SCIENTIFIC ABSTRACT KAGANOV, I. - KAGANOV, M.

Y.AC~Aikijy I. "Applicalior, of , in Inlustry. Tr. Cvc,: tiv, Vol. 47, Fo. 4, Apr. 1954, f:. 1.16. SO: Eastern European Accessions List, Vo-1. 3, No. 11., Nov. 195.1., L.;U'.  KAGARW lzraill Leyovich. professor. daktor takhnichemklUi mmi, ; %Wmmm~ A AINIX, I.Y., rodaktor; MDKIN. A.M.. tokhnichmokly redaktor. (Electronic and ionic converters (fundamentals of Imiustrial electronics)] BlektronzWe i ionnyo praobrasovatell; monovy, Drnawshlonnoi elektronikt. Moskva, Cleo. anorg. lzd-vc Pt. 2. [Ionic appratus) lowwo pribery 1955. 456 p. NLRA 9t1) Olectric current rectifiers)  KA G,4_N T .11 T1 4 rofeasor, doktor tekhnichookikh nauk; ANTIR. I.Y., redaktor; MEDVEDBY, L.Ta.. tekhnichaskiy redeklor; IF31DKIN, L.K., takhnicheskiy redaktor [Electronic and ionic converters; Oe foundation of Industrial electronics] Alektronnye i ionnye proobrasovatelt; oonovy prowyablen, noi slaktroniki. Moskva. Goo. onerg. izd-yo. Pt-3 . (Peed and qontrol circuits for ionic instruments] TSept pitantia i uprovIeniia tormykh oriborov. 1956. 528 p. (MLRA 10:2) (Blectronic instruments)  ALMSAMROV. A.G., dots; ARONOVICII, I.S., inzh.; RABIKOV, )(.A.. doktor takhn.nauk; BATUBOY, S-V-, kand.tekhn.nauk; BILIKI14), L.D., doktor tokhn.nauk-. VXNIKOY, V.A., doktor toiklin.nauk; Y'ASKIAMMY, O.M., laind.tekhn.nauk; OOLOVAII, A.T., doktor tekhn.anuk; (ICILLUITBOYA, Y.A., doktor tekhn.nauk; OfflaM. L.K.. inzh.; aRLWINSKIY, P.G., prof.; GUSICV. S.A., in2h.; DHOXHOVSKAYA, L.F., kend.tekhn.nauk; DROZIJOV. N.G., doktor tekhn.nauk; IVANOV, A.P., doktor tokba.nmuk [deceased); ,.XAGAIIOV,.:,14L., doktor takhn.Dauk; YARBIM. L.L., inzh.; KOCHNIIOVA, A.I., kand.tekhn.nauk.; IARIOIIOV, A.K.; MINOV, D.K., doktor tekhn.nauk; NNTUSHIL. A.V., dok-tor takhn.nauk; NIKULIN. N.V.. ksind.tekhn.nauk; NILHIMIR, R.A., prof.; PANTYUSHIN. V.S., prof..- PASTIMOV, V.V.. doktor tekhn.nauk: PETROV. G.N., doktor tekhll..nauk; POLIVANOV, K.H., doktor tekhn.nauk; PRIVJIZ811TSXV, V.A., dok-tor tekhn.rauk; RADUllaIT, L.D.. inzh.; REIIHN, V.T., doktor tekhn.nauk; SVOCRALSKIY, A.D., doktor tekhn.nauk; SOLOVITEV. I.I., doktor tekhn.nauk; STUPILI F.A. kand.tekhn.nauk; TALITSKIY, A.Y., prof.; TXHIII:KQV. F.Te.. kand.tekhn. nauk; FADOROV, L.I., inzh.; FEDOSEM, A.M.. doktor tekhn.nauk; KHOLYAVSKIY, G.B., inzh., CILECHET, Yu.S., doktor tokhn.nauk; SHIM"l- BMG. Ya.A., kand.tekhn.nauk; SHUMILOVSKIY, dok-tor tekhn.nauk; A14TIK, 1.13., red.; MUMV, L.Yn., tekhn.red. [The history of power anginoaring Iotoriis onergetichookoi tekhnilcl energ. izd-vo. I C, '), -1 in the U.S.S.R. im three volumeal SSSR v trekh tomalth. Hoskva, Gos. (Continued on next card)  AIXXSAla)ROV, A-G---(continued) Card 2. Vol.2. [Blectric engineering] Xlektrotekhnikm. Aytorskii kollektiv toma: Aleksandrov i dr. 1957. 727 P. (MIRA 11:2) 1. Moscow. Moskovskiy onargetichaskiy institut. 2. Gblen-korrompon- dent AN SSSR (for Iarionov) (Alectric engineering)  .K&G&IUV, L.L.; OBUKHOV, S.G. Analytic determination of nonlinear distortions in semicon- ductor power amplifiers. Nauch.dokl.vys.shkoly; radiotekh. i alektron.no.1:255-263 1 58. (MIRA 12:1) 1. Kafedra promyshlennoy slaktroniki Moskovskogo energotiche- skogo Instituta. (Transistor amplifiers)  KAGANOV, I.L.; LUKIN, K.A. Semiconductor power amplifiera fed by an alteriutting tangion. Nauch.dokl.vys.shkoly; radlotekh. i clektron,no.1:264-274 1 58. (MIRA 12:1) 1. Kafedra pronVahlannoy elektroniki Mookovskogo enorgeticheskogo instituta. (Translator amplifiers)  Dov,llopnent of Engineering Met',:oos of Computing Lon- S013/105-58-9-2/34 Frequency Semico:-,iductor-~- Amplifiers current amplification staCv with ciirvent nnil potential coupling, with various triode-- ILrId vLttrioua loads are investi~~ated ,.ind checked experi-.entally. T',,q vange of linear oper;~tion, found expt~rimentnlly, corre-Tonds i'nirly exactly to the computed valize. 2) P")v ar'IT'lifiers with transformer coupling aloo two circuit, ;-,re gjv(!r.. Firstly tle tr~:.n.,.formatj.or. -.-%tio ri iii C-orputed. In t*'Ie first variant tiie reolotancescan be :%daptod to t-,e input and to tile output it' two sE!parato tvancfovn(.,r.-3 are a-vailable. T',-.e subsequent sta-es have ~i conmon (~oiaplinj tritnsfornc-r. Fence an adaption is Only pooflible to the of the precedinG or to '!,,e ;nput of ',I-,L, nul,se,~,a4~rt For t'~e circuit elements t'-e formu'.1t:.. derived in part I holds. A.A.Lukin, S.G.Obukhov and L.S.Sokolov, Col Lat orators at the Chair of Ind,-4striai Electronlet- at t`ie IiEII asji-,ted in th- work. There tire 12 figures, I tah1c, -.Ind 7 r,-,-ferei-.cer,, 5 of uhich are Soviet. Card 2/3  GALIPERIN, Grigoriy Llvovich;- KAGANOT, -Illys Lipovich; KAWAROT, I. , red.; KALICHITS. G. a --- -, --,- [Make greater use of the potentialities of antonotlye transportation; from the praotioes of automotive vmit No.12 of the Kinsk City Kotor Vehiole Trust] Md,rm lspol~zovatl reservy avtotrensports; is opyta raboty avto'boxy llo.12 Kinskogo gorodskogo avtotrasta. Kinska Gom,lad-vo 3SIM, Red. proizvodetvannoi lit-ry, 1960. 58 p. (WA 14;3) (Kinak--Transportation, Automotive)  I I It Il I is Ull" JIM11 Hil FI"Hlil RMIt"I ,1111 PI -.q - " -1-1. .. I., I RMSOV, G.K.; ROMWELID, PZMT, 1.14; STAROSKOLISKIT, W*A.; T -1 * _'i Vasllii Aleksandrovich Ix*lmrov. Blek-tricbentyo no.7:93 Jl '6o. (MIRL 13-,8) (Iz"i-arov, Vasilti Aleksandrovich, 1885--)  AUTHORS: TITLEt PERIODICALs 0/105 6010001061171023 B014YB011 Bapat, Ya. N., Kaganov, I, L A Quick-acting Semiconductor Switch and Trigger for Electronic Computers Elektriobeetvo, 1960, 1k o. 6, PP. 76-81 TEXT: In the introduction the acceleration of the computing process is referred to as one of the principal problems facing electronic computers. Tne velocity of such process depends on the duration of the pulse fronts of input and output voltages. The duration of the fronts depends on the saturation of the triode bases, and a circuit with acceleration capacities was suggested (Ref. 1), which does not p*rAit oaturation. With a view to preventing saturation, a circuit operating on an unsaturated basis was suggested. This circuit is shown in Fig. i. Here, the triodes, TI and T2 are linked with the current source by way of the emitter circuit. This circuit was developed by -1 S. YolArke-(Ref. 2). The function of this circuit is discussed and it is stated that due to the Card 1/3  A Quick-acting Semiconductor Switch and 5/105/60/000/06/17/023 Trigger for Electronic Computers BOWD01i in Fig. 11. Ito advantages are briefly discussed. Thero ara 11 figures and 4 referencess 2 Soviet and 2 American. ASSOCIATIONs Moskovskiy energeticheskiy institut (Moscow Institute of Power Engineering) SUBMITTEDs March 10, 1960 V/C, Card 3/3  GUMIKO, T.P.; DEVYATKOV, N.D.; DCMUSKII, D.I.; DONSKOY, A.V.; Yoromp . I.S.; ZHEMEM, R.P.; KAGAHOV. I L...