SCIENTIFIC ABSTRACT ZILISTEANU, C. - ZILITINKEVICH, S.I.

 RUMANIA/Microbiology - Microorganisms Pathogenic to F-3 Humans and Animals Abs Jour: Ref Zhur - Biol., No 18,,1958, 81503 Author Zilistnnux C., Combiescu, C-1 Ilian, L4 I Aff�run, V. Inst Title A Study of,Efficacy of Nutrient Medium with Sodium Selenite to isolate Typhoid Fever Bacillus. Orig Pub: Rev. microbiol., parazitol, si epidemiol., 1956, 1, No.2, 79-85, 31 6t 91 12 Abstract: A study was conducted of media enriched with 0.2 and 0*4% sodium selenite7 Muller-Kaufman medium (MK), and.broth with 1% boric acid, together with direct inoculation on a Wilson- Card 1/.3 31  RUMANIA/Microbiology Mie'robrgahisms Pathogenic io F-3 Humans and Ahimals Abs Jour: Ref Zhur Bioiij No 16~ i9581 81503 Blair:(WB) medium. Tests were.conducted on 191+ samples of feces of typhoid or,~suspected typhoid and on 33 samples of recuperative or.bacteria- isolating'patients. Inoculations from. enriched media were.made 18-20, 1+8 hours and 7 days after cultivation. In 51 Positive cases ino- culations from MK medium were made in 5-6 hours. Altogether, 90 positive results were obtained; from the medium with 0.1+% sodium selenite, positive results were.obtained in 91.1% of cases; from the mediumwith O~2% sodium sele- nite in 87.7% from MK m4dium.:in 7404%, andfrom broth in.57.R. Inoculat'ion,directly on WB medium produced 86.6% viability. -Optimal period for cultivation on MK medium was 5-8 hours, on other enriched media 18-20 hours. The authors recommend inoculation on media Card 2.3  USSR/MicrobiologY - Microorganisms Pathogpnic to P-3 Humans and Animals A-,s jour: Ref Zhur - Biol., No 18, 1958, 81503 with 0.4% sodium selenite and subsequent inocu- lation on Istrati-Meytert bile agar. If an inoculation is made directly on WB medium, 96.6% of positive results possible can be obtained.,-- A.M. Gruzman Card 313 32   ZILISTEM,-C.; MIMCA, ITata2ial LESCINSCHIs Sofia Preparation of anti-human globulin rum in goats. Immmache- mical research. Arch,roum. path, micToblol. 23-no.32 797-804 S163 1 Travail do 1'Ihst--'tu4 QDr. 1. es des tRauzIn-o*3 Serric Produits BiologiVes et de Pbysiologli Microbienneo'Ba=nst.  ZILISTEAPRI C - MITHICA, Natalia; USCINSCHI, Sofia; POTORAC, E. -*J Pi , -ep-aration of anti-hurrian serums. Hoi-se irrimune serum against human protein for immunoelectrophoresis. Arch. Roum. path. Ex-). mLcrobiol. 23 no.4:959-966 D 164. 1. Travail de l'Institut "Dr. 1. Cantacuzinoll~ Services des Produits Biologiques et de Physiologie Microbienne). Submitted June 26, 1964.  ! i I ~ I I I  I H H I I HIP41ID11111 .1!11 fill, "fill 111lit" 1 Mill lip 11111,111 1111T11 J,,Villfli W$ 111W I' NAFTA) I.; ZILISTE ania;-BICOLESCO, I. Th.; GROBIJICO, Mina; CRETESCO, Ligia; POPESOO, Ana; SATMARI, C,; Collaborateur technique: CHENES100j, Ecaterina Virological and serological investigations made during the influenza epidemic of February-March 1962. Arch. Rown, path. exp. microbiol. 22.no.1:13-27 Hr 163. 1. Travail do IlInstitut "Dr. I. Cantacuzino"t- Service do la. Grippe. (INFLUENZA) (EPIDENIOLOGY) (INFLUENZA-VIRUSES) (HEKAGGLUTINATION.INHIBITIOIT TESTS)   11; 1 MI V M441 IM; V I! Ir il I' 4~ MV~~ I I NICOULESCO,, I.; GRETESCO, Ligia; ,PJI~U gia; NAFTAq 1. Collata- ration technAquet GHEN)tM,Ma-Gi~Ga Biological stady ok: enzyme and: stractural changes in t-ype B influenza viruses.,Aroho, roum, pa+,h,, exp,, miorobiol, 23 no'.32 7Z7-M S 163 1. Trava!M de 1ITnstitut OD~. Cantaouzino*; Iaboratoirs de la Grippep Bucarest, &[VIP I  III lip. If SURMI-MI, Given Names -2- -(I~A A) U E~ U ~j 16=-~ Count ~-Ac~demic Degrpesl~ 'AfMiation: -nO~ given' Source i Buc hare st crobio gia.:Parazitologia. Epidemic, log Vx i VO 1 No 4 , Jul~:,Aug 19 1 PP )57-367-, Data I Laborato Dia sis of Grippe,, Authors.6' -.~-NAFTA.-X- ---Dre- A Eu g 70" 4?Q iP164) A Z-..-    )bi -5 tory DI Dr. -onia __77-  lu ZILISTEANU, Eugenia,,,dr.; CRETESCU., Idgia, dr.; NAFTA, I. dr.; NICULF-.51' I.,,dr.; '-AAcoviTAJ.-,c., dr.; Colaborator tehnic: GHENESCU, Ecaterina Frequency of antibodies against parainfluenzal viruses in the Rumanian People's Republic. Microbiologia (Bucur.) 