SCIENTIFIC ABSTRACT ARTBAUER, O. - ARTEMENKO, I.

2/040/61/000MLO/60/003 Short period temperature riot ... Z197/1435 ' that of the conductor; the thickness of the Insulating file to fio, a few tenths of a millimotro and that stable temperature conditions should exist before the short. Ths author develops a differential equation under the assumption that there is heat transfer throush the boundary between conductor and Insulation but no heat loss to the surroundings through the outer surface of the insulAtor, applies the Laplace-Carson transformation which i, then simplified for the case of short periods and finds that the equation for the insulated conductor differs from that pertaining to blank conductors only by a v%luo which represents the increase in the total thermal capacity due to the insulator itself. Accordingly, it is further postulated that the thermal capacity of the conductor shall be large in comparison with the thermal capacity of the insulating layer. A numerical example concerns a very long copper conductor, insulated for a length of 4 cm and exposed to a short of 10 see duration, when the thermal capacity of the conductor and insulation in 1.16 times that of the conductor. Tbo author finds that the temperature of the conductor in the middle of the insulated portion is 0.91 times that of the bUnk conductor. Card 2/ 3  Z/042/6i/oco/010/003/003 Short period temperature rise 9197/9435 A 4;onductor surrounded by liquid in considered by the author in the first approximation an a conductor surrounded by solid insulation, Por calculating the conductor temperature when c~oollng does take place at the surface, the author suggests the use of the formula for no surface effect and to substitute a modiflod timo t(1 + t/2T), in which t ia the true time and r a ractor given by the conditions. Next the author considors the effect of the change of specific-hoat and specific. resistance with temperature and takes the arithmetic average as well as a change of current with time, for which the integral of the square of the current Is taken. There are 1 figure and 4 references: 2 Soviet-bloc anct 2 non-Soviet-bloc. The two references to English language publications read as follows: Ref.l*. Carslaw H.J., Ja*g*r J.C., Conduction of heat in solids. Oxford 1947; Ref.2-. 11arlitz I., ASSA Journal, 1951, 24, 84-89, ASSOCIATION: Katedra elektricky"ch strojov a prfatrojov Slovenskej vysokej Zkoly technickoj (Department of tlectrical Machines and Instruments at the Slovak Technical SUBMITTED: March 23, 1961 UnIversity) Card'3/3 U  APLMM) 00 p inI6 -Hiisiruent of s3matrodpaMc fame in slootpla appamium. Zl tech obow 51 no,0028-129 Wr 162o 1, SUTOIWkR T"C" sk*la towmi"t  z/o42/62/QCO/OV3/Oo4/oo4 9073/E535 AUTHOR: Artbauer, Ott6, Engineer, Assistant TITLE; -Cooling of electrical equipment after a short circuit PERIODICAL:Elektrotechnicki Sasopis, no.3, 196:1. 