in the S, bone marrow (EM), liver and kidneys did not change. In Wpl' of the cats anemia proceeded with peripheral Card 1/3 42  USSR/Human arid Animal Physiology (Normal and Pathological). T-3 Bloode Blood Diseases. Abs Jour Ref Eaur -a Biollj 11o 16, 1958, 7469o reticulucytosis, which either preceeded the period of mos-r, oxpressea anemia, or corresponded to it. This negated the plastic c;laractor of the anemia. Changes in the BM were noted even in the first week after D of S. In all cases significant widulant fluctuations of erythrocytes (E) and Hb were observed, In 50% of the animals, temporary peaks of "restoration" of the blood composition were noted up to the original number with subsequent decrease of the number of E in the peripherial blood, in the remaining this was not observed. In the first case., only the admission of E in the peripheral blood was hindered; in the second - the ripening of the erythroblasts was also hindered, Ibut without depression of the erythropoiesis in the BM. The development of anemia with D of S was condition in the last analysis by suppression? of the ripening of the cry- throblasts and the entrance of the mature E into thz! Cand 2/3  USSR/Human and Animal Physiology (Normal and Pathological)* T-3 Blood. Blood Diseases. Abs Jour Ref Zhur - Biol., wo 16, 1958, 74690 peripheral blood. The number of leukocytes after D increa- sed by 32-299%,, and in one case by 488% (58,,700 per 1 mm3). In 21 tests on 5 cats with fistula of the stonach and dener- vated S., the walls of the stomach were stioll ted by in- flation with a rubber balloon. D was conducted in single animals resulting in the increase of the number of E, in others to the decrease, and in some to the decrease of the number of E following their teraporary increase. Also in- significant fluctuations of the number of E were observed, resembling "spontaneous ones" in intact animals. D of S has little bearing on the reactiveness of white blood. -- A.D. Beloborodova. Card 3/3 - 43 -  VAVILIN, G.I. (Leningrnd) of streptozycin on the course of amerimentnl tuberculosis [with summs-.7 in 3nglishl. ArMh.pat. 20 no-7:41-45 158 (91RA 11:9) 1. Zz patologoanatomich#!6kogo, otdolonlya (konsul'tant - prof. A.W. Chistovich) leningradakogo nAuchno-insledovntal'skogo instituta tuberkulaza. ('AMERGUIDSIS. experimental eff. of streptomycin (,us))  VAVILINIV G.1'.j FUNSHTIM, L.V.; SHCUFMAN', E.I. stA-/ of the cti3tribut!-n ~J jnt'ni-ia-zid labelled uith r&dLcacLIva carbun in the lung, liver and upleen. Prob"L. tub. 42 na.3:74-79 164. (MIF-k 180) I. IAningrad:;Rly riauchnc,-'~ss2edo,,,atellgki), Institut tuberkuleza (diraktor - prcf'. A.D.Semenov) i Vantrallnyy nauchnc-1-sledovate"Ll- skiy rentgenc-radiologicheskiy inst.1tut (direktor Ye.I.Vcroblyev), LenIngrad.  VAVILIN., G.I. ... Exacerbation of chroni-c pulmonar-( tubercculoii5 In elderly persons as a manifestation of a malignant timor. Probl. tub. 42 no.10:81-82 164. (MIRA 1811l) 1. Leningradskiy nauchno-issledovatellskiy Institut tuberkuleza (direktor - prof. A.D. Semenov).  FUNSHTEYN, L.V.; VAVILINv G.I. [Leningrad) Distribution of sulfur-containing compounds (mathionine_S35) in the-focus- "Ixouaz7~ tuberculosis. Arkh. pat. 27 no.9:27-31 165. (MIRA 18:12) 1. TSectiri,nyy-nauahno-is&iadovatgki,skiy rontgeno-radio- logicheski, --institut (direktor-Ye.l. Voroblyev) Ministerstva zdravookhraneniya-SURSH i Leningradskiy nauchno-iseledovatallskiy institut tubarkuleza (direktor A.D. Semenov) MinisterBtva zdravo- okhraneniya RSFSR. Submitted October 9, 1963.  VAVILIN, Kolya; TiMAKOVA, Valya, uchenitsa 6-go Kassa; SOLOMKO. Lida, ucbenitea 8-go klassa; YASTR'ZDOVA, Svotlann Treasure cbeet of young natnralists' experience. TUn.nat. no.12:22-23 D 158. (MIRA 11:1-2) 1. Kosul'skaya aredwaya sbkola. Kozullskogo rayona Krasnoyarokogo kraya (for Vavilin) 2. Selo Sarykamysbka, Cbulymakogo rayona Movosibir- skoy oblasti (for TartLkuva). 3. Ramonskaya aredrqaya abkola. Bern- znvokogo rayona Voronezbokoy oblasti (for SOILMkO).'~. Shkola No.2 Stanitsy Grigoripoliaskoy Starvopoliskogo kraya kfor Yaotrobova). (Nature study) (Agriculture)  119%T 'IF YFVP A V . i ~,Ml I0,-V , %'. I.-, v c,", I! , ~l , i , ff. ; Y~- '.-'! t I K 1 ti"",-I .~ 1,1111. 1 ~ . ; MRSTLOVP F,M. Experieme in uning Q;v meti--,-A of' reducArt, lovil -0-1--viirma anomalies to the level nf' the eartlls sm,fit.:-v for *tvrn-ariinmetric prospecting. Vop. rud. f.-ofiz, no.5:7(~.87 165. (Ylr-~ 1,9:q)  V!.. ne -e:-~tive c~ay.,rel In an a'rb:)r, veri. t okh. necir 3' -1 1. Vaesc,3-uznyy nauclino-issledovatellskiy instit, I ra-,,;,4~.Aocl~noy geofizlki.  YASEVICH, V.K. , prof.; KHODIYEV, E.M. , assistent.- VAVILIN, M.K. - AKALAI-0, Y N.Kh.; BORZF-NKO, A.A., ordinator; ALIYOV, R.A.; ~ABUIIOVICH, S.A.; TSETXR, kh.Kh.; KOKOSOVA, T.A. Angiocardiography in the diagnosis of congenital vitia cordis. Mod. zhur. Uzb. no.10:10-16 '61. 11'-.10) 1. Iz faku.11tetskoy khirurgicheskoy k-liniki sanitarnogo i pediatri- 0 cheskogo fakulltetov (zav. - prof. V.Masevich) Tashkentskogo gosudar3tvennogo meditsinakogo instituta. (ANGIOCARDIOGRAPHY) (HEART-ABI10h141TIES AND DEF01MITIES)  .VAVILIN, M.?., asdistent; KIfO0I][?Ivj L.111..% assistont Vascular transplantation in arterioseUrosis obliterans. Med. zhar. Uzb. zhur, Uzb. no.11:28-29 1, t61. ("!IRA 15:2) 1. Iz kafedry fakulitetskoy khirurgii (zav. - prof. V.K.Yasevich) Tashkontskogo gosudarstvennogo moditsinskogo instituta. (ARTERIOSCLEROSIS) (BLOOD V ELS-TRANSPLANTATION)  Z/01 ~9/6 2/01 D006/D102 AUTHOR: Vavilir, G.;.. T I T LEE Diacrams o--F' t-he automatic control of' ventilatin6r c-quipment PERIODICAL: -D-chled technicke a hos!~odarsko !;'eratury. 7nerce~i~-a a elektrotechnika, v. 19, no. 6, 1962, 218, abs-,ract 'E 062- 3469. Vodoonabzh. i sanit. Tekhn.,Dece,-,ber 1961, no. 12, 19-20 TEXT: The article Dresents diagrams, description, ~nd a comparison of' automatic controls o~l warmair heating-plant machine rooms -.-.itn and with- out recirculation. The individual automatic-control elements and their functions are described. The original article contains ? figures and 2 tables. ZA-lostracter's note: Complete translation-7 Card 1/1  VAVILIN. O.A.. inzh. - -- - - - - 'r --- Automatic control layouts for ventilating units. VGO. i san. tekh. no.12:19-20 D 161. (MIRA 15:6) (Ventilation) (Automatic control)  VAVILIN, O.A., inzh. Air conditioning on ships. Khol. tekh. 38 no.4:,1&39 JI-Ag '61. (MIRA I ~:l ) 1. Leningradskiy tekhnoloelcheskiy Institut kholodillnoy proNw- shlennosti. (Ships--Air conditijning)  VAVILIN, 0. Coolinc whirlwind. Nauka i shizn' 29 no.9:33 S '62. (MIRA 15:10) (Refrigeration and refrigerating machinery)  VAVILIN,.,O.A., Inzh. Single-duct high-pressure marine air conditioning systems. Khol. tekh. 40 no.4:30-34 Jl-Ag 163. (MIRI 16:8) 1. Leningradskly tekhnologicheskiy institut kholodillnoy promyshlennosti. (Ships-Air cond4tionin~)  VAVILIN', 0. A. Nomogram for determinirIg the air f-jow rat--- In a rcund d-,:t Khol.tekh. 42 no.205-76 Mr-Ap 165. 18:5)  VAVUJN, P.A. Gharacteristice of the density of microflora in the air in scarlet fever wards. Gig.i san. no.7:46-47 J1 '53. (KIAL 6:7) 1. TSentralInyy institut usovershoustvovaniya vrachey. (Air,Bacteriology) (Scarlet fever)  iVt Of Air awaLion in Lwaps ." ), .:o 12, 1954.  