10 no.4: 349-354 il-Ag 165. 1. Lucrare efectuats. in Institutul "Dr. I. Cantacuzino".  L 452:53-66 1 ACC NR1 AP6033590 SOURCE CORE '--RU/OOZ3/&5-/010/004-/034i~/O3 AUTHOR: Zilisteanu. Eugenia-Zilishtyanu, Ye. (Doctor Gretescu, Ligia-- Kretsesku, to , af I. (Doctor); ~~esau, ikuleaku, Is (Doc r Racovita, C.--Rakovitea, K. (Doctor) ORG: "Dr. I. Cantacuzinoll Institute (Institutul ItDr. 1. Cantacuzinoll TITLE: Incidence of antibodies a-gainst.,,parainfluenza virusJ~ Rumania SOURCE: blicrobiologia, parazitologia si epidemiplogia, v. 10,~no, 4, 1965# 349-354 TOPIC TAGS: antibody, virus disease, blood serum, manp blood chemistry ABSTRACT: in a study of parainfluenza hemagglutination inhibition antibodieelcarried' out on 500 human serum samples., the authors found that the most widespread type determining the highest antibody level in the population is the type 3. Next'are type 1 (Copenhagen and Sendai), and less frequent is type 2 (CA). Ecaterina G,henesc,n performed technical work. The authors thank Doctorff. Gaicu and Eugenia Lunp for, preparing the-tiesue cultures. Orig. art. has: 2, figures and 2 tables. LBased on authors' Eng. abst.] 1JFRS: 3299131 SUB CODE: 06 SUBM DAM. 02Mar65 ORM REF: 001. OTH-RE-F.: 013 Lcard 1/3. UDC: 57&858-Crfj~e 091-Ar -:77-  JQLITI~~HS I.. doktor tekhu.nalak, prof.; MSH~WINIUWV, L.G., Itandlo t-ekfiz-i--na2;nots,'; YBTGELIS, T.Z., otarshlr propoda7atell Unit for noncontact measurement of irreguiariiies'in the' ~r'esistance of moving wires. Izv.vys.ucheb.zav.; prib. no.10-12 159. 1. Laningradakiy institut tochnoy mekhaniki i optiki. (Eloctronic measurements) rp, T P il 111 H I - ~Vl i i W - PIr MA IM  ZILITIVKEVICH,, S.A.; MUS1,0111341KOV$ L,G,: Instrument for measuring the resistance and the degree of its uniformity alona. uninsulated vires. Izv.vy,9.ucheb.zavQ; rib. 5 no#3:21-29 162. ~MA 15:8) 1. Leningradakiy institut tochnoy mekhanikJ i optiki. RekomendovRn-g k-a-fe-droy radiotekbniki. (Electronic instrwwnts)  0 0 (i I I it _A~ A r a 4 1 AA 004. 4 IV, .40 1" WILIM 40 oo of j e6 Z, OA 8 2313. Grmpwj~d CI&OW&Jdaft o11 vakv". 16 00 xOts. d. SoulfixMicm, 3~. a. op. 60"16. Iwo.. PAYS. nting tjW vivioul festurK off 4* j gmpb" method is depaibed AW MP-W ho diagmm ij, cswqtjAjjj a mt~wutk with fijur vlavrs an a single dise-M. 49 W tOOMOnOthOritt W, tbOfOUr&M"*MUWA coo t~m ftW. jb) 6jAxRoe, (,c) &SON of chuKtcriotlc, otui (dj goodooia. the laftm baW uw prodmt at amphilcation facthr tuml s1" o( chatuftf- too Utig_. - CWWxatim om Ow How indicated Is ustacl to simplify the COCM- A the 'ukctIOQ ofs valve petimm of am valve with another WH to AcWtaf lot & PAdjCWaf Pgf". ~ A!d4fM IS 9hVn 101' A I&M "U1111W of ROMUS4 Anwrican 9-1 GerT'4.') vdv".,- A. W, q:0 0 00 Apo too lot I W Im s W -437-4-;-V 99 9 It tf 17 It PI KO 6 1 :YA 1-0~064 0 00 O~e 0 0 0 so 0 0 0 140 0 0 0 0 0 0 1sms~ 0 0.0 0 Ir ;q 00 0 0 0.0 * go 0,0 0 A IL 0 * so 0  11 W U If M It 0 is 0 1, 4, W I I a 4 I F~ a 9 C. .4 A I A 1. 1 1 1-4-Ak, Ol-q.- W -4- A- _ 4 _. ? --Z, I U ri y KEV 00 3316, Thwy of Rec"t O"rallan on OWN #44ilism atid 41 A 0 go W 124, 1938, 1,R rnman.-The author prments a gencral triatmeot of the theory of rectificir operation on an obmk resistance R with a smooth- 0 ing cipacitance C. -and establishes the relations betsven: the rectifirid -00 an4 the %%lue of the Volt&". the treat VAUQN Of t$*rWj1crnMjN%g Witap. product M ~ All On &MW chass"ertatim at the rectalar aiv axandud 0 00 1 and formula am aftWided. tit which thoNe hitherto usual are special .00 09 came. - Fma tbeaa~mWts, the theory of the ctmvenkm of d.c, to ax. by electronic -vdve&=ft be doduced. t A numerical a=mple Is gives to 0* .3 Ulaskift the xpphohdon of tl* gvnerall t". to concrile probItmo, and,: *0 0 the b5cict on the rectification phenomena of altering tin pm!uct PC in 0 00 investipted. CWymeavering ttw range from wern capacitance (RC - 0) 0 to infinite realstanoiN (no load, RC w co) xhow that Inermaing Ow Irrodat 0 00 PC. or the smoothing capacitance with constant R. impm%vs tho operatWX Goo conditions in all respects exorroing the factors dependent on the maximum 0 current impulse, It, F. N. 09 8.0 All u0 0 If A i - I L AaIf AL LUIGK At kITINA MAN CLAISIFICA11011 we 0 19.4 for . ....... ........ An I I I tw 0 01 a I IN 9 AN a 3 if 00 0 0 Z 0 1010 Ill4 00 0 0 0.4 0-0 o 1100 0_00000 00 0 00 0 so 000 0 of 000 910 0 a 0 4 1 A,  I t I--- ...... kT t ~ri- AYS 165-67 551-508-53/W621-3X5 =Wbir-sams Novye sistema i pribory dlia distantaionaykh xzmeriiff elektricheakikh i neelektricheakikh velicheno (Now method Pnd devic O~s for distant measurements of electrical or non-electrical quanitiess) Leningrad, Len12dzte,, 190. 79 p* 35 figs.,.8 tables~ V equatiorise MC- In t',e first part, the author discusses a special kind of periodic electrical~:currwt and descrives fovr anmwmeters, constructed with uti1ization of condenierap and a universal measurement apparatus for remote measurements aU desig'ned by the author wA based on the properties of Uits periodic ctuTwt. The second section preNents a theoretical discussion of a detector-measu~=Bnt device with resolving power. Subject Headings: 1. Recording anemometers 29 istant recordinr equipment. C.K.  I I I1 401 IIN M, 111il 110 lhil I I HIT I F11111; W, H' h FERIM ~111 ZILITINKEVICH, S. I. Zilitinkevich, S. I. "Automatic balance gear appavitus for distance measuxlement'll in eyaposium: Nekotoryye voprosy.teklmike priborostroyeniya, Mosrow-Leningrad, 1948, Pit 5-40 SO: U-3264, 10 April 1953, (Letapis lZhurnal Inykh Statey, No. 3, 1949) RIMMIN11, Nof Fir j" ~ks~ i*lllpt, I. a, i ... 1 1 .,i 19 K"Iffil 10 t ~ 61 n ii I I A i it . I till,  I~ :,Ili; 111jilIVI 01 11101thl ; ZILITINKEVICH. 3. 1. Amtyunov,,V. 0. defended his Doctor's dissertation in the leningrad Polytechnic Institute im Kalinin, USSR, on 3 January 1949, for the academic degree of Doctor of Technical Sciences. Dissertationt "Basic Theoretical Problems and a New Design~Principle for Ratiometers". Official Opponents: Profs. S. I. Zilitinkevich (Doctor of Technical Sciences); A. V. Ulitovskly (Doctor of Physicomathematical Sciences)4 P. L. Kalantiarov. SO: Elektrichestvo, No. 7, Moscow, August-1953, pp 87-92 (W/29844, 16 Apr 54)   ZILITINKEVICH,,S.I.; doktor tekhn.nauk, prof.; SAPRYKIN, K.V., kand.talthn. dots- naiii', Television apparatus used for checking transverse dimensions of drawn materials. Izv.vys. ucheb. zav.;-pri. no.1:12-22 158. 04IRA 11:5) l.Leningradskiy institut tonkoy mekhanik:L i optiki. (Industrial television)  ill I'll 11111110 ;1 1& M I 111 t-01 I ! All :* I Uvili IW Ml 14 Fill'?"ll FA M6, I IMEA. I I A1211111,11, ..-ZILITINKMOH, S.I., doktor takhn. nauk, prof. Aleksandr Stepanovich Popov; on the occasion of the centennial of his birth. Izv. vys. ucheb. zav.; prib. no.2:3-5 '59. (MRA 13:2) (Popov, Alskeandr Stspanovioh,A859-~iqo6) 7- 7:- 7--- -7 JIT I ~7- i F: I . T [7 1111 : . -. ~~~ -1 -,-- :1 7 11 l El!"ITI I!!I"44~77111f, 11" M. 11 T!!1!`P Hill NIli: H !III I II H 1 "11191 1 11 I.T1 fill" Mill T! I im Il M. A  S "16010 /05j 00/007/004/014. 4,5"o 0 A005/AOO1~ Translation from: Referativnyy zhurnal, Fizika, 196o, No.' 7# p. 259# 17553 AUTHOR: ZilitinkevichA 8- pr TITIE: Speed and Mass of the Electron in an Electric Field PERIODICAL: Nauchn. tr. Leningr. in-t tochnoy mekhan. i. 6ptikip 1959, No.,2 PP. 35-44 The relativistic equation of electron energy:,conservAtion in an electric field was transformed,for calculating~the election speedi -Appr~oximate formulae are proposed for computing the dependence of the elect-j~6n speed owthe potential difference passed by it, and their errors are an]alyzed.' Moreove~ri the exact and approximate formulae are presented forcomputing the electron! mass. B. E. Bonshtedt Translator's note: This,is the full translation of the original Russian abstract. Card 1/1  _7= SOV/11?