167-172 TCXT-. In order to determine the thermal stresses of material after a short circuit, it is necessary to calculate the integral -VT 0 dt. where T - al)soluto tompsrature, t - time., V - inot.grial coostaint. In the case of a short circuit the cooling tidie iis very Ion compared to the duration of the short cLrcult. The ooolin curve resembles an exponential and for an exponeAtini tho intesra, X431L can be calculated (Ref.4i Frentz H., Zlektrot,schnilt und Maschinenbau, 1958, 75% no-17, 485). The oirponential curvO con be so chosen that the same integral equatiost is valid for the real and substitute curves (Ref.5% Herlit.Z,T.. ASEA Journal, 1951, 84). The author has so chosen the exponential that the speed of decrease of the temperature at the teginning of the Card 1/2  ARTBAISR, Otto. ins. I Calotaation of t4sopratan in the amwA Im9w of a switchpar at short aimits. U toah sm 13 no.540465 162. 1, Odboruy amisteat, FAte&a elektrickyok strojow a orlstrojor,, SlovensU vys*a skola teaWWa. mytm 32/14 Bratiouva.  ARTBAULS, Otto Dstem'nlng the MvisOiW~ Us" Of *IOOtrU &PPMUN atA onAwtors at & gmdlml CaMut 24 xw*2t67-73 163, 1. Odbwny "IsUat U%Odft *j*W Idoth Aftlor 14 Slovenska VyoobL skola tmbMabl, *atuuno  AlITRAMHIOtto,, jau Heat trawfor at ffte o*m"etim in ChOMI&O &I tech ego 14 no.6017-322 40. I* Xato&a *Ukkriakyuh stftjoW is pristrojovp SUMMUska Vyooh skola tecMiskap lratislm# Ntytft UX  - -- - ARTBAUTR, -Otto, ins. Selection of mterials aW dimusions for parts of electric apparatus vith regard to lose. 31 tech obsor 52 J& 163,  ARTBAUM. Otto_ I*if* of "rrl" ot ol*otr'o 31 tmat obscr $2 00*48213 Ap 163.  AMMER, Otto Determination of the forces of a compressing arfrxt. lzv.vya.ucbob. say.; elektrowkh. 7 no.JjJ28-129 164,. (MIRA l7s9)  ARTBAUERP Ottop Ins, Figure fomwd ty irab dust In altematlug mepwitio f told# a simple dwAAw for deUndnatim of field famot, IL tech as 15 fioJdA-157 064. 1. Departamt of Xattric Machines and Apj*mt*m, Slovak Higher School of Tocknology, Mytaa 3~X  21 .C awl AUTHM: ArtbaueD.Otto (Engineisr; Candidste of scltnoao~~ OTC: DepArtment of glectr1qal lbohinory ~nd 196's Apparmtus~~ Owl Aroos elek,rickych strojov a prietrojim SYST) TITIZS Permissible temperature.ot bare ootiductors, P%00olnily in the short-circuits SOURCE: Elaktrotechnicky oasqop two go 1965o 449"469 TOPIC TAGS: electric conduct-or tempernture dopend4O*o ppelo ABSTRACT: The influsimoo of toloperatur* P~'i hard oW optro ii*-~ 0 %4 copper 9 hard electrolytic AA!alne f"d other a I I too kpav*~' from other factorso, also dependent on time, temperature influences the "terial Waitily 4ur the ",o~*tlnx period* which lasts much lo4ger than the short 6ui h, 1 There" for* the permissible short-dirouit tiompeirattilre 0, dopo;~M4 t on the expected number of short circuits urld on tb* 6ted~dp .od0otor current (more precisely on the tima tonstant 061 The othod of calculation and Its results for bw m t Permissible temperatures of k600C are recommonO Ver X ,copper bars# 1600C for sloottolytio copper qbra 0 an electrolytic aluminum bars and mtkhnds. It, appeArs t1lat raA~ t It d be raised for electr*Ytte alumi t nun 0 U;C~ rt. Orilo art, COW: 09 'SUBM D fW574M W, e  ARTECKII Wieslaw, ngr in%. Dynande analysis of the OonUctor wohmism, Prs*4 elektrotechn 40 no.,106-38 A164. 1. Katedra Czesel %wsyn i Prmyrsadew Elektrywiny6b, Politechnika, Gdansk.  LISTOV, V.A.; A IN-V-; MMOV., ~A.; KMMOOV, V.D.; N cm p TePo Using thO OBV-1 =it for detambing uw'stswlitr or the viscosity of thiabned oils. SteaftrUtatatia 26 21*,L29o-30 Ja 164. (MMA 27t 2)  Ln ollm IN rll'm --rr,,,ti fir. 11p,litz!