-.MABI-mp D.B.; IETWHIL, A.V.-; PODGURSKIY, U,L.; ROZENFELID, V.Ye.; SlrJ;kJIA.Hl)KIYp A.D.1 CHUKAYEV, D.S.; SHLYAPOSIMIKOV, B.M. I. Professor G.I. Babat; obituary. Elektrichost-vo no,,1:94 Ja '61. (MIRA 14:4) abat, Georgli Illiohj 1913 , ) B i-:196.1 (  318 S/19 61./000/010/029/082 D222~301 AUTHORS: Bapat Ya.N. and Kaganov, I.L. TITLE: Current-switching logical elements PERIODICAL: Referativnyy zhurnal. Avtomatika 1. rarlioelektronika, no. 10, 1961, 32, abstract 10 B210 (Tr. Mosk. energ. in-ta, 1961, no. 34, 5-15) TM(T: Typical logical units, triggers and half-adders built with transistors of the alloyed and drift types are described. The calculation of these circuits is given. E3q)erimental investi- gation of these elements have shomi that the supply voltages can vary within � 15' individually, without influencing the duration of i0 Q the front or the delay, if the other voltages are kept constant. The parameters of elements have been found which can give high stab- ility and speed in computers, enabling a switching speed of 5-10 mc/s to be reached when n-402 (P-4023-type transistors are used, Card 1/2  31827 S/194/61/000/010/029/082 Current-switching logical elements D222/D301. and 500 kc/s with the i-1-11 (P-11) and n-i5 (P-15) transistors. 6 figures. 6 references. Z-Abstracter's note: Complete transla- tion~7/ -k Card 2/2  S/194/61/000/010/031/082 D222/D301 &J THORS aroy,, Starostin, A.N. and Shustov, S.S. _~~ _. I TITLE: The base resistance of transistors in pulse opera- tion PERIODICAL: Referativnyy zhurnal. Avtomatilca i radioelektronika, no. 10, 1961, 32, abstract 10 8213 (Tr. Mosk. energ. in-ta, 1961, no. 34, 16-23) TEXT: In the analysis of pulse operating conditions of elements in transistorized digital computers it is necessary to take into account the time variation of base resistance. An inves- tigation into the course of base resistance variation in a number of transistor types ( 6-6 (11-13), n-i5 (P-15)) is described. Os- cillographic studies are compared with the results of a mathemati- cal analysis. The method used enables the time constant of carrier life in the saturation regime to be found. 3 figures. 4 references. ,~_Abstracterls note: Complete translation_7 Card 1/1  IRITIQ1 STEPP11ENKO, Igor' Favlovich; KAGANOV, I.L., pr*4, r"monsw4tj KOSTIYENKOt A*1.q red.; LARIOKOV, G.Ye.p telchn. red', [Principles of transistor theory and transistor circuits] Osnovy teorii tranzistorov i tranzistorrorkh skhem. Moskvaj, Gosenergoizdat~ 1963. 375 p. (JURA .1733)  FAGANCIV9 I.L.; KAININ)LOTSKlY, Yu.M. Effertivemns construction of the pafameter syntiam oe' large po'vlr~najtlfim:~s. Elektrichastvo no.700-74 Jl 165. 18M  ;-H )111 1: tw,,q, , RAGANOV, I.L,,, doktor tekhae nm*p-. prof, j, Uureat L6aLmkvy--jw*%U Padagogioal- amd saientif ia work of the dal*rtmant of. inift&trial eleatr=ica of - the Moatmaw Fawr Engineering tratitute. Trudy NEI 5585-10 165, (I(MA 18110)  ' go 00 000#00000000 090 et N s 4 O C A L_J__ 6 1.4-S L a A I a a A I 1 1-1. J. I 4A 0 49 0 0 .-0 1- clovat I'm has, MAXIM- materwit for I KvAithamw Amu I N k d Z v j r i rap Fitem. taft c * ow kvy*n pd bm the kighest virlixity dining lbe sodbig at Ow b4onalr4 of tht poo"s. Vit us% 00 t Swcd 4 crysilm. dom u4A noml 10,0W mg. ca I sq. a. v( cirytital muface ocir man (kW ILF (tom the wk=Mt of the ""Umg is 1"Pitint to OMAN% it"tialil 0 1 won, Irligth F-w a ouimir cryntal of to mhtwy kind the approx. mist it- P - 1) $.S V and S - 2 1 Lt. where P is the wt td the crystal In ml, S lu murface in sq am, mid L its knob .60 its min fulmow 00 0: goo .490 ' 00 '00 " 00", 00 00 f 00 As.. It A .#1ALlU*(,K&t U111111641 (SAIVOIC416014 o T o 0 0 0 * TO 0 0 0000 a 0 0 0 0 0 0 0 0 0 4 0 0 0 0 0 40 1* 0 0 60 0 :111 0 0 0 0 0 41 0 it 141 0 6 1600 it" a 0 91 4 0 0 *'~  0.4.4.0.10 -h is 0 6 0 q 0 0 0 0 111 0 0 0 0 0 111 0 0 a 0 0 0 1. a 0 0 0 0 464 0 * 0 0 a 4 4 0 0 0 0 111 0 j 4 5 6 1 4 1 a Il Is W Is Ed 1116 t#A'?flj zpma A 17 IS 2v '11, V 0 if m I k 11 to p I 'i .1 I Y T.W _I T I AA 0 (A PC 11.4 At, Sm"r Za'OiSAi -40 1 2&3-~14931) -A mvkw u( tht Iftinjure W Sugar CfytAk~y. -00 V. 11 RAMP. 00 0 go A it w it 't it 0 0 0 0 0 0 0 0 0 0 0 V -of zoo see %n A 1, 4 IN it d, 0  ........ ...... 0*0 60 000 0 0 00 00 0 se e 0 .0 0 s000 0 0 of a u wIt 11 it a a M a is it At h A) jj 1) M 11 31 w it )o a 0 P J,Q 2I 1 4 -1-A- AA 10 CC OP fl+o Iij1-1 -A~ ...b lot .01 N Ant) V. F: Ikwotiit. Vank ;f4pujj * A if~~&"Iik'tll.tl(fingialflIWOM'"ClhAU$-lh)flbAWd un lak f1pil II,&AA.,w *0 0 : -* 0 0 .00 so ,0 0 1~A Is so j .3 ZA 00 '40 0 of 0 0,4 is 0 *0 .1 lot& t,.n At L111041will it asurK.Ow. 00 400 ar 4 0 0 0 0 0 0 0 0 0 0 0 0 0 01* 0 0 0 0 0 6 8 o o o 0 o 0 0 0 o 0 0 0 o 0 0 0 0 a 0 0 0 0 * 0 * 0 0 0 0 0 0 0 .  r 1i,mfuj;Pw As w 0 0 %A -19111101161IV31 I As v w4) 0 A f. A I P - G A - P 4 t A - t- It I -L-J-4 0. (Z IV It. S., V.4 A -t, 1~ a 00 A 44.It, 00 00 TabUS for Polaimairld analrb. 1. N. Karmaim,. 00 a %14dr 14. No. 1"]. 16(194()). 0 Um.-Croalm man in the tables of VmKoL(m Liol 100 lope%" kit finding the taults Ati putwigortiric arstlysit 0 ofmimproductsen pointed ant. Tbefiallowiallonnsila 1,. *00 proposed ftw "Its' 1wix 00 of the pto4wi bum thAt 111 0 dw sain. used for amdy*: 8 111 IOU 0 b/26A42, witim 11 00 -Elf is be Brix of do pradva, & tbat of the not7ml wt. stAjl,. ho Is at SIDO. 0 theJ10 of the armal W. u4n, cmmpiml. 09 a - 1 40 to Its Dria. OW MM2 Is ON mmal wt. In TOMO. P. W. zeftsam ;60 :00 :09 :10 iiwcw- -i 1; U s AV I 0- AS dOW, I : : 9 a 1 3 1 0 0 0 0 0 0 40,16* 0 0 0 0 4 0 0 0 4 * 0 0 0 6 0 00 0 0 * is. 0 00 0 0 0 L 0 0 0 0 0 0 41_:~  Ipm-, 0 0 000000090 004 oaf A to At A, At c-Dili A As GkOAW r "aysile tor 44wmw ktvkll awl 1. N III I 'w , I M!9-6; Kkiloo. 'P- 00 No. 7-41. 123(1941).-Ica tht ALWYAh Of 111tulillur 9 00 a *I il" joils ilot rhanp tbe IvV. at t114 a mmunifor"I & will. it whkh the Pit flows lot* wive. clianva lit ibe prv 11W Guiltyrrr Sud viltiatims In At lemp. of the 0111midit air 0 41! wv m4y ?Mll have gut COW as the Andlywir. $00" "n Ifum chatices in the IMP. 19 $lit 4112 NrAIT"A 0&1 "lulotum irwitent. The methotl of maraywo it Osionribe& Vuller PUAI Wndilloin the elve . t" -1 won guts- tinily accumle. Itca" :01111 '410 __9 0 9 e 00 #$41-ILA -ITALLtlOGICAL WCOATI.St (MINKATIC. to 0 too 10 Ill I I I no 0 's 0 11F s- 11 a I Ot 0 1 J4 0 it otitim" sit wis n"o Ila .4 0 04 o 0 0 q 0 0 0 a 0 04,006 0 0 110, 00 0 0 0 00 101 0 0 0 00. 0!0 ro - A-!-$ 0 0  W ft Me A, fp AN 9W 1914,14131 Aft"11111 ANN: 41111fill': M.1141111 91 Ir 'W v 11I M, W.W Out *m t, it if all* -A L a im. (1141-111, J.. 0 ... AJ--A !' A off '110CIP111111 44 tlfw~.T-01 4.