-59-3-5473 9(6) Translation from. Ref erativnyy zhurnal. Elektrotekhaika, 1959. Nr 3. pp, 16.8 - 169 -(USSR) AUTHOR: Zi2i.tinkevich, S. I., and Saprykinv K. V. TITLE: A TV Device for Controlling Cross-Section of Material Being Dralt' (Televisionnyy pribor d1ya., kontrolya pop er echnykh'razmerov pr otyagivayemogo materiala) PERIODICAL: Izv. vyssh. uchebn..zavedeniy. Priborostroyeniye, 1958, Nr 1, pp 12-22 ABSTRACT: The authors suggest a device for continuous checking of very small cross-sections of materials being drawn: m etal wires, films and nonrpetal filaments, bands. In the first'case, measurement of the resistance of moving sections of wire is a convenient method.. However, fluctuating contact_~, resistance values cause serious difficulties. For that,reason, a special.auto- compensation method is used which permits excluding the fluctuitingpo~ential differences due to contacts from the instrument readings. When slip contacts Card I /Z  SOV/1 12-59-3;7,5473 A.TV Device for.Controlling Cross-Section of Material Being Drawn are undesirable or impossible (e.g. , in the case of a very thin wire or in the case of directly determining the cross-sectional area of the mateiiaYbeing drawn),. a capacitive method of measurement is feasible. ~ To control.the. cross -dimensions of a moving conductor or nonconducting,material,' it is. expedient.to use a method based on the dependence of a phototube electron current on the luminous flux falling upon its cath.od e; the value of the luminous flux is maintained strictly proportional to the diameter of,the material being measured. The new TV-type method is a further development of the photo- electric method; it ensures a particularly high accuracy in determining the cross -sections of the controlled materials. The new instrument built by the Chair of Radio Engineering, Leningradskiy institut tochnoy mekhaniki. i optiki (Leningrad Institute of Precise Mechanics and Optics), is considered in details as well as its characteristics, the TV-method principles, and drawing- mechanism controls. Eight illustrations. Bibliography: 3 items. M. L. G Card 2/2   66208 0 46-59-11 S V/1 AUTHORSs Zilitinkevichl S.I.i Doctor of Technical~Scieucesi PrOfissor, :r_a_s_7RffTM=UVj L.U.0,Candidate of Toctinical Scialices, Docent and Feygel's Senior, Instructor V.Z.1 TITLEt A Device for Noncontact-Aleasurements of Resisthnce Irregulailtiea of Moving Wires PERIODICAI: Izvestiya vysshikh uchebnykh. zavadeniy~ Prlborostroyeniye,,~; 1959$ Nr I pp 3-12 (ussrt) ABSTRACTs At the Leningrad Institute of Precision Me,cbanic'sl'and Optics -a" d6vice wash developed,for measu.ring resist~ance irregularities of wires.of 20-150,micron diameter moving at speeds of 1-20 M/Min without damaging 'the insulation. The accuracy ofthe measurements are + 0.5% of the resistance of a measured length. The device consists of two basic sectio *nst a) The spooling section and b) the measuring section. In fig.l$ a photograph of both sections is. shown. The kinematic 'system of the spooling section is shown in diagram , (Fig4) - A DO-50 (1425 rpm) motor is used L.f or 'dr'1'Lv!- 'Card 1/3 ing the spools in combination with a photo-electric tension c Ion--  66203 ,I Device for Noncontact Measurements of Resistance: Irrogularities' of Moving IYi res trol unit *hi ch' keeps thetension of the wire to be measured 'at a pre-set level. A counter indicates the length of wire woun& from one spool to the other. The uring section consinto or a frequency modulated generator It ),~mn indicator uni tj a self-recorder, an automation unit, tho power supply unit and the measuring unit. The complete circuit diagram of the measuring~ section is shown in fig.6 (insert). The wire to be measuried passes over two current-conducting capacitance.electrodes, as~ shown in fig.4. These electrodes may be considered as capacitors in combination with the wire tn be m-esured. The~air gap between the wire and the eleptrodes as-wenas insulation ~ of the vi Ire ierve as a dielectric. The electrodes are connected to the generator forming an oscillatory circuit with the inductance L. With,re- sonance, the magnitude of current flowing thruAhe measuring circuit will be at a maximum. With a given voltage, it will do- pond only on the resistance. By recording the maximum current- Card 2/3 value,'the changes in the resistance of the wire to be measured  AOM46-59L /21 A Device for Noncontlact Measurements of Resistance Irregularities of lov - - ", - - . I. - - - ~ Ii - - - F-'.; ' I ~ I.1. - - ~ - - Ang wires may be judged.'The generator is tuned,'in such 6. manner. that its central 'f roquency- is e-4ua'l- or 'close' to thb-nst'%iriaf~ f requ,ino"Y'f .the measuring circi,u'it'.'