*41. ~'Al 1j'I !1 .1111, - Ito 1-4 t1 I I HC T; 1 1-4  7r ~'l P, i 1, i I U., ,, Al", i.,i I ~ I I 111111 i I  Afrf&WHMU, A.G. MW ~ Two patients with *rythroderea peorlaticuis cured health resort. Yest.denk. I Von. 12 n0.1:75-76 at the "W'durl Ja-Y 158. (H MA 11: 4 ) 1. Irurort "Xulldur* (IULIDUR-MORIASIS)  ARTMHUM, A.G. Treatmant of skin disea"s at Us Ngulldurm Swath IW04rtm Yap* kuro fisioter. i loch, fit, kullt, 25 no, 3:263-264 my4# 60. (XW U14) 1. s kworta $Kull&wn (gUviff vra&A.T. PORMWW4*0). (KULlDMI-4LAMil VMT8# OTWIM PlAcato me-)  5(4) $OV/76-33-5-11,,133 AUTHORs --,.,.A;,t-emohenko A. L...LB: jVa Tserkov0) TITLE: The Viscosity and Straoture of the Solutiots of Potassium Iodide in Methvl Alcohol(Vyazkost' i struktura, rastvorov yodistogo kaliya v metilovom spirte) PERIODICAL& Zhurnal, fisichookoy Waii) 1959, Tol 33, Mr 5, PP 1047 - 102 (USSR) kBSTRkCTs The viscosity was measured in a capillary viecosimeter. The concentration of potassium iodide varied between 1.0021!and 13.12 weight%j the temperature renged from +25 to +950t. Tito measuring results are shown in figures I end 2, and ta0le 1. A "negative" viscosity could not be found. The temperature dependence of viscosity is represent~4 by the equation As BAT , k and B being independemt of texperatum Th ir% dl;endence on the concentration is shown in figure 3. Thel-,Ml investigation of alcohols (Ref 18) proves the existence of~ tridimensional molecule complexes wit6 a diameter of atout. 5 2 for mothyl alcohol. The dependence of the size of the Card 1/3 associated molecules an temperature hws not yet been e*plalned.  The Viscosity and Strcture of the Solutions of S07/76.33 - 5 -14/33 Potasbium Iodide in Hathyl Alcohol An almost spherical aggregate with a diatieter of about 6 consisting of 6 molecules may, however, be aesum*d for :3ethyl alcohol for a temperature interval of from. -25 to + 5000, and one of 9 molecules and a length of about 10 J for a temper- ature belov -250, If the molecule oomplex (the associate) was considdred the unit of the viscous fl*w it could be &as-amed that the adtivation energy rovAinea unchaing4d over a wide temperature range as Is shown by the measuring results In tabl* 2. Since no X-ray inveatigatJons of potosslvA iod1do In methyl alcohol wore carried o4t it was Mtempted,to evaluate the values found for relative viscasity on account of the compressibility of the solvent. With KJ solutions the order is glycerin - water - glyool - methanol,-wheress compressibi- lity Increases in the order gliFoevin - glycol - water - metha- nol. Thus the relative viscosity (toes riot only depand an compressibility. It is assumed that the change of the order is caused by the different size rstios between dioeolve-d ions and molecules of the solvent. One ton decreases the vitcosity the more, the more hydroxyl bonds it prevetts by Its presence Card 2/3 and the lower the potential barrior is ir, 1-ts surrbun?'Inge.  The Vi3cosity and Stractare of the Solatione of SOV/76-33-5-103 Potassium Iodide in Mathyl k1cohol The relativo viscosity of an electrolyte depends on the total amount of tho suspension effect, the intermtdiste ion effect, and the ion dipole effect. There are 3 figures, 2 tables, and 23 references, 12 of which are Soviet. ASSOCILTIONt Beloteerkovskiy sel'skokhoxytystyennyy institut (Belay& Tserkov' Agrioultural Institute) SUBRITTEDs October li, 957 Card 3/3  the %i.' rom .101.ty I:f fl, 1613 Be  ARTDCHMOS-4-L.