-ff so c A Oba WINAS ' ffs'd "'Ablestall-4 tole bmt* 4W #41giff A. X. KNIXAWV am I A Ittmaplimpmuhs, 21-41.-A-im4l amat". :'jjkqu'4&hj'h Lvk* vshom fta bo NaNANNIC bir low tMIN1110ft-i lot sujANA bwqs. It Is rmmtumWlld 11bat Oft WrW out at 12D-1404 fur 2) sain. The Ifflo, hratka be 4-1101 Adw"Ism ChLISM4 Off mor rawimt utiliftlims W t6c mkW W tbv bLvts and mat"d and thm of W1- dima. & GuitliAb 0 041 1-06 so 0 *ov Coo coo goo go woo Isom I L A 34 iio;~ ii ii-s tw- 'a &S 0 a o IWOO pop** ad st a 14 000 0 0 0 0 0 0 4111 0 96000 0 00 0 0 11111 9 v0 0 0 0 41110 0 41 0 411 41 0 a Is 600 00 0 * a 411is 0 4111 0 0 0 0 * & 0 0 41110  0*0*0000000*00 . . ~~ 1 4 11 f, I- I 1- -1- AL- -L.LA,, so CoL2pWdM Of M0111111414111. A 1"rmayd Prow. It. No. fl. 24(19Mi.-AnjIytk-AI -14fit --so wt given for 3 'yl*' C4 Stiola%". Ill Which lwalugus have accurnutairl to all citem wheir (tuthet rrymo. -of ti -ocar Is Inhitmited, The d4td di~pmvv the Ou-liry thist -46 4 he inain sirup forsurys are 1111PPIM(AL34 sulniancr%, all I 8 that in n%Aa,,w% I g IIIA. %kill t Nuiv. of an silliAls nictal 11--h 0 0 is J : 1 '00 00 -tp 0 -60 too 1 0: S L A TALLUUKAL LtIONAT1,41 CLASUPKAIWO 0 111 - --, - - t U 13 AV AS; I It 1. 5 a 3 a 0 a to 0 at x A 11 9 Is KID P, I 11a 000 0 0 0 is : :13 0 W4111 0 0 0 0 * 0 0 0* : a *1: 00  e ifilf?f loot o it m 1 1 1 m 1, 11 41 -4 #1 a r " c- e , ~ R-pl- r.6 A4- W. ~C W U.J.4 so Ion tickajors. 1. &Ikkarmaya Prol", 19 N t . o. 3, 2 pn. 111M1 fuWtioning fit r twtund and syndwtic. mg. am , mwg, fissr, Olki &cpj rx- 00 S chang"n are tvvir*ed Welly. -0 1-00 AA - - 7 17 !V0 :- too ?-ttuk;tx -t lilyff.tL49 It-Itamiallew 00 3 1% rp oil 1.4 !-, ". - t4 nt 0 ce 0 0 0 0 0 0 % 00 00 0  A A :0 oed 041 00 le 0 0 00 00 W 00 r 0 0 0 0 41 0 0 0 to It it .1. o 'j 1A -A-L A_r- a 1I.- J.- VA JL L III J!" . , - PlIflittioll lift p 1PIN4 Saco 14J. Abdrairts 10. 94(liwi; Cf. C.A. 41. 4W'8. Thr theory ht"i tin the "irmleTn"t" cotlMjWt. I $*Art Of "I'l .. Its b lutl% 4-1 sugar. is W-W .11"lemi laultv. tit fics4l MopLuors th,- -lipt/4.1v I ...h -wit.) - Ilwkjl 13; Arr i" evIIA119C. tIW SIA OWN - im"IlY -*)' 11 1& thirlVitat Mgt thr Aftll 1111ila Is Atutiltic'm theory is that 1 1%411411 'j IVAIJ* up *~'% IbMts Ut Oultat. lost K. has f4mail moStur / N ot XNI in fitLil isiollAsses hic liert IdItAl. '~Ml :b)l) in cAliw Mobasev. I)blrk fou"it equAl jir~nxw- title" .11 SUCAf In 1110114SAWt 41111 W I~ ~1110. AM 04199~1.Nl theory of Chet". cletlesukticv, tit raffinaile Irrivrver. thir S. tool. of wmg*r - 4 timars the C. mill. fit 1, -Jim; In vnA4%w% from juicir Iturifini by iod etil:11141111r. it is 11) firin". In INS). Iluning shownl IhAt ate, will throw out suW from sq. soln.. trit not train W0.1%mrs. the sagar is tbvfc(oce not tier. 1xit clietinkAy bound to n4vinsugars (Atul partly am K s.41ts), and Ctaloacu piltited -nit shot Supf is owainalge froot inotasm after Ph(OAc)s "rifinition, Itw ac+f repladng thir Iwo W. But, Ill favt. Jr. lk" w-t inin with roolAmilot. and abit, etc. tiloct, wit .1i,wilve m4ar. Satd. sugar goln. will Ink with I will. tit Ate. to 1 MA. of WAter. while water alone takes only I it". .4 AC. 1W.'Olf HPVC Of WAtflr, belice, sk. ttilkovril F~ugla' I.-Itmir mig.r. IltsJOAch really ircro Putar from ItAid. or the th"try of a of vug_ar and unit. oug-4ts is th-id-wir not prov"t, %irwv the WOWS or air. 1, not nevir,,tanly derornpit. any c-ml%t. It I. im4grstell . . ...... T.17"IrIjo 0 0 0 0 A -it. A 041 .0 ill 'silly I tcllljp~ esmi.. ftIR. lnk'rea%~ with ,, I V; 'r Alt MIVA Im Dl* &C Ind. tier 4 all-,. the Ilk-mate 44 VC1131. Is vr'Y A-- The clicirs. thowr I. jb"tfore WAdvT if. it"d the rrtI lle 1,,%, 1 It nil dw-Whe". .1,11 PCIINI, "-Wk%l. Milt. df jjK-rlW.. JrWtuilt. Lgl,. "t an I Ishich Me sit". clwfi. fur wrome WILS bo"Y'ref. Inund to he boixot.11111. The effvvt COAI litat 9W.Orklmampin. (hC4WV C.11111411 1111111Y to IIIU,h &Ili 1jejA1,11T.", R. 11. IL T b u a a mcp U 00*0004000000006000 lea.1 0 01 00 0*0411110A00"14004111104111000000000 0004 ~o 111, 1*01 *4 40 goo CO it P so I# 111141111111, 90.0 c0 a see goo goo boo moo 1146 0 0600000s160 0 40 0 0 41 44000*0000000*46 41  UGANOV9 I. N. 29102-Sakharoza kak Pi Eleb"W Produkt. Sakhar. Fmm--et I p Igh9, No. 8,0 S. 16-17 80% tatopis' Zb=Altnykh Stateys Vol. 39, Moskva, 1949  .A 00 A 00A of 00 0 :0 0 0 *0 so 00 0 00 w 00 b w 4 00. 44 -H SOX r n M W, a I.. C I I , III P.0 gap 7-4 so SW*bfty of wW In pswe wattv. 1. 'tlf- K= M. NO. 2. :17-Amno). -Thi! =1746 tho WAY. III v4pr Is: tog S - - 167,1113$ + immur + 717973 too r. wbvre i is the aint. ot sugar an too posts at wAter by wt. aod r is uji. abs. 0 tempio. Thrve cipti. detus. weve mult al, 5.1 *, ON1 .-I,* s4d 45 No 1** :, fto it 16 0 It * Af got* ave, lots ,-.%.L Ow 0 L "Ir I U 0 AV 10 AS a a a of A x Ow te 4~6 4, 11 Ina %a Iwo 0 0 0 s to s 411, 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0 0 0 0 0 000 0 000000 0 0 0 Is 0 0 0 6 0 0 40 0 0 0 0 fh to  T. M. Chemical Abst. vol. 48 Apr. 10, 1954 Sugar, Starch, and Gums viscositt of I pit J10101011I..L ,~K Ul f- '" ii'mr. , 23, Ae",'"Whelell 14 vi-XI)fWy,J,MC-3111t-EI flit Mat"Illar" vaerry ofact ivail, (it'll if)(. will, in palfes, RI'll 0:011 utO I' the sibs. temp., it chtitt Iii c.usitucted 11i; 1403tInputilig tile vkutitity td jullar r~lni, Ill wrrns 0 dry milstitrve. 0. W. willejq--  r, #- I'm "== r ll~ 5"r-1111, ,Y..,A 1. . pr rt;03p; lolimli; 26 -,( IV51 I - n AnKwpr.~$ Fullw d,wmb U lbU, bb--4= Wa =1': tewl1w. bmween Ica=-10 mneull lbe "724&1l v 1(. NAP""  T - ., I.. - 1. . - 4 ) -. . -1.- ~u.-,tr - T,*,,muf:,~ctur`.ii:- !!-ii-A Jwfiidn~--, Kinet.ic-; of i!t concentr,~tcd su;,.,tr 3olutio:is,. !() '~;'O. 2, IJ~)2 Lint of i0n.dan Librn-ry c,~' 1()-:')2. ! ~!" Iii 1 D. .., - k , ~,  /The co,!91cicjjt of .jIlturatIgin; 1, --A , I i: FrJoll. I vjjjt:r, ij t ,e 111)lvli t jtt I (1j, jr,* "i, "PlAt It, IQ 1-f C. ,10IN 1 .32  XAGANOV, I.N. Imoroved contrifuge cover. Sakh. prom. 32 no. 6t?5 Jo 058. (MIRA 11:7) (Centrifuges)  KAGANOV, I.M. Coupling in a sumpendad cantrifugo. Sakh. prom. 32 no. 6:76 Jo 1%. (KIRA 11:7) (Couplings) (Contrif ujoae)  XAGANOV, I-N-- -.,TYERDOKHMOV, L.S. t Zxhauation of feed molasses with mn Inrrense, In Its concentrntion. Snkh. prom. 32 no.2:22-25 F 159. (MIJU 11:1) 1. Moskovskiy tokhnologicheakiy institut plahchatroy promyshlennostl (for JrAganov). 2. StAlinaknyn gruDpovaya lnborqtoriyA (for Tverdokhlebov). (lAolasses) (Sugnr mAnufReture)  TV=QKHLNBOV, L.S.:,-KAGANOV, I.N. Rate of exhaustion of concentrated feed molaesma. Salche prom. 32 no. 7:20-22 Jy 158. (MIRA 11:8) 1. Stalinskaya gruppovays laboratoriya (for Tvardokblabov). 2. Moskovskiy tekhnologicheskiy institut pishchevoy promyshlennosti (for Kaganov). (Sugar manufacture) (Molasses)  KAGAH3V, I.N.; TVIRDOKHIKBOV, L.S. Value of the coefficient of saturation. Sakh,prom 33 no.3: 15-16 Mr 159. iIIIBA 12:4) 1. Mnskovskiy tekhnologicheskiy institut p1shchevoy protWohlon- nosti (for KWnov). 