~ Th-e'-,_ou-t-pu't voltage, of the generatortis! .-stabilized by a feedback circuit. TheAirect volts e at the .9 1. .1 , . anode of the. oscillator tube is chang*d :depending upon the hf voltage a. the oscillator outlet,., The,pqwer supply unit consists a e -r Afier ci~ ' 'uits. 11he' bf six diff r ni 'ect re re,arej photogrc~ph, 3 circuit diagramsL. 2, diagrams and 2 gF~p S ASSOCIATIONt L-eningradskiy institut't,och~oymekhaniki i optiki (Leningiadln.- stitute, of Trecision.Mec-hanics and Optics) SUBMITTEDs January 26, 1959 Card 3/3  6(7) SOV/142-2-l_l8V2__2___ AUTHOR: Zilitinkevich, S.I, TITLE: PERIODICAL: ABSTRACT: Card 1/4 A Device for Noncontact UnIformity of Resistande, Measurements of Insulated, Thin, High-Resistance Wire During the ~ Coil-Wihding 'Pro*6se 'I~ (Pribor dlya beskontaktnogo izmereniya.ravnomernosti so- protivleniya izolirovannykh vygokoomnykh tonkikh provolok v protsesse il~h dvizh6niya) Izvestiya vysshikh uchebnykh zavedeniy - radiotekh- nika, 1959, Vol,2, Nr 1, PP 114-117.(USSR) At the Kafedra radiotekhniki Leningradskogo insti- tuta tochnoy mekhaniki i optiki (Chair of Radio - Engineering of the Leningrad Institute of Precision Mechanics and Optics), in cooperation with specia- lists from the Faculty of Precision Mechanics, a device was developed for noncontact unifoxiLityof re- sistanbe - measurements of insulated, thing high- resistance wire during the coLl-viadlng 'pz~oceis.' The advantages of this device are that the ~reoistande can be measured without damaging the insulation  SOV/142-2-1-18/22 A Device for Noncont'act Uziformity of Resistance Measurements of Insulated, Thin, High-Res i stance Wires During the Coil-Winding PivaeBB' streS13 during the measuring process with a high' precision. The moving wire is connected to the. ,measuring circuit by capacitive coupling, which is achieved. by two metal rollers. :The effective length of the measured wire sections.is 920 mm. The HF generator produces frequency-modulated electromagnetic oscillations at frequencies rang- ing from 1.5 to 3.5 mc. The oscillation amplitude of this generator is kept constant vrith a high ac- curacy over the entire ranti-e of the modulated frequencies. The indicator unit permits the vi- sual observation of the reoistance.values. In case the latter are below c.,)r above.a pre-set level, the self-recorder is switched on automati- cally, together with an acaustical.and optical ~ signal. A counter records the length of the Ytire processed. The measurement errors are 0-5~&~of Card 3/4 the resistance of the measured section.  SOV/142-2-1-18/22 A Device for Noncontact Unifo=ity of Resistance Measurements of. Insulated, Thin, Ifigh-Resistance Wires Durin.- the Coa-Viuling Process Since the wires are very th~.n, there are practical- ly no differences between high-freoixency and direct 0 current measurements. There are 3 photographs Paid 1 block dia-r,--m. ASSOCIATION: Kafedra radiotekhniki Leningradskogo.instituta tochnoy mekhndiki i optiki ~Chair of Radio En- ineering of the Leningrad TnStitute of Precision Mechanics and Optics) SUBMITTED: October 9, 1958 Card 4/4  i_ U:1 1fili I I I.I I I .I pit w Im vii 14 1 'I__ 1, ", .; ~ - " ". 1. ,r.,j 9(2,3) SOV/146-58-4-2/22 AUTHOR: Zilitinkevich, S.I., Doctor of Technical Sciences, TITLE: The Classification of Basic Rectification Circuits PERIODICAL: Izvestiya vysshilch uchebnykh zavedenly, Priborostroye- niye, 1959, Nr 4, pp 8-16 (USSR) ABSTRACT: In this paper the author presents a classification of existing rectifier circuits. In his opinion, the ex- isting terminology used for describing rectifier cir- cuits is inaccurate and sometimes.contradictory. This is caused by the fact that during the past numerous engineers, radio amateurs, etc, developed rectifier circuits and used their ovin terminology