- C&;dlW7 v1soosioter for mogow" the ris"ity at vokUlm liquids. Zav. lab. 28 no.22itl*4.62. (MIRA 164 2) 1. Kiyovikiy gesudent"noyy wd"reitat. (Visoosb*ter)  ARTDCIIBNKO, A. 1. Relationship betwen the refraction of the vUt* of -t-bo hents '01 and its storage ti=6 Wauch. doklo vys; shk*llrj biol. nw;dd no. 9 102-1Q4 161. (KM us I 1. Rekomendovans. kafodroy voterimmo-sardtaftor ekspeTtisy Belotserkolvskogo, sel'skokhosysystvennogo inOUuta. (RMUTION) (WAS.4"RICS)  ARZWIMMKOH--~~WRNKO, A.V. Density aW structure of 0-bUtanol soluttons in glyeerol. UkrAhim.shur. 29 no.102-54 163. (XaU 160) 1. Belotserkovokly moll skokhosmetvonqy Wtitut 1. Kiyeiddy uchabno-kaumdltatmionnyy pvkt Laningradskogo instAtuts vodnq* transport&. (Butyl alcohol) (Glycerol)  ARTEIMC HEN LOI..&a. now" Viscosity and structure of potassium 10040 Solutims In etbyl alcohols Ukr. khImo shur. 29 ro*1Ok3:Ua-2W 163. (MM 1711) 1. Belotsarkovakly *all skokboxy4yet"Um Ustitut*p  UTEMCHENKO, A.I. Velocity of sound in and the compressibuitr or -IwAdWo.- of electrolytes in normal alcohols, Zhur, tizo 983-987 MI 163. KM 1711) 1. Belotserkovekly sel'skokhospystvann" Imetitat,  4pp'Nmmo A, 1. am strwtuv Of NM&42ww 4#OtrolrO so).vt$ I'   VULIFSOW, N.S.; KOILHIN, V.Ye.; ARTRCHIKA-~J- Derivatives of acylaostic *stars of the hatm*ocyolit series. Part 4: Synthesis 6f nioatinoylametic estior, arylides, and asomethims dyes propwad ftom them. Zhur.ob.khim. 32 9o.100382-4386 0 162, WMA 15:n) 1. Walachno-isoledovatoolsoldy imstitut orgWabooldla poluproduktov i kruitelay L Inatitut 'chimli priralairkh soyedimniy AN S89R. (Dyes md dysirg) (SaUff basso)  AMHCHIII, ". Ikononic accountability of building 960tiDUS. Tru4;r MINI no.14:39i-600 '"# MIA 00) 1. Vpraylyayushably trostom Svirdlowatcpromotror; Sverdlovskiy sovnerkbos o (Sverdlovsk-4onstruction Industr3r-oAftounting)  AWAMMe N.A. I TRIOD, I.A.; WMV 11, Te.A. 1*00MUng In tbo construction Laftstryl oootloo,a ot 10.774 INdMing Iftst No.", Swer4lov*k Xdcomic 0000U3 xhosialst"wri roafts T stroitslosom OmIssul, to opyto Paboty MM No*??)# Strol%mots jojq Wordloristop Noskvao GoselIA-va lit-ry po strsitts orthIC I alftlkmmtow*~L Use lqfkq 67 V* WIA IAJ t0onstractlen industrr-46cowting),  UMT, N.V.; ARUNCEN I T ~ ;70;~V% low ondesto speolve of sho Urq6 fsolly. D*t-*btLr,EVkr.l 9 s6,,3981-45 052. WIPA 69n) 1. Chernivetelkyy dorsh%vW ust"raytot, &Lfsdft systoosityky r**Uu. luty- tut botaniky Akadsotyl nook TknYinstkayl Wito VIttdil vysbdWkh rosUm.. (stlauso")  I -,II I la. Work Of the Dw"rtment of BotaN '53. Doetvar Period. 3Ot-lbar.tM,.r.j 10 nool:110611-t$l v Of the Ch"nov, v, ftat* Un'versit!Y In the (MU 6 -.8 ) r4') 0~*tany--Ukraine)  mmutaln mosams 0t Qww,*oA~r NOT1=4 and ways of 1wrowlas OW16 Bot. ftr. [Ukr. 120 soArVII-32 153. (XM &.12) 1. Obernivetalkly dordmmly ustowmitsto WO&4 roifta" (Qwrwvtoy Provius-4bMws)  A rtr CWT, I.T. Iffect of mtrition an spiks rmoslty of osrWn faim" "sea. Dot# shur.[Ukr.l U n0-103-7? 154. (MM at?) 1. Chernivetalkly dorsbmmW~r univwoltot. kmfodft boiNUM. (Grasses)  -B.S. Jou,-~ #t U17HOR irtmac 1kerevov-tknvm 1::. I)covrehnvnk, 4. T. r-,,;;~ t - v I'll L E, two, 4 -' - 1 - iii i I. I C n 1, P, r iti vw- J a r ti .4 PU3 Zi.