2. Stalinakaya gruppoviqa labormtorlya, (for Tverdokblebov). (sugar manufacture)  KAGMIOV9 I.No Galculation of the yields of sucrose w3d theoretical w1asses. Sakh.prom. 35 no.4:34 Ap 161. (KTRA 14:3) 1. lbokovskiy tekhnologicheakiy institut pishchevoy promyshlennoati. (Sucrose) (Molasses)  TUZHILKIN, V.I.; KAGANOV, I.N.. Galculating machines in the sugar industry. Sttkh.prom. 37 no,7t 31-37 J'l 163. (MM 160) 1. Moskovskiy tekhnologichoskly institut plahchavoy promyshlennosti. (Sugar industry) (Calculati:og machines)  I KAGANOV 0 1. N. Optimum concentration of molatsoes. Sakh.promil no.IL:18-21 N 163o (MA 16:11) 1. 146skovskiy tekhnologicheakiy institut pishchevoy promyslaen- nosti.  KAGANCV, Isaak Natanovich; MIKHATOVA, Galina flikolayevva; VOYKOVA, A.A., red. (Chemical and technical calculations and accounting In sugar manufacture] Khimiko-tokhnicheskie raschety i uchet v sakharnom proizvodstve. Mookva, Pishohevaia promyshlennost', 1964. 330 p. (MIRA i8-14)  L 42791-60 EWT/EWP(t)/ETI IJ ACC NRt AP6029076 SOURCE CODE: UR/0413/66/000/014/01.32/0132 INVENTOR: Kaganov, 1. R.: Andrevev, A. S. J7 0 ORG: none TITLE: Method of'obtaining pvbtective oxide filmalon the surface of alloy steels and alloys. Class 48, No. 1840W(announced by the Design and PlanninR Technological Scientific Research Institute of Machine Building (Nauchno-Issladovatel'skiy proy konstruktorskiy institut tekhnologii mashinostrayeniya)) SOURCE: Izobret prom obraz tov zn, no. 14, 1966, 132 TOPIC TAGS: alloy steel, aiigy-a-tee+ ective ! t pro f4d=,- oxide fthm formation ABSTRACT: This Author Certificate introduces a method of forming protective oxide films on the surface of alloy steel and alloy parts. To increase the film resistance to the molten media and to facilitate the formation of films on inner surfaces of 1 parts, the process is carried out in a powder mixture containing 10-152 vanadium V pentoxide, 70-80% aluminum, oxde, 10-152 chromium oxide, and 3-5% copper oxide at 750-950C for 2-4 hr. _j, SUB CODE: 13/ SUBM DATE: 16Nov64. ArD S , _5 S'd zc Card 1/1 UDC: 621,793.6: 6$9,15-JL4,62~.2 ____j  KAGANOV, L. Precision formula. Meot.promA khud.promyo. 2 no.5:3-6 My 161, (Moscow-Blectrio shavers) (MIRA 1495) ,11~  Important pro~~.--*c.... Vest. pror. i ':hud. :-rcA.,yu 2 nc,.6:3C-113 Je 161, 1. Spetsialln,,~,, koVes,t),--n0ent zhiuTah "llext.-naya i I-Jludo:.hestven:i-.rfe promrsly", Orekliuvo4luyvrukiy rez-,n, lioskovskc;y oblrsti. (Service industries)  1 ;1- I'l I .., ...... ~ .. . .- . I . KAGANOV, L. (Riga) Meeting people's requiremonts. Meat,prom. i kbad.prorwre. 2 no.9:28-31 S 161. (141RA 14-ill) 1. Spetsialtnyy korrespondent 2hurnals. %stnaya promyehlennoatt i khudozhestvennye Promaw. (Riga--Service industries)  KAGANOV, L. (selo Petrovskoye, Stavropol'skogo kraya); XWUS, V. (selo Petrovskoye, Stavropollskogo kraya) The service IndustrIes of a district. Mest.prom.i khud promys 3 no.7:24-28 J1 162. iMIRA 1;.8) 1. SpetsialInyye, korrespondenty zhurrwl-a "&stnaya pvcmyehIennost' i khudozhestvennyye promysly". (Stavropol Territory --- Service Inditstrico)  U i;V W, I ~ I W] I FICH11H t ell IM1111IF III ~ Ill Olt! 1 -11 ~ I [till Ulf, JD L 8348-66 ACC NRi AP5025757 AUMORSS Kapnov, L. B.; Kaganov, V. L.1 Finklerp So. Too ORG: none TITLE: Device for automaticallY advanoing the deatrode-ijilatrutolpt duringi laleatro- chining o _jM1 ma f holes. class 49p 10- 174935 SOURCE: Byulleten' izobreteniy i toymMkh znakovo no. 111i 1965:, 121 TOPIC TAGSs electrochemical machining, electrode,# MC-r'44-:i M4 dINIVe- ABSTRACTs This Author Certificate presents a-Avice for ~A-Dmav4i6jaiy advtj OiJ14 ithe electrode-instrument duri leatrodhotmical ii ia-O-- electrolyte supply.- The device ical tiolly wl.th the el0c,trod)e- instrument moving axially inaide the 'body (see fig. I). V1 Isimt1j.1ty cowtift0ticl'm and to pravide continuous electrode-i: 8 ULM haj.e machinizelt thia eleotrode-instrument is Bpring-loaded in the axial direot:1.ojtt,. Tim, front 04d, is folosed by a dielectric disk held on a shoulder with openings for i$a o1*c:L-ro%ytej vj%ilw its back end is closed by a throttling disk* =4 621-9-0441 Carcl 1/2 4  112-3-5791 Translation from; Referativnyy Zhurnal, Elektrotekhniks, 1957 Fr 3, P. lo6 (ussR) AUTHORS: Kaganov, L. M., Kolosove, K. D. TITLE-~ ence W-Voing Organo-silicon InBulation (Opyt primeneniya kremniyorganicheskoy izolyatsii) PERIODICAL: Inform.-tekhn. sb. M-vo elektrotekhn. prom-sti SSSR, 1956, Nr 1 (85) PP- 3-8 ABSTRACT: A large group of insulating materials based on organo, silicon compounds has been developed. They possess good dielectric and mechanical properties, which they retain when subjected to high temperature, moisture and oil. The use of org eno-silicon materials for insulating motor windings resul ts 14 greater reliability and provides a longer period of service, with an increase in power in certain cases. The following organo-silicon materials are used in the manufacture of electrio motors: 1) lacquers 4Q5 -3 and --)o -5 (TY MXT7 2300 - 53); 2) enamel 7TR.9 - 14; 3) elastic vitreous mic anite on lacquer --)~b -5 with a thickness of 0.3 n1m; 1 1) glass-and- mica band on lacquer,3~6 -5 with a thickness of 0,17 mm, and others. The techni4ue for manufacturing electric motors with or$ano-silicon insulation is basically the Card 1/2  .~AGAIIOVt Im-Nendelp~L#h; KLOKOVI nouchnYy red,, KULIKOV, V.N.., red.; BARANOVA., 11,11, tekhn. red. [Tecbnoiogy of random trindings)Tekhnologiia vs3,pwjkh obmotok. Moskva; Proftekhizdat., 1962. 139 p. . OURA 15:8) (Electric machinery-Alindings)  KAGANOV, Lev Hendelevichj VlHOGRADOV, N.V., red. (Technology of rigid r*%tor coils] Tekhnologiia zheatkikh statornykh obmotok. Moskva, Energiia, 1965. 93 p. (Tekhnologiia elektromashinostroyaniia, no.1) (HIRA It-tU)  33552 S/135/6,1/000/002/008/010 r -11 A006/A101 AUTHORS: Balkovets, D. S., Doctor of Technical Sciences, Knganov, L. N., Khudyshev, A. F., Engineers TITLE: The effect of the welding-speed on ductIlIty of weld joints In some refractory alloys PERIODICAL: Svarochnoye proizvodstvo, no. 2. 