for describing the latter. The author starts the classif'cation with definitions of 1) a m-phase rectifier feed circuit, 2) a n-pbase rectifier circuit, 3) a:single-direction rectification, 4Y two-direction rectification, and. 5) number of rectification ways (chislo taktov vypryam-, leniya). The latter are equal to the numbe Ir o.f single- Card 1/4 direction workj.ng.current pulses entering the rectifier  SOV/146-58-4-2/22 The Classification of Basic Rectification Circuits two- (eix-p aix-) way bridge rectifier circuit (mo- stovaya skhema odnofaznogo /trekhfaznogo, shestifaz_~ nogo/ shestitaktnogo /shestitaktnogo/ vypryamieniya). III - 2 is also called Larionov circuit. I - 3 volt- age double rectifier circuit (of Oockroft and Walton) = single-way voltage doubler rectifier circuit (akhema odnotaktnogg vypryamleniya s udvoyeniyem napryazheniya). I - 4 convectional voltage toubler.rectifier:circuit (skhema Greynakhera-Latura) =.two..Iway voltage doublerl, rectifier circuit (skhema dvuk~taktnogo.vypryamleniya s udvoyeniyem napryazheniya).', I - 5 multiple volta e multiplier rectifier circuit(of Cockroft and Walton5 Single-way rectifier circuit with multiple:voltage multiplication (skhema odnotakt,nogo vypryamleniya s mnogokratnym. umnozheniyem napryazheniya). The author presents the 10 circuit diagrams for the aforemention- ed rectifier circuits, repeating both, the conventional and his proposed classification designation.. In addi- tion there are two classification tables. One is ar- Card 3/4 ranged according to single, bi-, three- and six-phase  9-0-24U 8114616110041002100.11011f 111241B206 AUTHORS: Zilitinkevioh,:S. I.$ Shchelkunov, X. N., Balobey, P~ lfa-khov, Ye. K* TITLE: Devioe.for measuring secondary radiation, operating with a reflecting clystron-autodyne PERIODICAL: izvestiya vysehikh uohebnykh zavodeniy. Priborostroy~eniye, V. 4, no. 2, 1961, 3-9 TEXT: This article describes a device developed,a 'tthei,kafedra radio - tekhniki Leningradskogo institute, toohnoy mekhaniki i op~tiki (Department of Radio Engineering of the Leningrad Institute of:Preoision Mechanics and Optics), where the problem of replacing reception- and transmission channels was radically solved through application of the autodyne 'I principle by means of a reflecting olyBtron, the latter serving not only for generating the emitted oscillations, but also for detecting oscilla- tions vhich are received as a consequence of secondary radiation of the objects concerned. When the object to be investigated is shifted.in the radiation field of the device, the reflected high-frequency energy. acts on Card I /8  8/146/61/004/002/001/011 Devicelfor measuring... B124/B206 the clystron-autodyne and generates at its output resistance a voltage with Doppler frequency proportional to the energy of,the secondary~radiant flux. The device-for measuring the parameters of..seoondary-radiation sources was built dooording to the block diagram shown in Fig. 2. It contains the following main oomponentst 1) the measuring channel consisting of the clystrcn generator, a directional coupler, an antenna. and a measuring amplifier; 2) a system for controlling the clystron- autodyne sensitivityp consisting of a generator for~sensitivity control', the clystron-autodyne, a measuring amplifier and a sensitivity-control: indicator; 3) a system for controlling the autodyne-generator power:output, consisting cf a directional couplerg a detector, an amplifier and an indic,ator for output control; 4) a system for recording the movement parameters of the model, consisting of a device for'recording the rotation (electronic counter with rotation indicator) and a velocity recording device (velocity pickup and -indicator); 5) a control panel intend,ed' for switching on and adjusting the entire measuring device as well as other devices representing part of the measuring complex, azd 6). the, current sources. The elystron-autodyne is connected with the antenfis. and servee for generation, reception and autodyne detecting. In the.presence of a Card. 2/8  i1iii illili:: I W .1 1 , " S11461611004100210011011 Device for measuring... 