VAVILIV PA dotsent Remdto of the All-&wuian Conference an Research Topic FlanniM. GigA san. 25 no.7SI06 JI 160. (MIRA 140) 1, Iv Moskovskogo nauchno-iosledevatellskogo instituta glgi- yony i eanitarii imeni FaF. Erismana. (PUBLIC MMTH RESEARCH)  VAVILIN, Ye.G. Basic economic effectiveness Indices of land reclamation measures for agricultural purposes on farms with livestock raising as their main branch of economy. TrLtdy SevNIIGiM no.14:91-106 '58. (KIU 13:6) (DrainnAre-1conomic aspects)  84445 3/057/60/030/00)/010/021 '2 4 , .2,2 K? B019/BO54 o AUTHORS: Vavilin, Ye. I.p Vagnerp S. D-9 Lanenkina, V. K., and S. TITLE: An Investigation of the Positive DischargelLumn in a Mercury - Neon Mixture PERIODICAL: Zhurnal tekhnicheskoy fiziki, 1960, Vol. 30, 110. 9, pp. 1064-1066 TEXT: The authors studied the ion distribution of the mixture components; the measurements were made with probes. The methods and the theory of ion currents"j'on the probes had been developed previously (Refs. 3,4, and 5). Two formulas tire given for the relative ion concentrations of the components of a binary gas mixture. Fig. 1 shows the discharge tube. The results are graphically shown in Fig. 2. It appears that considerable quantities of Ne and Hg ions are present on the cathode side of the positive column. As ionization leads to a decrease in Hg in the anode region, and the relative neon and mercury contents are Card 112  8W445 An Investigation of the Positive Discharge S/057/60/'030/009/010/'021 Column in a Mercury - Neon Mixture B019/BO54 equal on the cathode side of the tube, the ionization of neon is considerable, irrespective of the low ionization potential of Hg. Variations in the discharge current do not change this result. There are 2 figures and 6 references: 2 Soviet, 1 German, and 2 US. ASSOCIATION: Petrozavodskiy gosudarstvennyy universitet (Petrozavodsk State University) SUBMITTED: November 16, 1959 Card 2/2  VAVILIN, Te.I.; VAGITM, S.D.; 1AIMMINA, VA.; MITROIPAHOVA, S-S- ,.Investigating the positive column of discharge in a mercury-neon mixture. Zhur. takh. fis. 30 no.9:1064-lo66 s l6o. (,VBA 13:1-1) 1. Petrozavodskiy gosudarstvennyy universitet. (Rectric discharges through gases)  24-3000 ') r Y5 _)) Y-1 -U1 -( . ~ I , 2/1 a AUTHOR: Vavilin, Y(~. I., Vagner, S. D., and Dr,,~kman, TITLE: Characteristics oV a flit~h-Fvoquency Mercury Discharce in a Constant Magnetic Field PERIODICAL: Zhurnal telchnicheskoy fiziki, 1959, Vol 29, Nr 10, pp 1263-1270 ('USSR) ABSTRACT: The paper gives the results of an experimental study of the effect of a longitudinal constant-, magnetic field on a high-frequency mercunj discharge. The same two-probe method is used as that employed by all other investi- gators, and the results obtained are compared with those obtained by the optical photometric method. The latter method consisted in measuring the intensity of' the 4916A line when the magnetic field is on, and when it is switched off. 'The frequency is 7.5 mega- cycles, and the voltage is measured with an electro- static voltmeter connected to a capacitive divider. Card 1/3 The spectrometer is of the PS-2 (71-C-2) type set  Characteristics of a High-Frequency Mercury Discharge in a Constant Magnetic Field longitudinally with the chamber, A ten-step reducer recorded the intensity marks. Tile magnetic field intensity varied between 0 and 68 oersteds I and the mercury gas pressure varied between 0.5 x lo-3 and 8.9 x 10-3 min Hj~. The results h.--Lv(, shoi:n that the electronic temperature drops with tile increase in tfie intensity of the magnetic field and uritil the decrease in mercury gas pressure. As the rnafnetic field intensity increases, so also increases thu concentra- tion of charged particles over the ent[re cross section of the tube. The concentration reaches its maximilm at a gas pressure at which the electron mean free path is much greater than their nican Larnior radii, whether or not the mafpnetic field is on. When there is no magnetic field the density of tile gas current at the walls of the tube is not affected by changes in pressure; just as soon, however, as tile field is switched on, the gas density sharply increases. The Card 2/3 magnetic field also decreases tile transverse electrical  Characteristics of a Ifigh-FreqUency Mercury Y 5 3 35 Discharge in a Constant Magnetic Field -D OV/5 " -2 j - field, at all gas pressures. It was noticed 'Aiat there are two types of discharges, a "weak" and a "strong" dis- charge; these two words are placed in cluntati,on marks by tile authors, The passage from one type of' discharge into another is sudden. The "strong" discharge is more luminous, and it has higher conductivity and veater concentration of charged particles than thr'. ,weak" discharge. As the intensity of' the magnetic field increases, the "weak" discharge suddenly changes into a "strong" one. There are 3 tables; 5 figures; and 11 references, 8 Soviet, 2 U.S., 1 U.K. Tile U.S. and U.K. references are: Davies, L. W., Proc. Phys. Soc., B66, Nr 397, 33, 1953; Johnson, E., and Malter, L., Phys. Rev., 80, 58, 1950; Guthrie, A., Wakerling, R., The Characteristics of Electrical Discharges in Magnetic Fields, 1949. ASSOCIATION: --Pet Un ve ,rqzavoda_-_-._-StA_te--% i'' rsity (Petrozavodskiy g0SUdar- stvennyy universitet) SUBMITTED- November 15, 1958 Card 3/3  DUDKOJ. K., podpolkovnik; VAULIN, Yu., mayor Tee-ting gas rbSkB in subunits. Voene vest* 42 n0-3:39-40 Mr 163. (MIRA 17:1)  VAVILDIA, A* , Lessom on the subject 'atmosphere.' Geog. v shkole no.6:31-39 N-D 153. (XLU 6:12 ) - (Ketsorology-Study and teaching)  SHTENBERG, A.I., prof.; VAVILINAP G.P. (Moskva) Content of the residual quantities if pesticides in f-)rxistuffs; survey of literature. Vop. pit. 2J. no.1:3-9 Ja-F 165. (MP.A 18:9) 0  VAVILINA, G.P.; SHILLINGER, Yu.I.; MIKHALICHUK, B.V. Method for detwmining "residual" amunts of simazine in corn seed. Vop.pit 21 no-4:60-63 Jl-Ag 162. 111:12) 1. Iz otdela gigiyeny pitaniya (zav. B.L.Vladimirov) Instituta pitani.va ANN SSSR i analiticheskoy laboratorii (zav. B.V. Mikhallchuk) Nauchno-issledovateliskogo instituts. udobreniy i insektofungitsidov Moskva. tTRIAZINE) (CORN (MAIZE))  5 (3) AUTHORS: Kutepov, D. F.; Potash:-aki A. A., S0V/79-20,-4_--/72 Vavilina, K. 1. TITLE: Investigation in the Field of Synthesis and Transformations in the Series of Diaryl Urea.8 (Iseledovaniye v oblasti sinteza i prevrashcheniy v ryadu diarilmochevin). VIII. On the Synthesis of Chlorine-substituted Diaryl Ureas (VIII. K voprosu sinteza khlorzameshchennykh diarilmochevin) PERIODICAL: Zhurnal obshchey k-himii, 1959: Vol 29- Nr 6, PP 1857 - 1859 (USSR) ABSTRACT: In a previous paper (Ref 2) syntheses of ~-,hlorine-substitutei diaryl ureas under different conditions and by means of phosgine were described, in which connection the reaction takes place -ig- orously already at room temperature owing to the high mobility of the hydrogen atoms in the amino groups. In contrast to these products the phosgenation with 2,4,.6.,tri(,hloro-. and 2,3,5;6-tet- rachloro-aniline takes place orly at high temperaturee ard. in high-boiling solvents. In the present paper the author3 4nveet- igated the phosgenation of 2,4,6--brichloro-ariline in chlorr,- -benzene and 1,2,4-trichloro-benzene. The rca~:tior, ot' trichlorc- Card 