1962, 31-32 TEXT: It was assumed that ductility of weld joints could be raised by eliminating brittle structure components at grain boundaries, with the aid of high speed welding, predetermining least values of linear energy and a short- term. effect of the thermal cycle. To check this assumpt1cm, weld joints were produced by roller and electron-beam welding. Molybdenum alloy plates, 1 + I nn thick, containing about 0.25% Zr and 0.25% Ti, were roller weldt.4 at 36 m/hour, 0.16 see pulse duration, and 0.44 see time Interval between the pulses. Speci- mens so welded could be bent up to 1800. This high ductility Is; explained by the short-time effect of the thermal-cycle. The effect ofthe welding speed was tested on 0.5 and 1 mm thick plates, electron-beAm welaea at. various speeds. At 9 m/hr welding speed the bend angle was close to zero at roarit 'test temperature; Card G)  BALKOVETS, D.S.p Some characteristics in the welding of nlobium anti its alloys. Svar.proizv. no.10110-12 0 163. (MIFU 16:11)  LIPSHITS, I. [Lifshytol, I.]; UGANOV M. (Kahanov, M.), doktor fiz, matem.nauk (Kharlkovf:~ Quantum mechanics and solids. Nauka i zhyttia 12 no.4t2l-23 Ap 62. (NIRA 15t8) 1. Chlen-kozzespondent AN &M i AN UkrSM. (Wave mechanics) (Solids)  KAGANOV, M.A.; ROWSHTOK, Yu.4 Accuracy of measurements of heat f3,uxes with vwliously ohaped thermometers. Izv. AN SSSR. Ser.geofix. no.1011397-1398 0 162, (H3RA IW) 1* Agrofizioheskiy nauchno-isoledovatollskiy inmtitut, (Temperature-44easurement)  ACCESSION NR: AT4037535 S/2563/63/000/224/0203/0:216 AUTHOR: Chudnovskiy, A.F.; Babanov, A.A.; Kagahov, M.A.; lazarev, A.I.; Chernyakova, N.A. TITLE: Equipment for measuring the heat "Pacity and thernal conductivity of metals at high temperatures, and data for same heat resistant alloys SOURCE: Leningrad. Politekhntcheskiy institut. Trudy*, vo. 224, 1963. Lit- eyny*ye svoystva zharoprochnykkh splavov (Castability of hoat-rergistant alloys), 203-216 TOPIC TAGS: castability, heat resistant alloy, iron based alloy, nickel based alloy, Nichrome alloy, austenitic steel, cast steel, hi8h alloy nteel, alloy composition, cast alloy steel, alloy No.3, alloy Khl, alloy Xh32,, alloy No. 6, steel lOKhSND, steel l5KhSND, steel 65 G,,steel IKhl8N9, transf*mer steel, alloy heat capacity, alloy thermal conductivity, hollow sphere measuring pro- cedure, alpha calorimeter measuring procedure, heat capacity measurement, beat conductivity measurement ABSTRACT: Special equipment (see Fig. I in the Enclosure) vals dosigned and con- structed to measure the heat capacity and thermal conductivity ol metals at Card 1/4 -All 5L:il: L'11121  ACCESSION NR: AT4037535 temperatures up to 1000C and to obtain curves for the dependence of these para- meters on temperature. The hollow sphere procedure wan used to measure thermal conductivity, while heat capacity was determined by means of a teclinique involv- ing two samples, one of which acts as a calorimeter and the other as a no-called 11alpha calorimeter". Metals tested included a number of heat real.stant alloys (see Nekhendzi, Yu. A., p. 9-23, this same books for compositions) at%d other cast alloy steels. The results indicate that the sp~2cific hentij coincide closely at similar temperatures for alloys of widely varying compositLan. Sli.-,Irp peaks In the gamma to alpha conversion range were noted for 100SND, 15KIISli'D and 65 G. Similar peaks, but at varying temperaturen, were noted fi3r forritic steels with 5% Si, steel Bdil8N9 and heat resistant alloys not subject to sucli conversions. Thermal conductivity values ranged from about 55-65 cal/in-de,i,,rees at 100C to about 25-35 at 800C, except for 65 G (about 42 at 200C to about 25 at 800C) -and alloy No. 3 (about 10 at 150C to about 5 at 850C). Orig. art. hnn: 12 grapho and 6 formulas. ASSOCIATION: Leningradskiy politekhnicheskiy inatitut its. X.1. Kaltnina (Leningrad P61ytechnical Institute) Card  I ACCESSION NR: AT4037533 SUBMITTED: 00 SUB CODE: MH DATE ACQ: 04jun64 HINCL: 01 NO REP SOV: 003 (VnMR: ODO Card 3/4  ACCESSION NR: AT4037535 ENCLOSURE: 01 'Fig..l Overall view of the meaBur- ing equLpment. vncuum furtiace 2 - fore-pump PVN-20 3 - diffiision oil pump T*)4OA 4 - scalen 5 - hinged lea[ bench () - potentiometer PPVIl 7 - clock- with timer 8 - pomp, heater, trnnsforiner and 001er ~-)..vltcher, 9 - vacuum gage dial wl.ndou, 10 - rotating hoint It - upper frame plate 12 - adjumtable (cock 13 - transformer (127112 v), two- parallel loitced auto transfer- mers IATR-11 'thermocouple vacuum gage VT-2 .14 - fuse box -TIP- Card 4/4  30866. KAIOJAVOVJ ell. A. and CRDNOVSKIY, A. F. Opredeleniya koeffitsienta temperafuro provod nos ti poclivy po dannym. srochnykh izmereniy temperatury. Izvestiya Akad. nauk S"ll., !larlya fy,-togr. geofiz., 1949, No. 5, s. 423-33. -- Bibliogr: 5 nazv.  . I Ill-' A 1,111 ;1" 1 1 il"114490111WINFif Ill 0111- IT: 1.1 "'IF! IF II 1111 , .1 ;- " 11 ~ I I - . . II I ~ , - , ,, ", , . EMNEDUMMMM KAGANOV, M.A. Use of thermistore In measuring temperature* l1bor.trud.po agrotli, fix. no.ir62-72 152. (MIRL Ul 7) (Thermometr.v) (Thermistors)  KAGANOV, H.A.; CRUDIIOVSKIY, A.F. measuring the temperature of the ooi. surface. Sbor.trud.po agron. fis. no.5:81-85 152. (Hin 11: 1) (Soil temperature--Measurement)  KAGANOV, M.A. Device f.or determining thermal characteriati(B of eoll under natural conditions. Sbor.trud.po agron. fis. iio.5:90-96 152. (MIRA 11:7) (Soil temperature--Measurement)  -KAGANOV, M.A.; CHb-Dl',OVSKIT, A.F. Using semiconductor thermletorB for reanaring zilcracliaabq. Sbor.trud.po agron.fiz. no.5:102-113 152. (MIRA llt7) (Thormistors) (Microclimatology)  11111; P I 'j; I I, r ViiA vai-mml. Tr,, 01, ri"w"It I' ,:.;I 6J. 195J. 111 7 1 .6h,. !k DIX A 1.0,-1 ", jfrj,:.jj"j '11'.1 4" ~ Oi,o i, I I v 4, 0 i% p lw AW, ":m hvi~h 1- 1,. 1 -1 ., , lit, dimmti C'~j :14,111VO, It! u-1 Rtwop4sn U.S,N.R. I  5.1 -181 Kjgano~; -NI, A, and CliudnoviU, A~ V, ka"ItU tual-t Impletilt-0- Meteorological Abst. .1411jemlill Sailk, .3.S.S.'R.' 1:mIssil, -SI-P, (0 fds.. ~3 vit. OLC---NttthAs (:i detemikkV tht!~iiwfildeia of himl emidiwilvity of tilt Vol. 5 No. 1 :,,ii toicel utyn the ba that it hai i jxr;'.)dw,0wractt tirt it vtr%O%-tKL Tho Owlliiez-'t ut IICAt Jan. 1954 comiuctivity ij determined by itteamiring sAill evmptjtjL-,tAtt,9 at tco Ot-401s Ivr Olt diumsal, Part I -t-Imantloal fit U11111131 1wrimis, r-q1titiml foil I-Ilh-uht-fig the CA)vffit:;tT%t J )Iwt OnlldllctiN ity Radiation and Temperature ill alld millhomopm-oos w)it wid wmplib III the valculatil)" of tL)l avflkimt 'lrv givelt. Sub.ket HeculiAlft: 1. SO tAmpelichuts 3. Irtat Cundmdvitj of scim S. Hut mductivity coeffidenL--U,.D-__.  KAGANOV, M.A.; RTABOVA, Ts.P.; CIWMVSKIT. A.P. Soil temperature of fields between strirpi of forest, Sbor,trude po agron.fis, no*6:96-104 153. (MIRA 11:7) (Soil temperature) (7orest Influ:inces)  o;' Dol, Ahl T 1, 0. IZ 1 n t - j; o on Ca: d P y s -1 In. L I i S , c: 11! 