3124/3206 moving object in the radiation field of the device, the.refleated.energy passes to the antenna and acts on the clystron autodyne, thus causing working conditions corresponding to the change of its outer high-fiequenoy, load. In this way, an intelligence signal with Donpler:frequency is generated in the load resistance of the clystron-resonator circuit. For. easier calculation of the autodyne-generator reaction on changes of the outer high-frequency load, the notion of sensitivity is;ihtroduce4 with. ,the aid of which the ratio of the signal voltage obtained at the load resistance of the autodyne, to the corresponding change of the outer conductivity of the clystron is denoted, i.ee, Usirn S A-Yext/Y ext The analysis of the expression for the sensitivity shows that thip~ strongly depends on the selection of the operating~point within the generation zone in the reflecting clystron. The approximate dependencri of the sensitivity along the generation zone is given graphically 'in Fig. 3p from which it can be seen that maximum sensitivity during opera-, tion can be obtained at the zoneborders, the %orking conditions of the generator-autodyne being,however, rendered ve:cy unstable thereby. For an Card 3/8  S11461611004100210011011 Devioe for measuring,.. B124/B206 increase of the dynamic range of the device and the,stability oflits operation, the operating point ofthe clystron within the generation zone .must.be selected with a sensitivity of 0.8 to 0.9 of the maximum value. The'noise level of the device lies at 1 mv, warranting at least equal sensitivity for the receiver channel as for the direct-amplifier-receiver. The voltage pulsation.amplitude was reduced by means of suitable filters and a high degree of stability of the supply voltages; a further measure for increasing the sensitivity was the selection of'the iorking frequency band of the measuring channel. Fig. 5 shows a simplified diagram for sensitivity control. The device described mainly serves' for measuring the secondary radiation energy, which is required for measuring reflection coefficients of surfaces of different shape I oomposition~and structure, for measuring secondary radiation diagrams of various objects, etc.. it can also be used for contactless measurements of displacements and.vibra- tions with small amplitudes, for measuring vibrations with arbitrary maximum frequencies, etc. This study was recommend6d by~the Department of Radio Engineering of the Association. There are 5 figures and 4 Soviet- bloc references. Card 4/8  I :I It - I I: I I A, 11111 Hill, 1111 PI! 11,1111 M! V MIN GU ER111 - ----- - -22548-- S/1~6/61/004/002/001/011 Device for meas"uring... B124/B206, ASSOCIATION: Leningrddskiy institut tochnoy.mekhaniki i optiki (Lenin*grad Institut e of ,Precision Mechanics and. Optu~cs)~ SUBITITTED JuV 0,1960 Fig. 2:. Block .,wiring* diagra'm of* the device. Legqnd: 1 pozer indicator, 2~ poaeir. am lif ier,- 3) detector', p 4) sensitivity-~.&o tro n 1 indicator.,, * 5 sensitivity-control generator, 6)- r,E?cording devices, 7) to thd measuring amplifivr~,6) clystron , generator, 9) directed coupler, 10) Idevice. with movable model, 11) vbloc.L1y indicator, 1:2) r6tation'indicator, _ counter, 14) from the travel- (rotdt.*on angle) pickup, 15) from.the ' .16) suppl velocity- (rpm) pickup, ~ 17 )_c optrol panel. e y sourc Card .5/8  I it '7~ Pf 1P I '1 1, qp!l 1~! litr f1ril: lit:] 11 i~, I'll, "I I S/L46/62/005/003/003/014 D234,/D308 I AIYEFIOI~, Zilitinlrevich, S.I., Krasheninnihov, L.G. zMd R-Ic f -r-,.- TITUE: An instniment for measurin-' the resistance of non- 3_11sulated wires azid its degree of unif"ornity with respect to length PE11,10D ICAL: Izvestiya vysshikh uchebnyl,.h zavedetliy. Priborostroy- eniye, v. 5, no. 3, 1962, 21-2,10 TEXT: The authors describe a device for securing the mea- surement oil an absolute value of the resistance bf consecutive seg- metits of moving vrires from 20 m icrons to 0.3'mim in diameter ar, well as its un1formity. 