1/2 -aniline with phosgene vias foiind to take pla,7k, more Teadily ill  Investigation in the Field of Synthesis and Trana- SOV/79-29-6-17/72 formations in the Series of Diaryl Ureas. VIII. On the Synthesis of Chlorine-substituted Diaryl Ureas trichloro-bonzono at increased tomporature. on otherwise equnl conditions. It was found that at increasing temperature the re- action rate and the yield in the end product increases Up tO a certain optimum and then decrea3es. At this temperature increase apparently side reactions play a certain role which result? in a partial or finally even complete decomposition of the h.?xa- chloro-diphenyl-urea. The comparison data on its synthesis in- dicate (Figure) that the yield in this urea is somqwhat higher in trichloro-benzene 'than in :~hloro-benzere. The reac- tion tem erature in tric;hloro-,benzene is 1200 (in chloro-ben- 110E zene ). The 2~2.3,3-,5,cf-6,64,,octachloro-.dipheryl-urea not y;t described in publiz~at"io*ns' was synthesized. There are I table and 3 references, 2 of which are Sqviet. SUBMITTED: Lay 12., 1958 Card 2/2  VAVILINA, V . A h04 shake across the ocean. Rabotnitsa 40 no.7.,12-13 i1 162. (Women and peace) (KM 10;2)  VAVILINA, V. , nkyillol '11~ ~Dvelxm Wi-women of Uzbekistan. Rabotuitax 36 no,3:6-8 My 158. a III-e (Uzbekistan--Women) (MIRA 11:5)  VAVILINk V - - Far, far away. Rabotnitsa. 36 no-7:12-15 Jl '58. (WRA 11:9) (Urugua7--Descriptlon and travel)  VAVILINA, V. Mountains bond their peaks. Rabotnitea 37 no.4:18-20 Ap '59. (MM 13:1) (China--Description and travel)  VAVILINA, V. Force that moves mountains. Rabotnitsa 37 no.2:21-24 F '59. (China--Social conditions) OM-IRA 12:3)  VAVILINA, V- I No WOMOMOV _., Women of ~zerbai.Jan. RabotnJtoa 15 no.(.-: 5-7 Je '57. (IFLIU, 10: F , Uzer'rjai jan--Women)  KAWYSHZV, F.G., prof., doktor seliskokhoz.nauk; LYATMAN, N.M., prof., doktor biolog.nauk; MMSKIT, A.M., kand.ekonom.nauk;_j7AVIIqqk,_' -A.&. kand.biolog.nouk; KARPANIN, D.P., kand.biolog.nauk; BABXIUA. N.G., red.; ZUERILINA, Z.P., takhn.red. (Raising fish in ponds] Prudovoe rybovodstvo. Moskva, Goo. izd-vo sellkhoz.lit-ry, 1959. 347 P- (MIRA 13:8) (Fish culture)  VAVII.INAO V. i Our Vietnamese friends. Babotnites, 34 no.10:22-24 0 156. (Vietnam--Social conditions) (MLBA 9:11)  SHIVTSOV, A.I.; VAVITXI . A_P_ Merits and shortcosings of the Regulation on Business Accounting. Zhel.dor.transp. 37 no-6:59-60 Je 1569 (XLVA 9: 8) 1. Uchallnik Vladialrokogo otdolonlya GorIkovskoy dorogi (for Shevtoov); 2. Uchallnik planovogo sektora Vladimirskogo otdole- n1ya (for Vavilkin). (Railroads--Accounts. ~ookkseping, etc)  "Biology of Tench and Its Breeding in Ponds." Thesis for degrea of Ccnd. Biological Sci. Sub l() Jun 50, 1,,fbscow Technical Inst of --.Lqh Industry and Economy imeri A. I. Vikoyan Stmmry 71, 4 Sep 52, Dissertations Pre- gented fdr Degr2es In Science and Qiginesring in Moscow in 1950, ELom Vechernyaya Mosk-ia, Jan-Dee 1950.  -- YAVILKEi A.S., kand.biologicheskikh nauk, dotsent Feeding habits of tenches In ponds. Izv. TSKhA nc.3:187 195 160. (MIRA 14:4) (Tench- Food)  VAVILKIN, Vasilly Mikheylovich (How to prepare and conduct trade-union meetings] lak pod- gotovit' i provesti profsoiuznoe sobranie. Moskva, Profizdat, 2959. 63 p. (Trade unions) (MIRA 14:2)  VAT1WV, A. ------------ School for Instructors. IUn.nat. no.4:30-31 AP 159. (KIR& 12:3) 1. Direktor oblastnoy stanteii yunnatov, go Ivanovo* (1vanovo Province-Pioneera (Communist youth)) 0  YAKWW,VSKI'Y, Ya.11. (1vanovo); Zu MIMS.V, Ya.G. (Ivanovo); IZONOV, R. (Ivanovo); VAVILOV, A. (Ivanovo) - '- I------- -- In memory of laonid Petrovich Shuiskii. Bot. zhur. 47 no.6:890-893 Je 162. KKIRA.15.:7) . (Shuiskii, Loonid Petrovich, 1893[?1-1961)  t5!E ACCESSION NR: AP4029146 510105/641000/004/006610071 AUTHOR: Vavilov, A. A. (Candidate of technical sciences, Docent, Leningrad) ----------- TITLE., Calculating the parameters of nonlinear oscillatory systems from a specified coefficient of harmonica SOURCE: Elektrichestvo, no. 4, 1964, 66-71 TOPIC TAGS: oscillatory system, nonlinear oscillatory system, nonlinear oscillatory system calculation ABSTRACT, An approximate relation is theoretically established between the coefficient of harmonics of generated oscillations and the parameters of the generating nonlinear oscillatory system. The harmonic content at the nonlinear- element output is approximately evaluated including a parLicular case of relatively small higher harmonics. Then, the first -approximation equation for determining amplitude A, and frequency o) of the first harmonic is given by: Card I /Z  ACCESSION NR: AP4029146 I + W., (A,, J-) W. 0, whe re is the complex transfer constant of the linear part of the system W, The coefficient of harmonics at the section W, output is: b.(A., R, (a) where R,(w) and R,(km) are the moduli of the complex transfer conatant of the section W, at frequencies w and kw. Orig. art. has: 6 figuren and 51 formulas. ASSOCIATION: none SUBMITTED: 0IJul63 DATE; ACQ: 0IMay64 ENCL: 00 SUB CODE., NO REP SOVs 004 OTHERt 000 Card Z/Z  VAViLUI, A. VO'05_1/1~lectricity - Person:ilities "Professor N. P. bogoroditskly, in Connection Jith his 50th ?,irthdfq," P. Skotnikov, A..F. Alabyshev, S. Ya. Sokolov, A. A. Vnvilov, V. V. Parylikov, 1.11. Tareyev "Elektrichestvoll No ~, p ~~8 Reviews main features of professional life of Nikolay Petrovich Bogoroditskiy, born 20 kay 02 in Tashkent. His principal interent haB been development of h-f dielectrics. Between 19)3 ,md 1942 he developed the now widely-used radio materials tikond, micalex, h-f frla~~s, radio porcelain, and ultra-porcelain. Affiliations include I-lilitery Elec Eng Acad imeni 'Judenrkyy ( 19)3 - 1942) and a lart:e plant laborator; kwhere he produced a number of inventions) durinV. World War 11. ife has published a number of articles in journals, books, and textbooks. iie received three Stalin Prizes; for an invention in field of ceramics (19,~2); for textbook "Electrical. EnEinearini; Materials" (19,.Z); ane for development and orrnnization of raqB production of narts for radio equiment (1952). FA 240T58  VF)VILO\J, Subject USSR/Electricity AID P - 1470 Card 1/1 Pub. 27 - 21/36 Authors Rabinovich, I. N., Bayko, V. F., Vavilov, A. A., Engs. Title : Amplidyne regulators with in-phase field (Discussion of the article by 0. 1. Zolotarev, Elektichestvo, No-3, 1953) Periodical : Elektrichestvo, 2, 67-68, F 1955 Abstract The authors criticize the statement of the problem by 0. 1. Zolotarev, in which they say he made several incorrect assumptions leading to wrong conclusions. They also criticize the definitions of the basic characteristics of amplidyne regulators. Thts, they conclude, disqualifies the article for use in the study and testing of this type of electrical machinery. Institution: Plant "Blektrosila" Submitted : No date  VAVILOV, A.A.; VERMOLAT, M.Ye.; RUBASHKIN, I.B.; Prinimali uchantiyo: YAKOVLEV, Y.B.1 VZMMV, S-V-; Vo.;~DSFILOV, M.S., karA. tekhn. nauk, retsenzent [Actuating electromechanical servosystems for copying milling machines] Silovye olektroi%ckhanicheskie slediashchie sistemy kopirovallno-frezernykh stankov. Mloskvat Mashinostroenie 196/.. 