1 -cv) r !.,t, A. I. (I'L, :.'o 1 A '30., of 3c.L;,-!,,. Trt,;iiti 1,~! DI t: t L-I at 3 list 1 '1 iC7 I  XAGANOV,I-IM4, High-sensitiv"ity conditions for unbalaiced bridge circuits. Izm.tekh.no.2%36-39 Mr-Ap 156. (NIZA 9:7) (Blectric measurements) 11-1i  OW0,; KORODOCHKIN, I.T.; SHLINOTICH, S.M. KAGAIUL6,M. A WA Measuring instruments based on the utilization of semleondacting thprmistors. Priborostroonle no.8:10-12 Ag '56. (MM 9:10) (Blectric Instruments) (Thermistors)  USS RI/A -- ~,ir --c ar.i MoiecuIar Physics - Heat, D-4 A'jst Jouri)ai: Referat Zhur - FIzika, No 12, 1956, 34393 Auther: Kagarov, M. A. Instituti"'n: Ncne Title: On the Problem of Utilization of the Method of "Instantaneous" Source of Heat to Determine the Thermal Characteristics of Heat Inaulators OrIginal Periodical: Zh. tekhn. fiziki, 1956, 26, 110 3, &14-617 Abstract: The method of "instantaneous" source of heat (Dee, for example, Referat Zhurnal fizika. 1955, 21549), which makes it possible to determine all the thermal coefficients with a single experiment, is generalized to Include the case of a ronstant-power source, acting during any time interval. To determine the thennal characteristics, simple equations are obtained, which take into account the actual time during which the heater is effective. The results of the work make it poBsible to dispense with pulse heating during the above experiment; and therefore 'to sivplify the experimental procedure, with simultaneous increase in accuracy. It is ahcnm trAt connecting the source cf heat for approximately 2 seconds, in the case of the tietup described above (see reference cited above) cannot be comidered "instantueowi."  AUTHOR: Kaganov, M. A.. TITILE: cat ion of a MerL.,ioclectric Method of Alorisirinlr Temporature Differences in Electrically ftiducting Bodies (0 primenciiii tormoclektrichesko-o ziot;oda 1,,,.mcrcniya 0 raznostey tomperatur v ele.1ftroprovoduyltdi telaich) P 1_k,IODI~"AL: Pribory i Teldinika Elkoi,,erimenta, 195"') Nr 1, 1P 145 ( U S"'D R ) ABSTRACT: The direct -measurement of S:iiall termpera'ture differences is usually carried out by means of a differential therwo- couple. In ~,Ieasuring temperature differencos by this inethod in bodies havin:j appreciable electrical c-, i:iductivity (wetals, seniconductuors), it is necessary -to insulate electrically one of the .',Drlcln~~ Joints of the theraocouple from the body. TIic of the insulation may lower accuracy of the aS a result of the a,)pei.:trance of an additional rle.,,,7jcratiir~~ (Aff--~rcnrc. A 3imple method it3 described (Ref,l) of using_:-, a -L-.'iDr:.iocouple without the additional disadvantace. T~ae difforence is. m3asureel usii,..-; two thir:-,lo- coul-oles i-r- dir.-_ct contact .vith the in Tillich the tem- pera'Laire is beir,,.; moasu.r(,,d. Thu% tharL~ocouples are in par-.111f.,1 with the meusurin,- d,L-vice (indicator) and thus --,'or-i opposite arms of a bridge. The electrical resis- Card 112v  KAGANOV, M.A. Theoretical analysis of the method proposed by A.Vo Ioffs and A.F. loffe for measuring the thermal conductivity of semiconductors. Zhur. tekh. fiz. 28 no.11:2364-236? N 158. (MIRA 12t1) (Semiconductors--Thermal properties)  67200 .-2 77 & 0 0 ~TJV/58-559-7-15756 Translation from: Referativnyy Zhurnal Fizika, 1959, Nr 7, P 1.57 (US111R) AUTHORS: Bass, F.G., Kaganov, M.I. TITLE: On the Theory of Galvanomagnetic Phenomena in Semiconductors ,N V11 PERIODICAL: Uch. zap. Khar1kovsk, un-ta. 1958, Vol 98, rr. f1z. otd., fiz.-matem. fak., Vol 7, PP 57 - 60 ABSTRACT; The authors derive an expresslon for the tensor of the mobilities of free electrons (holes) in a semiconductor In a magnetic field H. The calculation is carried out with the aid of the classical kinetic equa- tion, which is valid , for U H 4~ kT (where /.4L. is the r~ahr magneton, k is the Boltzmann constant, and T Is the absolubu temperature). In this equation the collision operator is expressed through the tensor of the relaxation times, which makes allowance for thtu anisotropy of charge carrier scattering. In the case of scattetring of carriers with an anisotropic effective mass on acoustic lattice- 1-ribrikt.lons, Herring Card 1/2 and Vogt's expression for the tensor of mobilities In th-9 absence of a  slat Ali I  KAGANOV, H.A.; LISKER, I.S-; HMHKIN, I.G. Measurement of the thermoldlectric properties of semiconductors. Fiz. tvar. tela 1 no.6:988--990 Je '59. - (MIRA 12:10) (Semiconductors) (Thermooloctriolty)  SOY/906-59-7-24/26 AUTHOR: Kaganov, M.A Candidate of Physical and I'lathematicnI 3ciences TITLE: A Method of Determining the Theniial Coefficient-9 of Heat- insulating Material (Ob odnom metade opredoleniya termichoskikh koeffitsj~mntov teploizolyeLtorov-) PERIODICAL.. Te,)loenergetika,, 1959, lir 7. p 95 (USSR) ABSTRACT.-In Tepl.oenergetika, Or 1, 1958, Kanter p2blished an article on the use of instantaneous heat soLirces to determine the thermal characterisitics of heat-in3UIRtinig materials. A number of objections are raio~!d againsr the theoretical basis of the procedure desc-ribed; i1v is shown how to overcome these ()bjectJons rind to make the alculations more accurately. K ere are 3 references all of which are Soviet. Card 1/1  9(3)v 24(3) 5/3) AUTITM. Fagaijov, 1%. A. TITLE. _YN6 *Iii~f,!'e-m"'*6.r"'~tITtt"'~dft*uiti-frlty of Vnbalnric-ed riridgo Oirouits PERIODICAI: lzmaritel*naya tekl-inlka, ':959, Nr ~'j p 'I') (I.ISSI(Ii ABSTRACT: When analyzing the power sensitivitV .-,-f an linbrilamced four-arm direct carrent bridge, G. K. 5Tr-.tcih-*tY&-%r ccn- siders those parameters as the t)eM;V at ;qlji,~,-h H',,o P /P tio Is a maximum. Ifere, P, IL: the power zo- ,8,v4drrb~ . and P 11 y the galvanometai he ppwer scattered by the transducer with a gilren unbalZCariing of the bridge. in th-1':3 case, a fact lins been ~tz'noredl which was discussed in detail by the author in ~tef ~;*': The maximum power to be dissipated by the tri.--_n3QUceX:-' may occur not with its ultimate reaistance value, but at a value located within -the measuring range. in this way, the recommendations given by C. E. 1jechqy~,,;r 1. , thL-A An Z_'Ref *17 are not suita-ble. The autlior atjt4 ~j!- his metho'a. which he established pX-e'71J1.A.!_1Y f0l' eStl-- mating the sensitivity of unbalanced trLdgil circuitc,, Card Is m,)re general and corresp.)nds to tl-io :if re!_ec;- C>  1'8/33 Tho Problem of the SensItIvIty of Uanalwiced Bridgii-, .41 ting -th(, opt !mum parameters 1%.L theXb14dro (,I-multl He tases, Me me-thA on the ratio .0 hor-il 2 la the power which io t) b0 tramsmytA-d to the megsu- xing initrument iur-Ing deflection, of Iti; Indicator, While P., which is t-he greatest value of power, which .3 to bt- dissipatud by the trarisducor witlAn ", meaul- rine, interval.. There are 2 Soviot raftvrenco:3. Card -~V~?  SOTSKOV, D.S,, doktor takhn.natik. prof.; VOROBITYVA, T.H.; k4tnd#tekhn. nauk; CIWMVSKIY, A.Y., doktor fiz.-matonauk, prof.; XAGANOV, M.A., kand.fiz.-mat.nauk. Reviev of I.Y.Volshin, A.S.Kasperovich. PndA.G.Shashkov's book Semiconductor thermistors." Inzh.