'She error does not exceed i'0.1%. The Heotrical measuring device is described in detail. Theinstrument has.two rewiudirig devicez, ane for inlz-e diameters 0.02 to 0.1 mra, velocities 1 to 25 m/pin and tensions 5 to 100 n; the other for 0.1 to 0.3 2 to .50 m/rain a-nd 100 to 700 9; the latter is described. There Z"_a 3 figures and I table. Card 1/2  Ems S/I46/62/00!3/003/003/014 ki instrument measuring D234/D308 -~SSC,CTI~Tjojj: Laningradskiy institut tochnoy melchanild i optiki (Lenit rad institute of Precision Mechanics and optics SUBMIlITT-ID November 28, 1961 0 ar e-. 22  39334 S/146/62/003/004/001/013 D295ID308 VUTMRS Gurevich, I.I.D. and Zilitinkevich, S..L. TITLrE% Tests of,Wlsh-power cOxb,,=iZC& cathod'as un&nr~ con&i._ tions, of'repeated gaseous flashes. P:ERjOD.IdAL: Izvestiya vysshiRh:uchebny1ch zavedeniy. Priboto-, stroyeniye, v. 5, no. 4, 1962, 3-10 T"XT: The last decade has witnessed the successful introduc- tion of o-athodes of carburized thoriated tungsten in'high-pover seal-~. cd oscillator tubes. To-a8sessthe possibility of extending- t1leir use td highpwvier dismountab*~e tubes, samples of -:uch cathodes 2 x 60 Mn12 have been studied in 'sealed water-cooied standard-design diodes connected to ionization manometers and operated,at 500:., IIX 1.5 - 2 A, with 46 - 43 A heater current; the more frequent sporadic rele' occurs in dismountable system, is sirmla'ted: ase of sorbed gas as by b-reahlng al=-EIIIed bulbs 4.5 cm->, sItuated -In side branches of the dioae envelope. The breaking of each little bulb causes a flash followed by a drastic current decrease (90 95% loss of Card 1 2-  S/146/62/005/004/001/913 Tests of high-power D295/D308 emissivity). Normal emission, together with the initial vacuum conditions, is restored automatically after 2-~- to 9 hours, the re- /A 2 storing time depending on the pressure increase that causes the flash and the state of degassing of the apparatus. ~Similar experi- CD ments have been' carried out in diodes connected.to exhaust units. Imissivity can be restored', in this case, in 15 min. b~r means-of thermalactiva ion of the cathode. The restoring of thG initial ,vacuun, is slow(rand, afier an intense' gas flash ( > 10-3 mm Hg) or after reAeated.'flashes, requires that the whole diode be subject to thermal 'r'eatment. There are 3,figures and 3 tables. ASSOC IATION Leningradskiy institut tochnoy melchaniki i optilci (leningrad Institute of.Precision Mechanics and s ic t SUBMIT"L 'ED: March 21, 1962 Card 2 2     IT -J~Jvo q ~T 1~ I : I f   ERITEV, Igor' Vasillyevich; ZILIT111KVIGH, S.I., red. [Invention of the radio by A.S.Popov] Izobretenie radio A.S.Popovym. Moskva., Sovetskoe radio, 1965. 111 p. (MIRA 18:6)  I....--  8/146/6,?/005/005/001/016 D201MW 'AUTHORS; 0 Do Zilitinkevich, S. I and Gurevichp K TITLEs Performance of carbide power cathodes in ~rs'duoed vaoU9 PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Priborostr 0- yeniye, V. 5, no. 5, 19629 3-7 -TEXT: The authors present the results of experiments carried Out in 1961 at the.Kafedra radiotekhniki Leningradako,go inatitua toch-:~ mekhaniki i optiki (Department of Radio Engineering of the Le- ney ningrad Institute of PrecisimMechanics and Optics) with theview to determining the lifetime of carbide power cathodes 67)eratinA un- der the conditions of reduced vacuum. A special experimental type' of power diode was ased for this purpose. The prespure was regula-~ or P 5 ,-ted by means of a specially designed valve - a gas generat GU-50), joined.to the diode together with a manometer valve R.-I RM-2). The gas pressure in the gas-generator was regulated lkvy ac The carbon was heated y, tivated carbong acting as gas.absorber essure- ent:.-*o.f the, valve without oxide coating, The' he filam PT il-I4 Card': 1/ 1:.;-  S/146 /62/005/005/001/016 Performance of carbide ... , ASSOC IATIO111 leningradakiy institut tbahnoy mekhaniki i-optl (Leningrad Institute iof:Precision Mechanics and P SUBMITTED$ :1962*: JanuM 131 p 14i Card V31  ZILITINKEVICHf S.I. The 70th anniversary of the invention of radio. Izv. vys. ucheb. zav.; prib. no.3:3-10 165. (MIU 18; 11)