4o6 p. (KIIA 18:2~   FATMV, A.F., doktor takhn. nauk; YAVILOV, A.A., kand. tekhn. nauk; OIJCYNIKOVO V.A., inzh. a- NOWINNOW Method for improving the characteristics of amplidynes. Vbst. elektro- prom. 27 no.8s54-57 Ag 156. WaA 10:9) 1. Ieningradskiy elaktrotekhnicheakiy institut imeni V.I. Ullynnova (Ienina). (Bleatric controllers)  BUTUSOV, I~an Vasil'yevich; VAVIL40Y A.A. red.; DUSHIH, Ye.K., red.; ulshc~ DOLKATOY, F.S.9 vod YASIfCHURZHINSKAYA. A.B., tekhn. red. (Automatic measuring and regulating instruments] Avtometicheskis kontralino-itmeritelin,ye i reguliruiushchie pribory. Leningrad, Oos. nauchno-tekhn. izd-vo neft. i gorno-toplivnol lit-ry, Laningr. otd-nie, 1958. 388 P. (HIRA 11:5) (Measuring instruments)  SOV/146-58-4-11/22 AUTHORS: Fateyev, A.V., Doctor of Technical Sciences, Frofes- sor,_ VavijoY_,__.A.A._,__Candidate of Technical _Scie~nces, _`E _L - ocen , Granstrem, M.P., and Kotchenko, F.F.,Engineers D TITLE: An Automatic Quick-Response Compensator Developed on the Basis of the EPP-09 Instrument PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Priborostroye- niye, 1958, Nr 4, pp 60-68 (USSR) ABSTRACT: The automatic, quick-response compensator EPP-09, pro- duced by the Soviet industry, does not meet the quick- response requirements for laboratory and production purposes, since the indicator travels over the dial within 1 second, while in some cases a travelling speed of 0.2 - 0.3 seconds is required. The solution of this problem presents great difficulties, since re-adjust- ments must be kept at a minimum and MU.St not exceed 0.2 - 0.3% of the dial length. The minimum zone of non- sensitivity must not exceed 0.1 - 0.2% of the dial length. The experience of a number of foreign enter- Card 1/4 prisee proves the possibility of creating a device which  SOV/146-58-4-11/22 An Automatic Quick-Response Compensator Developed on -he Basis of the EPP-09 Instrument provides the required quick-response. In this paper, the authors describe the servo mechanism for the quick-response automatic compensator EPP-09 with a measuring range of 0 - 10 millivolts and 0 - 500 micro- volts, and present also some results of the experimen- tal investigation of the model of the automatic, quick -response compensator. It has an indicator travelling time of 0.25 - 0.3 seconds with a maximum readjustment value of 0.2 - 0.3% of the dial length. The improve- ments were developed at the Kafedra avtomatiki i tele- mekhaniki Leningradskogo elektrotekhnicheskogo insti- tuta imeni V.I. Ullyanova (Le-ina) (Chair of Automation and Remote Controls of the Leningrad Electrical Engi- neering Institute imeni V.I. Ullyanov (Lenin)). Fig- ure 1 shows the principal circuits of the servo mecha- nism. The motor RD-09 which was originally used, was replaced by a DARM-4/2 motor, because the ASM-100 Card 2/4 motor did not provide the required quick-response  SOV/146-58-4-11/22 An Automatic Quick-Response Compensator Developed on the Basis of the EPP-09 Instrument (only 0.5 seconds). The control winding of the DAR1,11- 4/2 motor is fed from the Push-pull output stage of an electronic amplifier with 6P33 tubes. Fij;ure 3 shows the circuit diagram of the electronic amplifie.- of the automatic quick-response compensator for the measuring range of 0 - 10 millivolts, while the amPli- fier of the range of 0 - 500 microvolts is shown ir Figure 4. Each amplifier is built with two 6N2F, one 6NlP and two 6P33 tubes. Figure 5 shows a photograph of the electronic amplifier. Figures 6, 7, 8, 9 show oscillograms and diagrams of the functioning of the servo mechanism. The zone of non-sensitivity is 0.1 - 0.2% of the dial length. The authors recommend the servo mechanism also for other automatic, quick-re- sponse compensators produced by the Soviet industry. There are 1 photograph, 3 circuit diagrams, 1 graph, 4 oscillograms, 2 diagrams and 3 references, 2 of which Card 3/4 are Soviet and 1 English.  SOV/1146-58-4-11/22 An Automatic Quick-Response Compensator Developed on the Basis of the EPP-09 Instrument ASSOCIATION: LeningradskJy elektrotekliniclieskiy institut imeni V. I. Ullyanova (Lenina) (Leningrad Electrical Engineer- ing Institute imeni V.I. Ullyanov (Lenin)) SUBMITTED: April 13, 1958 Card 4/4  sov/144-58-7-7/15 AUTHOR: Vaviloy, Alaksana;~_A;qksandrovich, Candidate of Technical .Sciences-, Docent TITLE: The Stabilisation of Automatic Control Systems by Means of Analogue Links Connected in a Local Feed-back Circuit (Stabilizatsiya sistem avtomaticheskogo regulirovaniya pri pomoshchi analogov zvenlyev, vklyuchayemykh v tsep' mestnoy obratnoy svyazi) PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Elektromekhanika, 1958, Nr 7, pp 67-71+ (USSR) ABSTRACT: The article first gives a brief review of the use of local feed-back to stabilise automatic control systems. Expression (1) is given for the complex transmission coefficient of such a system, in-which conditions (2) and (3) are usually fulfilled. It is stated that three main difficulties arise with normal methods of feed-back and that in a number of cases these can be overcome by using analogue links in the feed-back circuit. The main feature of this method of stabilising automatic control systems is that instead of using one or several real links as shown in Fig 1 their analogues are used and the Card 1/4 links themselves are not included in the feed-back circuit (see Fig 3). In this case for the frequency  SOV/144-58-7-7/15 The Stabilisation of Automatic Control Systems by Means of Analogue Links Connected in a Local Feed-back Circuit range In which condition (2) is fulfilled the complex transmission coefficient of the corrected system is given by expression (4). Various modifications of the transmission coefficient necessary to meet particular iases are considered. Three examples of stabilisation of automatic control systems by analogue links in the feed-back circuit are then considered. The first example concerns a control system in which it is necessary to effect feed-back from two aperiodic links with a high level of interference in the output of one of them. In order to reduce the interference a filter is usually connected in the feed-back circuit as shown in Fig 21 but the use of such a filter considerably complicates the problem of determining the stability of the internal circuit. Fig 4a shows a typical diagram of an internal circuit of a system with a filter in the feed-back circuit whilst Fig ~,-b shows a diagram of an internal control system circuit with an analogue generator in the Card 2/1+ local feed-back circuit. With this arrangement interference does not enter the feed-back circuit.  SOV/144-58-7-7/12' The Stabilisation of Automatic Co.,Itrol Systems by Means of Analogue Links Connected in a Local Feed-back Circuit In the second examplev it is supposed that the control system must take fped-back f'r5m an amplifler of given transmission function and a direct current motor. Feed- back related to the motor speed fs usually obtained from a tacho-generator or a ta:-hometr!~., bridge an,.'