-fis.shur. no.1-124-126 Ja 6o. (MIRA 13:4) (Thermistors) (Volaskin, I.Y.) Msp'erovich,'A.S.) XShashkov, A.0.)  9(6) V601000103100R/01 7 AUTHORS: Ma A., Candidate of '901 4/30o" Xaganov, _ -PhysidAl iif71 Mathematioal Scienoes, Rozenshtok, Yu. '."n-ineer C, TITLE: The Determination of the Charnaterlsticii of Sam.-conductor Thermoresintors Used in Meanuring Tachn:1qis PERIODICAL: Priboroatroyeniye, 1960, Or 3, pi) "-7 (V83R) ABSTRACT: In the introduction, the dissipation constani C and the time constant -r are mentioned an tile characturisticib of electric thermometers, and the neoessity of knowing tlie;ue ctiantitieS in the construction of resistance thermometers from sem".con- ductors is pointed out. The determination of C by meano ofa bridge circuit and a potentiometer in For tho determination of T equation (2) in giveiij, and the Ifirinjr, diagram shown in figure I is diacucised, !1ea,)tjrovmen-t of -r wan carried out in such a manner that the tli-ermal .-saistor ras immersed into media with constant famporaturo During nooling of the thernial renistor thdi light. been of tne 1;:aivanomlater moved towards the photoresistor F (Fig "), by which counter Card 1/2 Sb was regulated using the relay ~ I Tho i'lumnated error ia the  )5 ;iz S/19g6il/000/007/007/079 -Z 0 D201 05 AUTHORS: Kaganov, M.A. and Rozenshtok, Yu.L. TITLE: Time and dissipation constants of aemico-nductor thermistors used in measuring devices PERIODICAL: Referativnyy zhurnal. . Avtomatilta i radioelektronika, no..7, 1961, 28-29, abstract 7 A179 (Sb. tr. po agron. fiz., 1960,.no. 8, 244-247) TEXT: The method is described of determining the time and dissi- pation constants of externally heated thermistors. In order to det- ermine the dissipation constant, nume ically equal to the 0power dis- sipated in the thermistor increasing its temperature by 1 C, the the uple under test was connected to one arm of a bridge circuit and t e bridge supply voltage adjusted by means of a potentiometer. The power dissipated in the thermistor was detennined from the value of current, measured by a milliameter, and the iN!aistarice determined by the balance of the bridges. The temperatures which correspond t Card 1/2  91,1f 174 60LO, r' I YiV8 S/194/61/000/006/004/0 77 D201/1)302 &THOR: Kaganov, li.i~. TITLE: The use of semi -conductor thermo-resistauces for automatic compensation of thermocoupLe errors PL~'IIUDIC,.L: Referativnyy zhurnal. twtomatilka i radioelektronika, no. 61 1961, 22, abstri.~ct 6 ~165 (Sb.. tr. po aLran. fiz., 1960, no. 8, 248-255) TLX'.r: ii description is given of the possible applications of semi-co-iductor thertio-resistances (STR) for the compensation of thermocouple errors introduced by a changing temperature of the cold junction. The compensation is achieved by connectin!~, in para- llel to the measuring instrument, a bridge circuit, ono of whose arms has an STR at the temperature of the cold junctioii. The. para- meters of the compensatinj; circiiits aro (,viiluatcd by t-lie vrethod of point by point interpolation, so as to mI.-c the current in the det- ector circuit of the 'oridge dependent on the STR temperl-Ituro in Card 1/2  S11 94/6 1/00 0/0 0 6/0 04/077 'llie use of semi-conductor... D201/D302 corresDondence with the L~empenture law of cimuigc- c):- t"Ic '11ca-Mo- couplc cmf. ChAng to the hi-rh input impcdance of Lhe uridge circuit the compensating network does not practically iatroduce theralocouple power loss. Data are ~Jven as obtained ulica applyin,," the above L method of compensating for measuring the averi-4.rp! f-,urface temperature o7 the soil by means of a set of thermocouples, fjv)stracter's note: Complete translation2 Card 2/2  51EAS 2/0C O/C06/084/136 101 '057/,' AMORS: Kaganov, M. A., Lisker, I. S. TIT T . U. Determination of some physical characteristics oil semiconductors under non-stationary conditions PIMIODICAL: Referativnyy zhurnal, Fizika, no. 6, 1962, 3;?, abstract OSE262 ("Byul. nauchno-teklin. Inform. po agron. fiz,", 19SC, no. 8 - 9, 27 - 31) TEXT: A device is described for complex determinatlon of the electric -onductivity T, the thermal emf o(, the value z - o(?(Ir/,X and the t1lermal condUC- 41 vity x of various semiconductor materials. The device Is used for the measure- '0.0 men-!~ of parameters of intermetallic compounds of the B1 2T"'3 ..Ojb2Ire3type. The time necessary for the determination of cc, Cr, z and Xof one satriple is ab(~ut 15 minutes. H.. Glinchuk [Abstracterts note: Complete translationj (;ard 1/1  The Accuracy of the Measurement of Heat B/170/60/003/03/26/034 Flows by Means of Heat Flow Meters B010007 by the dimensions of the instrument upon measuring acottracy that the error is reduced by an increase in the ratio between the diamter of the disk of the heat-flow meter and its thickness. When determining the heat flow by means of a heat-flow meter in a depth h calculated the surface of the respeotive medium, the heat-flow weter must be sidered to be an Infinitely extended diak with the thickness 1. Formula (3) is given for the measuring error in this case, and formula (J) ii given for the relative error. From these formulas it may be seer. thai the error may be reduced by decreasing the thickness 1 and by a 5t~X- ficiently great thermal conductivity of the disk. It is i3hown in tha course of an investigation of the sensitivity of the heat-flow met~--Z that, with given sensitivity for the reduction of the error, such E, material must be chosen for the heat-flow meter, the product of which from the coefficient of heat conductivity and heat capacity is buffi- ciently small. For the case in which the heat characteristics of the medium and of the heat-flow meter are equal, formi0a (7) is given for Card 2/4  The Accuracy of the Measurement of Heat S/170/60/003/03/26/034 Flows by Means of Heat Flow Meters B010007 the measuring error. On the basis of these deliberations, the authore investigated an instrument developed by Gir and Dankl. Tho maximum error as guaranteed by the firm was found to have frequently been coll- siderably exceeded. Furthermore, the measuring error of an. Instrument was investigatei, which had been suggested by A, G. Ifolson.11tov ftnd A* A. Speranakaya (Ref. 7). Also in this case, disturbances of the temperature field of up to 60% and measuring errors of up to 40% vere found. The authors thank Professor A. F. Chudnovskiy for hin Valuable advice. There are 2 figures and 8 references: 3 Soviet, 1 Germang yt~ and 4 English. Card 3/4  The Accuracy of the Mea-mroment of Heat S/17 60/003/03/26/034 Flows by Means of Heat Plow Meters B014YB007 ASSOCIATION: Agrofizicieskiy nauchno.