-D  USM/ Wmadow Cultivation. Abe Jm* Iter 2hur - Biol., No 21, 1958, 95%0 Author : Aa-tsmahuk) I Inst : Chernovitaldy University Title : Onobrychis are6via (WO) br. 1A MOOM. Orig Pub : 10muchn. ye*egodr1k. Cbernovitek. un-to '19% 0951), 1, No 2, 79-W- Abstract In Soviet Dukovins, Onobrythis drmr1*!,6rOws 1"tumlly in two d1ftlereat, soll-ollwatic regidne: In the forest- steppe area of the Prut-IDnestrovskiy Ismtw-riverize re- gLonp and In tbe ot*M area of the foothill Prut43eret- skly Inter-rivftine region. Beads ot omobryMm w=e. ria from both regions were planted in Us Botanic OwUn of ChernovitekLy University under eW34r coadit1cm. Cultivation teists of wild Bukovim onobrychis w*zwia for Card 1/2  ARTIOcifill. I.V. Genistalls sagittalls (L.) Gass., a now pUst in thm florm. of the U.S.S.R. Vkr.bot*xhure 16 no.2t76-79 159* (HIM 12211) 1. Chernovotskly gatudaretvsaqy universitat, kafedra betadkio (Dobrotav6 ragibn-4snitsa)  NMMOTWT, G-Kh. [Nolotkmsfk3dg lt#Mjg prof#d otvore4ip; .--JAI&4,..dotvent, rod.i 0010IMMA, Sol* Elorothwv, 7,W,?,Md*Mss!4, .red*; L13IMN"l 1#9 tekbndo Efransactions of thb kqedition for the Cooptolmnat" Study of the Carpathian Vlountains end ClsoarpathiOl I~MtAl. 01143MOOSY, Vyd.Chernivets$koho dorsh,,uivo T,41,6, (Ostilo biolodebtykh usuk) Roslymnl resutay. 19% 143 p, (MU 13M) 1. Skspedytelia po, koWokenow vyvahemiularpit I hikerpattiso (Carpathian Noutain regloa-lotaVO Saonoide)  ARUMCM. I. T. foratologlad varlatim In Me flotftr d the oqftm Own (Od- Chia= autumals 11.) am the polywrAlma of ibis "long Mroboko shur. 17 iao.206-76 160o (NM x3su) 1. Chenovltddy a"Idwesvenry unive"Itets 140todm Ilatmande (&Mow softm) (AUumlitt" OUsts)  ARTIMCHUX, M., TRIGUB, 1. .,--Ilonorh~estruggle for sconovy. Straitell no*11:19-20 11 157. (MM 10t 32) 1,Nachallnik UpraTlemiya rAchallnilm r0ot - 7?4 CMR*7?4] trestst STardlovskyron4troy (fa Artemah1k), 2.36chaljulk plaoovop 0481a Upravleniya nachallalks rabot - 774 tMIk-7"] trestA OverdlovsWom troy (for Trigub). (S"rdlovsk-Oonstruction irAutry-lecowiting)  NIKOLISKAU, Te.L. Clikollo'kap O.O*jj UXORDMM Z.A. [Wortmetalo L.All 1EBMAp T.S. (tabiedievat ToSob iR~v 10160 Dynamics of tbo biosynthesis of miava4s (gbaoose avid"e) on media vith glucose and satcharoses Mikt-Molo Wmrs. 25 no.5064Z 063 (XM l6t12) 1. Is Institute, aikrebdolegii AN Muqft  ANDRIANOV, Vasilly Vaoillye'rich; ARTIKWXv PA... rod,; IAZKIMVA, Ye A tokbv red. ~ - "II , , [ ` , A Our tAa Wash drus Xubs,~ M*aW*, In-t moobd=a , otnomllenii, 1963, 102 po (HIU ilt2)  v. 1. AFTDICIPA, V. I.- "Proced,tm for Develoyment of City-Consti-,iction Tmahnical F40oalc Indexes." Min of Hither Education USSR, Kiev Ens.1neerinr-Cmatruction Inst, lUev, 1955 (Diesertati-ns For Depree of Candidate of Tectmical Sciences) SO: Knizlmaya Letopis' lo. 26, Jme 195c, Moscow : ~1:1111..I I !1 1;.  ARUMCMIX, Too I OVI k&Mldat tokhalchestlkt muk; X"lUjWOA,jj*j, dat ar , redaktor; AZUU=OVUIY, A,, r"&korl . MAIMS. A.. talftichoskly rodAktor* [ftehmal acilAM adoaasde ladexes of atty c*jOs,t~-ucjjftj Q"Aoo%toi. ~Ollwo =ko-okftomichasklo poWatall. IPOI Obsbobei rods AA* K"llasovs, Xley. Gois.1td-vo'lit-ry po ftrelt..i arws. V= 2956, 20? p. (Ukradus-City planniac) (mm 1016) (Ulcralat-91mielpal algincerlag)  GITELIZON, I.I.; BAYLANOV, Hj,jtK)Nt)ljp V.S.; Ak'j'rj4KjjV, A.S.; SHATMINP V.Y. - I.. ..... I - -, 1.1, %,, Bioluminescence as a hydrnoptic oind blo.1"Ical, fact~or in & sea. Trudy MDIP. Otd. biol. 21sI47-155 165, (MM 18t6)  LAVHUSHIN, V.F.: TSUMMAX, ARTEMNNO, A.I. Synthesis of unsaturated ketones oontaining a furan ring Zhur.ob.khim. 31 no-9:3037-3040 3 *61. Wn 1419) 1. Khar'kovskly rosudarstvennyy univeraltat imeni A.XoGorlkogoo (K*t*nOa) (FUr4an)  LAVRUSHIN, V.F.; TSUKERM, S.V.; _Alt.