- in either case there is liatle to be considerable interference in the output because of the presermca of a commutator, and so a filter must be used in the feed-back ,ircuit. Fig 5a shows a diagram of the internal cir~~uit of a SYSteM With f_41'tars in 'L-,h-- circuit and a d.c. tacho-generator,whilst Fig 5b shows the corresponding circuit with a tachometric bridgq. To use analogue links in a circuit of this kind there nrast be applied to the output of the amplifier link a negative feed-back from an analogue of the d.c. motor, as shown in Fig 6a. The third example is similar to example (2) excopt that the internal circuit may be unstable because one link has a higher amplification fa-.tor -or b,.4oause of the values of ~he time constants. F'"g 6b gives a diagram of the Card 3/1+ internal circuit of th-a system with partial analogue of  S0v/lL,'+-58-7--7/l5 The Stabilisation of Automatic Cont:--~)L Sysrems by Means of Analogue Links Connected in a Lc:-al F,ae.-ba,;k- motor and in. the IoT,-al fea-l-back circuit by means of wtii(:.-. t;l*---, slabillty of' the internal circuit ian be incraasei~. If it is nc,.ia6sary- still further to incrvase the stab'.1ity of 1-,he J.-n-ternal cire-alt, use may be made of 1,ho J.r- F-jg of a circuit with al.lalogi.e in the lova2, f,~sd-ba.,-k c,ir,~ait corresponding to a mot:),-, and taolic-g-vIna.-at-or ;.,Pay o-;ev a certa~r. frequen;iy rang:-;. Thcre aze 6 figuj-~!s~ ASSOCIATION: Y-afeara 1 tel-m-31:1-tanik-1 Leningradskogo -`~t~,tltuta (Chair of Automation an,i Z11S tJ.+;A4;-) SUBMITTED: May 9 5r, flard 4/4  AUTHOR: Vavilov, A.A. (Cand.Teah.Sci.) SOV/110-58-11-3/L8 TITLE The Selection of a Rational Control Circuit for an Amplidyne-motor without a Tacho-gonerator (V7bor ratsionallnoy skhein sistemy regulirovanlya -i-MU-D -, T. bez taldiogenorator, PERIODICAL: Vestnik Elektropromyahlennosti, Nooll, l9b8, pp.11-15 (USSR) ABSTRACT: Systems for automatically controlling the speed of a d.c. motor over a wide ran6e are extensively used, particularly for machine tools. When the speed range is very great and hiSh stability of speed is not specially important it is advantageous to use simplified control systems on the amplidyne-motor system with no tacho-generator. In order to make a rational choice of circuit for such a control system it is necessary to compare existin6 systems. A generalised equivalent control system circuit Is given in Fig.l. This circuit can be used to allow for all the main factors tnat influence the operation of the system. Various control circuits without intermediate amplifier or tacho-6enerator Card 1/5 can be considered as particular cases of this circuit.  SOV/1lo-5,II-11-3/~8 The Selection of a Rational Control Circuit for an Arnplidyne-motcr Without a Tacho-generator. This article compares control systema on the basis of their steady-state performance. To compare amplifleatior, factors and errors of' control systems it is necessary to formulate steady-state equations for the 6eneralised equivalent circuit. An equation for the control system in the steady state Is then written. Six major variants of the circuit given in Fig.1 are drawn in Fig.2. Half' are variants of a low-impedance asymmetric bridge circuit; the others are variants of a symmetrical but otherwise similar circuit. Of the former, the greatest ampllfir.~atilon factor, and, therefore, the greatest range of speed control, can be obtained with the circuit that includes a compenBaticn winding in the bridge arm containing the motor. In the case of three symmetrical bridge circuits, the same preference applies. Thus of the nine possible variants of bridge circuit it is necessary to consider particularly variants I and IV of Fig.2. The errors of these -control circuits are then analysed. Li circuit I the main error Card 2/5 depends on the load and the width of the amplidyne hysteresis  SOV/110-58-11-3/'m The Selection of a Rational Control Circuit for an Amplidyna-motor Without a Tacho-generator. loop. The load error may be minimised by appropriate choice of control system parameters, and the hy3teresis error may be reduced by special circuit features. Howeve,-, the errors cannot be corrected over the entire range of control without altering the control-eircult characteristics for different parts of the range. An expression is then dorived for the main errors of circuit IV. In order to compare the amplification factors of control systema based on circuits I and IV and to elucidate the influenr-n of control-winding parameters, the example is considered of a speed-control system for motor type PN-28.5 with amplidyne EMU-25-3000, and the optimum control-winding parameters for this system are determined. The calculations are first made for circuit 1; Fig.5 gives a graph of the relationship between the amplification faotor of the control system and the control-winding parzaae-ters, and the additional resista=e in the bridge diagonai. Similar calculations are then made for circuit IV aria Card 3/5 similar curves for this case are plotted In Fig.4,. Thi-~  30V/110-58-11-3/~b The Selection of a Rational Control Circuit for an Ampliuyne-motor Without a Tacho-generator. graphs show that bridge-circuit speed-control systems for d.c. motors can opurate without control windings in the bridge diagonal. A greater amplification factor than that obtained with no control winding can only be achieved with certain control-winding parameters. zxperimental tests on various control systems confirmed the conclusions arrived at in the work, and demonstrated the practicability of a control system with a speed variation range of 100 - 150. Experimental curves of the characteristics of' a d.c. motor with the control system are given in Fig.6. It is concluded that the circuit of Fig-1 gives the greatest amplification factor. However, with this circuit It is necessary to altur the degree of' compensation of the amplifier when altering tho controlled speed, w1ilch considerably complicates control. The bridge symmetrical circuit is recommended to ensure minimum erroro and simplicity of* control. When circuit IV is used without Card 4/5 a control winding in the brIdge arm it is advisable to  The Selection of a Rational Control Circuit for an Ampliayne-mott'r Without a Tacho-generator. Include appropriate control windings in the bridze d la,.-onal -There are 5 fi6ures and 3 Soviet references. SUMITTED: December 21, 1957. 1. Amplidynes-Operation 2. Electric rotors--Contr,31 systems 3. Electric circuits-Performance 4. Control systew,--?erformance Card 5/5  'Vf) v t 1_ C rXPT 8(2) PHASE I BOOK WOITATION SOV/1053 AnIstmov, Vladimir Ivanovich, Aleksandr Aleksandrovich Vavilov, and Aleksandr Vasillyevich Fateyev Sbornik primerov I zadach po lineynoy teorli avtomaticheskogo regullrovaniya. (Collection of Examples and Problems on Linear Theory of A4tomatic Control) Moscow, Gosenergoizdat, 1959. 