-issledovateltaltiy Institut, g. Leningead (Scientific Research Institute of Agricultural Physicsq City of laningrad) card 4/4  214.1100 15 .9 5 D D 2 2 0 9 AUTHORS; Kajanovp M. A.. and Ljoker, 1. S. 85381 3/032/60/026/010/009/035 B016/B054 TITLE: An Unsteady-F?fting Method for Measuring the Electrical Cor.ductivity and the Contact Resistance of Semiconductor Materia s%.t PERIODICAL: Zavodakaya laboratoriya, 1960, Vol. 26, No. 10, pp. 1116-1120 TEXTs The authors suggest a method of measuring the electrical conductiv- ity and the contact resistance of semiconductor materials, which permits a checkup in limited volumes. This method can be used, for instance, to study the electrical properties of substances under the action of ionizing radiation, high and low temperatures, and the like. Direct current has been used hitherto to determine the electrical conduotitrity (probing method). An error arises here, since the thermo-emf at the points of contact be- tween the probes and the sample is recorded along irith the -voltage drop between the probes. To reduce this error, it is ni-vessary to use relative- ly massive current-supply contacts which, on their part, reduce the tem- Card 1/2  85,381 An Unsteady Probing Method for Measuring S/U32/60/026/010/009/035 the Electrical Conductivity and the Contact B016/B054 Resistance of Semiconductor Materials perature gradient along the sample. The measurement of electrical con- ductivity with alternating current eliminates the effect of' the thermo-emf at the contacts, but complicates the accurate measiurement of sma,11 voltage values of alternating current. The method suggestod by the authors is based on measuring the electrical conductivity in caoe of fret? heat evolution. It permits a determination of the electrical conductivity of materials having high thermo-emf coefficients. Fig. 1 shows the principal scheme of measurement. Fig. 2 shows curves for the voltage variations on the probes and on the sample. This voltage drop on the probes and at the ends of the sample is measured by a self-recording high-speed potentiometer (e.g. DITIT-09 (~,VP-09)). There are 2 figures and 1 Soviet Teference. ASSOCIATION: Ap-rofizicheskiy nauchno-issledovatellakiy inatitut Ak;idemii sell zkokhozyiiystvennjkh nauk (AL=14,11ical Zcientifjc__ Research Inutitute of the Academy of Agricultural Sciencts) Card 2/2  KAGANOV, M.; %)ZICITS11TOK, Yu. Scale of nocturnal tempnratures. Znun.aila 33 no.1:6 ja 16o. (mMt 13:5) (Mateorolol;y, Agricultural)  KAGANOV, M.A.; ROZaISIITOK, Yi,.L. Measurement of heat flux bv the use of heat moter!i. Izv. All 6,SSR. Ser. geofiz. no.8:1174-lri8 Ag 161. (MIRA 14:7) 1. Agrofizicheskiy nauchno-issledovateliskiy inatitut. (Temperature-41eanurement)  KAGAITOV, M.A.; ROZEIISIITOK., Yu.L. Using thex-Aistors for the correction of differential circuito for measuring temperature differences. Izu.tekh, no.9:22- 25 3 161. (MBM 1418) (Thermometry)  i III IV. I ~'! 1!111.11f q 1- : , " - . 1 -11! ~ " q, :,, I , .., "" ~11111r111111111 IOU . . ~ BARDFYEVA, S.P.; 1OFFE, I.A.; KAGANOV, M.A~; CHUDNOYS.-~1Y, tL.F. Semiconductor cooler of circulating liquidn. Biul.tekh,ekon.inform, no.11:46-48 '61. (MIRA 14:12) (Liquids--Cooling)  7 6 o o (lo s- Bi17/B209 AUTHORS: Kaganov, M. A., Lisker, I. S., Chudnovi%kiy, A. F. TITLEt A method of rapidly determining the heat conductivity of semiconducting materials PERIODICAL: Inzhenerno-fizicheskiy zhurnal, v- 4, 1'()- 3, 1961, 110-112 TEM The authors suggest an improved version of the method developed by A. V. loffe and A. F. loffe fbr determining the heat conductivity of semicon.. ductors within a narrow range of temperatures near room temperature (10 - 150C). The test device consists of two copper blocks, between which the specimen is placed. In order to determine the heat oonductivity, one han to adjust the temperature gradient at the specimen, &T * T 2 - T1, and the tem- perature variation with time, T 2' of the upper block by meaas of two indivi- dual differential thermocouples. The authors suggest to determine the heat conductivity of the specimen from the rate of cooling of the upper block. It is evident that the temperature drop over the specimen varies according to the same law as does the temperature of the upper block. This may be 5/170/iil/004/003/010/013 Card 1/4  89931 S/170/61/004/003/010/013 A method of rapidly ... B117/B209 concluded from the fact that the rate of cooling of all parts of the system Is equal under normal conditions. The rate of cooling of many semiconduc- tive materials may be found from the graph thermo-elactromotive force at the boundary of the specimen versus time in semilogarithmie co-ordinates. The heat conduction coefficient X as determined from the function InaT = f(r) was (3,31 + 0.02) - io-3 cal/cm - see. deg for molten quartz (Fig. 2, curve 3). According to published data, it amounts to 3.33 . jo 3 Cal/cm - sec. deg at 20 0C. The heat conduction coefficient of Bi 2Te3 Sb2Te3f as moas- ured by means of a differential thermocouple, was 4,48 10-3 keal/cm I see. deg, and determination of by a measurement of the therato.-eleotromotive force yielded 4.73 - 1o-3 kcal/cm - sec. deg (Fig. 2, curven 1 and 2). The some- what lesser inclination of curve (1) as compared to curve (2) may be explain- ed by an additional thermal resistance which is due to a thin mica plate between the lower block and the specimen. An insulating intermediate layer is necessary for the elimination of the shunting effect of the specimpn and its thermo-electromotive force upon the indications of the thermocouple. The suggested version of the method by A. V. Ioffe and A. F. loffe offers the advantage that the entire curve of temperature drop may be used in the Card 2/4  I7W911: S/170/61/004/003/010/013 A method of rapidly ... B110209 place of single points only. Besides, only one instmment is required in- stead of two. The use of the thermo-electromotive force of the specimen as a temperature indicator allows to employ less sensitive instruments and to record automatically the variation of the temperature gradient. Moreover, an,insulating layer is superfluous in this case. There are 2 figures and 5 SoViet-bloo riferefio6s.' ASSOCIATIONt Agrofizicheskiy institut, g. Leningrad (institute of Agro- physicst Leningrad) SUBMITTED: -June 26, 1960 Card 3/4  89931 A method of rapidly ... Iflar 4 j 2 I i ? j --4 - Card 4/4 IL 1 I 1 - -11~ I,*,- I I\? 11 - -, 1 N S/170/61/004/003/010/013 B117/M209 -  BARDEYEVA, S.P.., inzh.; ICFFE, I.A., kand.fiziko-matematicheskikh matematicheskikh nauk kand.teJchn,naukj_44gA?1 9y,-", nauk; CIfUDHGV5X.TYj, A.F. , doktor flziko- Semiconductor equipment for milk cooling. Mvkh.i olek.stos. sellkhoz. 19 no.541-44 161. (KM 14-.10) 1. Agrofizicheskiy nauchno-iseledovatellakiy institut. (MM preservation) (Refrigeration and refrigerating wwhinsry)