-_, Synthesis of nitro derivatives of a,/S-unsmUw&ted 'ketows ecti. taining benzene wA f-aran rings. 2har.obokhlm. )2 no.4sI324- 1329 lp 162, (WRA l5o4) 1, Kharlkovskiy gatudarst"nVy universitat, (Ketones) (hran) (vitro OmpowAs)  IAVMMN, V.P.1 Tsmmmut $oVol W31M#-AA4.- Ab6arption SPOtft IDd "100hrW Of tOM 4MUP of ObAlme OW thsir vIv4d AMUP- MW.ObAbiwo 32 #o.845945�6 Ag 062 o Oau 2539) 2. Mmrlkovsldy cosaderommy =Imidtst IIn. A,$. Owfboga~ (Obauabo-apectra) (FU=)  LAVRUSHIN, V.F.; TSUKERMU, S.V.; -A~.7ucmot-& I. SYnthesis of nitrol'uran analogs of wtbWOOlconea MA their vinylogs. Zhur.ob,kMa. 32 no.411329-Ml Ap 162, (xm 1514) 1. XharIkovskiy gotudarst"unyy urAvereltst iftni A.M.Oorlkogo. (Chalcone) (ftr*n)  LAVRUSM, V.F.; TSUMMY, S.V.j ARTDMNKO.I.A.,4-.,., lboorption opectra aind hilocbromiga of fwrjm.4WvSg CC methamye"ows amd their vizql anklop, 31m,obokUs. 33 no.3:878:4W Mr 163, (MM 160) I* Kharlkoraldy padarst"myy universitst iaozd I.M. Gorlkogo, (ftm-Aboaption spectm) (Chalcons) (EW10awromi")  ARTEMENNO, I.I.; TSWERM, S.V-sTAMSHIN, V+ Absorption "otre and halohroW of nitrow=tk and dInItrb darivatbree of furn analo a of chalcors and its vinyl a s4huroobAMm, U nom2v 487-492 F 19. (OA 1713) 1. Khar,kovskiy goeuddrat"noyy universitAt issni, L.14.(Iwtkope  TSUKERW, S.V.; Alt~M,,Aj.; LOWSHIN, V.P.1 R(MJH, Yu,& Infrared spectra of hirm analogs of "cone and -their vinyl analogs* Mmr, ob. kbIm. 34 no.7#M4M7 JI 164 (HIPA 17 SO 1. Kharlkovskiy gosudantrannyy univeroit4t Uenl AsM GorIkop i Institut organioheskoy khisil, AN Ma6M  TSUKHMANP S.T.;.M ~00.,A.L; IAVAUSHTX, V.P. Dipole mownts of furon analogs of chalacus and their irinyl analogs. Zhur, obo khim, 34 no.1123591-3*7 11 1.64 (KIRA 1811) 1. Kharlkovskiy gosudarstreanyy %miyarsit-at Itacd G~rlkog**  ACC NRi td'029946 MIRCE CODE- ltg,(C1413,(,&Oli)1)010151011lfOllI INVENTOR: Artemenko, 1.__A.; Yfft~v~ch D., Kan, Yjw, $.; Nakhisbovskly. V. A. 511 ORGI none TITLE: A counter based on cryotrons. Class 42, No. 184525 lannounced by the Insti- tute-of Cybernetics AN SSSR (Institut kibernetiki AN MR); Phy JLcLotechnical- 9 t - Institute, AN SSSR (Ti-zikoi-e~hnlcheskly institut AN SSSR)j SOURCE: Izobret prom obraz tov zn, no. 15, 1966, 111 TOPIC TAGS: pulse counter, ctyogent circuit ABSTRACT: A consisttng of a control, memory, starting, and an input circuit in described. The memory circuit (see'-fl-g-.1) contains two cr"tro" Fig. 1. A cryotran counter I - Hemory circult. 2 - cryatron generator; 3-8 - crVotronn; 9-12 - terminals; 13 - control circuit. d Card 112 68  ACC NRt AP6029946 connected in parallel to the superconductinp circuit cantaininV the cryotron genera- tor control coil 1xid to the current source from the starter circuit. The control circuit has two parallel arms, each containing a control coil for the memory circuit cryotrons. One of these branches jilso includes a ervctroo whoge control col.1 is con- nectcd between a current source and the contr