254 p. 10,000 copie printed. Ed. (Title page): A.V. Fateyev, Doctor of Technical Sciences, Pro- fessor; Ed. (Inside book): V.G. Kepperman; Tech. Ed.: Ye.M. Soboleva. PURPOSE: This collection of examples and groblems may be used by students of hifher technical schools an by engineering and tech- nical personne engaged in the design and study of automatic control systems. This book Is intended to help thereader to acquire experience in applying linear automatic control theory to the solu- tion of practical problems. The book may be used by students taking the course In automatic control offered by the Leningradskiy elektrotekhnicheskly institut (Leningrad Electrical Engineering Institute imeni V.I. Ullyanov). Card 1/4  Collection of Examples (Cont.) SOV/1953 COVERAGE: Particular attention Is given to problems In automatic control of voltages, currents, power, position, speed, etc. Problems of obtaining equations and transfer functions of elements and systems of automatic control are also discussed. The ituthors thank A.A. Voronov, Doctor of Technical Sciences, and Docent V.G. Kepperman, Candidate of Technical Sciences, for reviewing the manuscript. There are 8 Soviet references (including two translations). TABLE OF CONTENTS: Foreword 3 Ch. I. Equations and Transfer Functions of Automatic Control Systems 5 1. Equations and transfer functions of elements of autdmatic control systems 5 2. Equations and transfer functions of automatic control systems 62 Card 2/4  Collection of Examples (Cont.) SOV/1953 Ch. II. Investigation of Stability of Automatic Control Systems 118 3. Investigationof stability of automatic control systems by means of the Hurwitz criterion IiB 4. Investigation of stability of automatic control systems through determining stability regions by meaIns of ofie and two parameters 122 5. Investigation of stability of automatic control systems by means of A.V. Mikhaylov's criterion 130 6. Investigation of stability of automatic control systems by means of the Nyquist criterion 136 a) Frequency characteristics ofelements and systems of automatic control 136 b) Invest,igation of automatic control system stability by the method of attenuation-phase characteristics 1?1 c) Investigation of automatic control system stability by the method of logarithmic frequency charactePistics174 Ch. III. Investigation of Quality of Automatic Control Systems 179 7. Construction of a transient response curve for automatic control systems by means of direct solution of differential equations 179 Card 3/4  Collection of Examples (Cont.) SOV/1953 8. Construction of a transient response curve from the actual frequency characteristic 189 9. Determination of the ratio of controlled variable tn reference input by means of frequency characteristics 201 Ch. IV. Selection of Automatic Control System Parameters Satisfying the Given Quality Indices of a Transient Process 207 Appendixes 247 Bibliography 255 AVAILABLE: Library of Congress JJP/dfh Card 4/4 8-10-59  16,9500 -9 E 2) 67465 SOV/146-2-4-3/19 AUTHOR: Vavilon A.A. Candidate of Technical Sciences, Docent, ~5-01odovnikov,-*A. I. , Engineer TITLE: An Instrument for .DeterminingFrequency Characteristiesi in the Infra-Low Frequency Range PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Priborostroye- niye, 1959, Nr 4, pp 19-27 (USSR) ABSTRACT: This is a detailed engineering account of the design and performance of a new instrument developed at the Chair of Automatics and Telemechanics of the Lenin- rad Electrotechnical Institute imeni V.I. Ullyanov enin) (LETI). The instrument determines with a high K accuracy the amplitude and phase characteristics of frequencies according to the first harmonies progression of various automatic control systems (follower an,d other) and their elements working on direct ctirrent Card 1/3 as well as carrier frequencies of 400 - 500 cycic!;.  67465 SOV/146 -2-4-3/19 An Instrument for Determining Frequency Characteristics in the Infra-Low Frequency Range The article includes a block diagram of the device (Figure 1), diagrams showing its general working principle (Figure 2), and its measuring system (Fi- gures 3 and 4). An example of logarithmic frequency characteristics of a circuit with i nonlinear ele.- ment measured by the instrument (Figure 7) is given. A model of the instrument was produced at the LETI. The voltage amplitude of the instrument is 0-100 volts; the frequency oV oocillations and the modulation frequency of the carrier fre- quency variations on the output of the generator is 0.02-50 cycles, the output resistance of the instru- ment's measuring circvit is I rLegohm, and the nea- suring range of the voltage ~-jmplitu(le on the input Card 2/3 and output of the checked object is 1, 5, 10~ 50, 100, L-K  67465 SOV/146-2-4-3/19 An Instrument for Determining Frequency Characteristics in the Infra-Low Frequency Range and 250 volts. Theoinstrument has in every range an accuracy of 1-2 in phase and of 211o in ampli- tude. The authors wish to express their gratitude to the engineers F.F.Kotcheriko, EJ.Ser eyev,, and V.B. Yakovlev for having p.,irticipa e in the"deve- lopment and checking of the device. This article was recommended by the Kafedra avtomatiki i tele- mekhaniki (The Chair of Automati and Telemechanics). There are 5 diagrams, 2 graphs, 1 table, and 2 So- viet references. ASSOCIATIOIT:Leningradskiy elektrotekhnicheskiy institut ir,-,eni V.I. Ullyanova /Lenina/ (The Leningrad Electri~al U _V_ y Engineering Instituto imeni Ull anov/Lenin3----- SUBMITTED: March 31, 10,59 Card 3/3  BASHARIN, Artemiy Vasillyevichi Prinimal uchastiye POLI, A.Yu...VAVILOVJ A.A., red.; SWOMA, T9*M.q tekhn.red. (Calculation of the dynamics and synthesis of nonlinear control systems) Raschat dinamiki L sintez nelinsinfth sistem upravlaniia. Moskva, Goo.energ.isd-vo. 1960. 298p. (MIRA 13:12) (Automatic control)  S111916010001061111016 B014/BO14 AUTHORSt VaVilov, A Candidate of Technical Sciences, 6W. U010doyni-Wovs 1. 1., Engineer TITLEz An Instrument for Recording Frequency Characteristics ~1'7 PERIODICALs Priborostroyeniye, 1960, No. 6, pp. 28-29 TEXTt The instrument described here was developed at the Kafedra avtomatiki i telemekhaniki Leningradskogo elektrotekhnicheskogo instituta im. V. 1. Ullyanova (Lenina) (Chair of Automation and TalempnhAnirp of the Leningr~Ld Electrotechnical Institute imeni V. 1. Uilyanov kLenln) for the purpose of extending the possibilities of experimental investi- gation of automatic control systems.9By means of this instrument it is possible to record the amplitude-frequency and phase-frequency character- istics of various linear and non-linear elements of an automatic control system with a high degree of accuracy. Its block diagram is shown in Fig. 1. The instrument further permits the examination of elements using alternating or direct current. Such a device vas built by the Laboratoriya avtomatiki i telemekhaniki Leningradskogo elektrotekhniches- Card 1/2  An Instrument for Recording Frequency S/119/60/000/06/11/016 Characteristics B014/BO14 kogo instituta (Laboratory of Automation and Telemechanics of the Leningrad Electrotechnical Institute). Finally, the authors give the technical data of this instrument, which records the frequency character- istic of elements using alternating or direct current (carrier frequency of 400-500 cPs) according to the first harmonic. There are 4 figures and 1 table. Card 2/2  VAVILDV,_~.k.,__)cand.tekhn.nauk, dotsent (Leningrad) Calculation of the parameters of nonlinear oscillatory systems using a known harmonic factor. Flektrichostvo no.4:66,72 Ap ,64. WIRA 1?:4)  9(6)(2) S/146/60/003/01/002/016 DOO2/DOO6 AUTHORS: Wilov, A-AIV Candidate of Technical Sciences, Solodovnikov,.A.T.., Yost urlapave Student.4 KDtchenko, F. ... Assistent TINS: A Sinusoidal Oscillator With a Frequency Range of 10-4 to 100 Cycles rp PERIDDICAL.- Izvestlya vysshikh uchebnykh zavedenty. Priborostroyenjye.. 1960., Vol. 3, Nr 1. pp 10-17 (USSR) ABSTRACT: For checking automatic control systems and investigating vibrational phenomena, oscillations must be generated in a low frequency range of 10-4 to lo-3 cycles, In the USSR, the infra-low nNG-211 RNG - riloo PKVZ-Ref . 1-7oscillators with a frequency range 6101. cycles Arg used. G. Klein Z'Ref. 2, Englisk7,, de-scribes an elec- tronic oscillatoT generating sinusoidal oscille ions in a frequency range of 0,8-10-4 to 0.05 cycles. The present article contains in- formation on an electronic oscillator of in:tralov-frequency harmonic oscillations with a relay control unit (Figure 1). The ;irincipal block diagram Is given (Figure 3). The device can be assembled on Card 113 three computing amplifiers with an electro-magastic or electronic  S/146/60/003/01/002/016 D002/DO06 A Sinusoidal Oscillator With a Frequency Range of 10-4 to 100 Cycles relay element,, and has two dividers, viz., the "DI" and 'ID211. The authors carried out theoretical and experimental investigations in order to prove the possibility of constructing this oscillator using standard computing amplifiers The polarized "RPO relay can be used in the frequency range of 10-4 to 10 cycles,, or an electronic key for frequencies of 10-4 to 100 cycles and more. ~IIMN-711 electronic ampli- fiers were used for experiments at frequencies down to 1o-3 cycles. The proposed oscD 9' -lator can be used for measurement purposes e.g. in osc ill ographs for obtaining the circular scan in a wide frequency range or in watomatio installations. The article was recommended by the Kafedra avtomatiki i telemekhaniki (Chair of Automation and Tele- mechanics). There are 2 diagrams.. I graph, I photograph, and 2 refer- ences, I of which is Fnglish, 1 Soviet. ASSDCIAT3]DN: Ieningradskiy elektratekhnicheskiy institut Imeni V.I.Mlyanova/innina (Len=ad Electrotechnical Institute imeni V.I.Ullyanov Ae Card 2,13  s-,/l-.L6/60/003/01/002/016 D002/DO06 A Simisoidal Oscillator With a Frequency Range of 10-4 to 100 Cycles 0 SUMMED: january 16, 196o Card 313  VAVILCV, A.A. Conaidoration of ,criodicall-Y dist,---ubin: act-'ons in of tile auto.-.-.atic opod re,-,*,-i.in,- of ai izv. VS. ucheb. zav.; 3 nc.U:"5-93 160. (::L~k 24:2) (Bloct-ric t%otors)  S/146'/61'/0,~ B 124/B206 -AUTHOPS: Vavilov, A. A., Bezvlkonnyy, A. k - , 3 C r TITLE: PotentiometOr-ty-pe turauking syote-i %4-th dynamic error com,aensation PERIODICAL: Izvest~ya vysshikh uchebnykh zavedeni-y. Priborozltroyeniye, v. 4, no. 2, 1961, 58-66 TEXT: This paper presents the results of developing the -,-yontem mentioned in the title for j;int operation -~,ith a programming device Derformint- the approximation to a given function by means o--5' 1-ine-nr sec,~-;ons. -70~ ~he totnl elimination of the steady dynamic error and conside---able reduct-Jon of the tronoitional dynamic error of the "racking cyztem ~t is of advuntage to uoe comnenzation circuits in the main feedlbLck and ut -.he c,,,stein in-zut. The diagrar. of such a tracking system is given in F-Ag. 1. The tracking system contains: I-1Y a programming device for linear approximation of the- given function; Wj(p) the elements of the main part of the tracking s~,stem; WkI(p) a compensating circuit at the input, of the system, and -'Jkil tp ) a! compensating circuit'in the main feedback of the system. For elaboration Card 1/8 A  22553 S/146/61/004/002/006/011 Potentiometer-type~ tracking... B124/32o6 of the oy'atem it i's suitable to achieve a velocity co=ens--tion -he steady dynamic error by using the compensation circuit in the main feed- back of the system, and of the transitional dynamic error by --is.-Ing a compensation circuit connected to the input of the s.,;stem. For the trac';-dnr, system shown in Fig. 1, the following cor'relationa exist betwe~.,n "-e output value X(P), the dynamic error of t1he system x(p), and the controllin', action xc(p): W1 (P) I"+ W., (P)l X (P); X (P) - TTWI (P) W.11 (P)Y 1 + Wt (P) I TO (P) WKI (P)) (P) 771V~(T) *CY (P), (2) .7here W, (p) 1111 (p)/Dl (p) - is t-he, transmission 7functJ,on,.of the open tracking idering the compensation circuits '. ak, system without cone (P) N (p)'/D, (p) the transmission function of the comoeneation circuit at the input of the ayxtem, and W kjj(P) =11M (p)/D kII (p) the transmissio .rn functlon of "'n- c6aensation cir cuit in.the main feedback of the sys'tem. Pig. 2 sho.1s a- potentiometer-type tracking system with the amplifier and Card 2/6  zz~53 S/146/61/004/002/006/011 Potentiometer-type tracking... B124/B206 the electric motor CA-621 (SL-621). For the transmission function of the compensation circuit with respect to the controlling action, W a K tR"Cjp 2/((R~ +R")Cp +11 kI(p) - ukl(P)/u(P) 3 4 4 [(Rtf/R41 +Rlf)(K t/T ~2p2]/(T p +I) - (aT2p2)/(T p +1) (5) 4 4 3 3)'3 3 3 3 -1 holds, where T 3 -(R4 +R4)Cj is the time constant of the differentiating circuit, a -(RII/RI +R'-)K ./T the transmission coefficient of the 4 4 4 3t 3 compensating circuit WkI(P)I which connects the voltage ukI at the output of the compensation circuit with the controlling action to the s,.-stem u, and K the transmission coefficient of the voltage ul at the potentiometer 3t pickup to the controlling action u. The logarithmic amplitude-frequency characteristics L,(6a) and phase-frequency characteristics (P,(0)) of the open system under consideration of the flexible and rigid feedbacks are given in Fig. 3. The low-frequency range of the simplified equivalent system determines the steady dynamic error, and the mean frequency range the Card 3/8  2255) S/146/61/004/002/006/011 Potentiometer-type tracking ... B124/B206 transitional dynamic error. On the baois of the asymptotic characteristics Ll(o)) and yj(w) shown in Fig. 3, the simplified transitional function of the system has the form Wle(p) -/[p(Tp +1)2] (8), where K is the quality of the system without consideration of the compensation circuits and T the time constant of the simplified equivalent system. In Fig. 3, the logarithmic frequency characteristics of the open system are given under consideration of the compensation circuit WkII(P): L(co)- L e 1 (W) + LkI, (6)) and T(a) = Tel +TkII (to) As can be seen from these characteristics, the introduction of a compensation circuit with the time constant Ti =O-5 sec into the main feedback of the system is of. no essential effect on the stability of the system. The oscillogram 4,a shows the operation of the tracking system without compensation of the dynamic error at a transmission speed -0- 1 .2 v/eec; in this case the steady error is A-6st = 170 mv and the maximum transitional dynamic error AW max '195 mv. Fig. 4X shows the operation of the tracking system with COMDensation of the steady error by means of a compensation circuit in the main feedback of the system, 4,6 Card 4/8  Potentiometer-type tracking... ~U/jI.U 31202005 the o-Deration of a tracking ayste"_ with compensation of "ne Steu~y ~n~ transitional dynamic errorz 'or the nan 'e t ra n ~! n i o a IL o n 2 n era,", o f2 From Fig. 4,6-results that the ste.-Ily error of the trac*.cinrr sysem p r ~~ c t 4L - cally equals zero and the maximun transitional dynamic elror II L; U, ma." 2 5 ,v This study was recommended by the Department of Automation an-, Tel There are 4 figures and 4 references: 3 Soviet-bloc and 1 non_SOj4e't_"-rOC. The reference to the 'English-languar,,e publicntion rea,,Io a2 follo,,,,,~: King L. H. Reduction of Forced Error in Closed-Loop Systo-.~,j- Pro-1. 1. E. 1953, v-41, No.,8, August, 4648, P-1). 1037-1043. 'ASSOCIATION Leningradskiy elektrotekhnicheskiy 4.n,---+itut i7n. (Len-ina) (Leningrad Electrotechnical instittite V. I. Ullyanov (Lenin)) _77 SUMINTED - December 19, 1960 Legend to Fig. 1: a) 11'," programming device b) x (P) outp Card 5/8 V. I. 1:11yanova ij.-7eni W  ID20l/_;)3110 'LOC, ~O 0 av 0 -10-LI of, a very bor 0 O.e -cr 0 :Or cribe", ilfl-L %IC 7 C. C~C- Ll ai.: Or I- - -.,r aa V 57 4 ra- 0 LC -S 0. 6.. sy~ -j -, sc,. qjs~ -,)rc 7 oscl -cr., C( . e at -")0- I cr -loc- I - "0", c3.j- I'DIC 0Y ct-~-3_c- ar -I - . , .1 . C Oo _Lt j. 01. verl LL .1 - - , I- 01% ~& o -. note- S'LL. n O'L% -cc, cac r at Or 5 .)nscc- at, 3- CJ rOCL. ; Osc, o L? 0; al rc O,L~ 0- _JS 'L. In ~~ . --a total r L. 01.6 C~ OGG-- Z~z ~1.~O%I- nc-~-~. - )-,o /S L'L_ __.. - I rfe, -TI. _0L . U O;l -LooC G/ C -C! I ~ I .I C 0- r ") _. r a-ad, e ~CCO. 0&C C.,GY _c C', cy req C,C C ,,1 :0 t JCSS OSC car&  _U nlysi s o" O?cr -- ttiozi ... S/14 6,/62/003/303/007/014 D201/j3G- lesn tl'an 3"j -':01: razvres. '211 edescri-otion 0.): 1~-his type of rci-te,rator in ')asic i-olatio-ashi-ps, pcrrmdttin~f a choice of a Sel: 02* 0')tiniulm )a:7ar:.c'ccrs Zor a --1vC'_'1 tliamoi-iic contmit, amlitude arad -Ercolicacy o_-E' oscilla-L;ir,,is, arc, derivocl.; thc sta-bil--ty of ampli- L.-c.de aad af- har,~aozaic contc"t in tuzain,,Ll, are azialyzed a-,-,d memis of in--proviiig thc ,Teaerator characteristics are discusscd.* The use ol: azi additio-Lial am-,ALEicr stage or of a limitor ~-Tith varying limiting Q level Is ot-ated to reduce distortion do-;-,-I to 0.1 - l' ", which is -,iec- cssary for obtaini-LL, -- t-w-o-Phasse na,.:-,:ioi1iC oscillatioi-L. A short: survey of existiag -Ly?es of 'U12- getierators is also given. There are i-istitUt im. C' t V.T-. Ullya:iova (Lenina) (Lei-Lino*rad -'-'Ie tro echiLical 1.~ lzistitute im. V.I. Ullyanov (Lenin)) SU3NIT'.L'LD: Ju-,ic 3, 1961 Card 2/2  39337 S/146/62/005/004-/006/013 D295/D308 Vf", 10 R S Vavilov, A.A. and Solodovnilcov, A.I. TITLE: Electronic generator of infra-low frequencie's i-rith a relay-type control element ysshilsh uchebnylch zavedeniy 1?riboro- 1?LR!QD1Cd%L: I2vestiya -,n stroyeniye, V. 51 no. 4, 1962, 31-39 T,Ew" , T The paper gives a mathematical analysis as the ba-sis .Lor the design oif a sinusoidal oscillator coverin,t the freciuc-,cy band 0.0001 - 100 c/s with a harmonic content < 17). The syste-m consists of an inte~;rating ampli-fier with negati-Ve feedback, a sec- ond' inteE,;rating ampliffer, a summing amplifier, and a feed ac lo 07) contai a relay-type element Lpensate for attenuation ever to con Y half'" period. Two idealized versions Of DieCe-TASC linear charactcr- reated by the r X istics for the relay element are L .ethod of harmonic V li-acariZation. Then, -From the equation oil the oscillatory system i-a operat 'ional form, the resonant frequency and the relative -_tt_--x_:- ation, are,'obtai-ned, and conditions for self-sustained close-to-sinu- Card 1/2  "lectronic generator ... Leninrradskiy clektrotelch icheskiy institut i 0 n iTl. V.I. U11yanova (Lenina) (Leningrad Zlectrotechnical institute im. V.I. Ullyanov (Lenin)) soidal oscillations are established. The harmonic contant is r,-ivc-,, L L L in O,-ra:)hic--l ormi. The ou'-put-ariplitude stability is shown to be governed mainly by t-1-1c stability of the characteristic of thc relay e 1 ezic nt . in addition to the low-harmonic contcnt and flood 'ji)Iit,,-.de al_ stability the followin-, feattres revealed by the analysis. cxe cmpaa- L) S.L.-ed: phase -quadrature voltaL;cs can be obtai-ned frorm thc out?uts of the first and second integrator; a suitable choice of the para- meters-rives transiontless frequency regulation over a i-Pide '"--nd; the circuit lends itself to be driven from an external periodic i-,- pulse vol-a,-,,c which permits the design of I-encrators o-L-' several sinusoidal or rectangular oscillations of multiple frequencics. One Such circuit is discussed in detail. There -ire 5 figures. ASSOCL%TIODT: SUM'ITTED: Card 2/2 June 3, 1961 0 IP qt~-611L tetse S S e,54 S1146 /62/005/004/006/013 D"9:>/Lj3O" 0 'q . 0, evs ~OT ,Iev-e 05e a. ,el, V, .1te. 'tol N11 Tr %TO e ,e te e-r~-O t, O'r,~t 0 T~ V e 0 ~ V.0 0 04,~.G -% ~ T.0 -rl Oes 0.0 so ej:~- St &e 96TL%'~ Oil se66 ""he T-O - ,,tie 01 'nel~ ~re ~OT '.0 ele 11 le e TIT tile ev t S1 13 001ole-1. '0~0 0 TO' the exle ~ 0 T of t'hp, e-re 09 tez% 0 3,J5  S/1 03/62/02_,~//CC8/N13/'_'_ Investigating symmetrical D4o9/D3o1 equ'Mlent complex transfer-ratio of the relay element, and xj 'hQ firat harmonic at the output of the linear part. The forrulas for the equivalent I-ogarithmic amplitude- and phane -~hmracteristics L(p) 20 Ig k n + Ln are tg n q 41) where Ln(~L) i sthe normalized, equivalent, logarithmic amplittide, characteristic of the relay element. The equivalent logarithmir, characteristics of various types of relay elements are listed in a table. The condition for the existence of periodic motions in the relay system under consideration is -JC(21V+1)Z+1Pn(~ti'- knR (631 ) e Rn 4ti) Card 2/4  S/103/62/023/008/00"k/C.06 Investigating symmetrical D409/D301 where R denotes the absolute value of WOCOYand T - its ar8iament (for the frequency 60 W and R the correspondinE: values n' fn - Wn' A periodic solution, to which he describing-function method can be applied, exists, if one or more values u - ui can be found, so that the conditions T ((01) 'fk (16) Lr (Wi ) - Ln (17) are satisfied; Lr is the reduced logarithmic characteristic of the linear part, and T k is the phase characteristic which determines the critical value of the phase shift at the amplitude ~t - pi. Fur- ther, the conditions for the stability of the periodic motior-n are derived. Practical methods are considered for the study of the exis- tence and stability of symmetrical periodic motions. Theze involve the COLStruction of the phase- and amplitude. logarithmic character- istics ((f (co ), L. and -Ln). The frequencies of the possible periodic solutions are determined graphically; thereupon the amplitivies of the Card 3/4  S/103/62/023/008/003/0.06 Investigating symmetrical ... D4og/D301 periodic solution is found. This method is illustrated by examples. Conclusions: The families of equivalent logarithmic phase-amplitude characteristics -shown, can be used for design of various relay sys- tems. In those cases where the characteristics are given, it is Con- venient to study the relay systems by L.S. Golldfarb's method (Given in the references). If it is necessary to calculate and construct frequency characteristics of the linear part of the System alle. of the relay element for pre-assigned parareter-values, then lot-,ar-ithmic characteristics should be used. There are 6 ficures ar,(I 1 tabie. SUBMITTEDt March 22, 1962 Card.4/4  WrILOV9 A. A., kuld. tekhn. nauk; SOLODOVNIXOV, A. I., aspirant Measuring techniques and equipownt for the experimental deter- mination of the frequency characteristics of automatic control systems. Izv. LETI 59 no.46174-105 162. (MIRA 15:10) (Automatic control) (Electronic measurements)