SCIENTIFIC ABSTRACT MOVSHOVICH, G. M. - MOVSHOVICH, R. I.

MDVSHOVICH, G.M. Using aluminum cans in the canning industr7- Kona. i ov. prom. 14 no.9:41-42 S 159. (KRA, 12-12) (Cans, Aluminum)  MOVSHOVICH, G.H. Apple juice manufacture on U.S. farms. Kons.i OV.Droo. 14 no.12:35-38 D '59. (HiRh 13:3) (United States--Apple juice)  tlDVSHOVTCH. G.H. NveloDeent of the manufacture of dehydrated products im the U.S.A, (from 'Canner and Packer.' no.9, 1959). Kons. t ov.prom. 15 no.4:43 ki) 160. (KIRA 13:6) (United States--Canning and preserving)  KOVSHOVICH, G.M. gew equlymnt for the aseptic preservation of food In the U.!;.A. lonsel ow. prom. 15 no.,6t4l-43 Js 160. (MMA 13:9) (Unitet States-Food, Canned--Sterillzau~a)  kand.ekon.nauk Consultation. Kona. i ov. prom. 15 no. 12:37-38 D 160. OURA 14:1) (Food, Canned-Accounting)  MOVSHOVICH, G.H. Factorylopecializing in the produqUon or piWes (cu*=berG-)(fr= *Cawer-Fackerv" no.59 1960)o Soniot ov.pr=. 16 no.440-41 Ap 161. 1 Ww 1423) (Louisville, Kentuaky-*Cumobers-Preservatioti)  ,-.KOVSHOVICH, G.M., kand.ekon.nauk Using the costs of processing indices in canning factories, Kons.i ov.prom. 16 no.5838-42 My 161. (~~,,A 14-5) (Canning industry-Costs)  MOVSHOVICH, G.M. flow to increase labw- productivity in tha canning and pre- serving irAhwtry. Kcms. i ov. prom. 16 no.6:30-33 161 ~XIRA 4:8) 1. Mentralfrqy nambno-issladovatel'skiy institut konservnoy i ovoshchesushillnoy promyshlannosti. (Caming Industry-Labor productivity)  .-KOVSHOVICH, Gem. Co-ordination conference on economics. Kons. i av. prom. 16 no.9;43-45 3 ','1. WRA 14:8) (Canninp industry)  MDVSHOVICH, G.M. Organization of the supply of canning plants with raw materials in the United States and France. Kons.i av.prom. 17 no.10: 34-35 0 162. (MIRA 15:9) (United States-Canning industry) (France-Canning industry)  MOVSHOVICII, G.M. flew developments in Lhe drying of food products. Kan,i 17 no,11;4G-43 N 162. OMA 15;1!) (Food-Drying)  MOVSHOVICH, G.M. Structure of the 18 no.9:39-40 canning industry in the U.S.A. Kons. 163. (United States-Canning industry) ov.prom, (MIRA 16:9)  KOVSHOVICH I.Ae Technic of muscle plastic surgery in sequestrotowy of the hip and shoulder bones. Khirurgil&, Kookya. no. 9:45-46 Sept 1952. (CIKL 23:3) 1. Candidate Medical Sciences. 2. Of the Departiment of Operative Surgery (Read - Prof. V. A. Ivanov), Second Moscow Medical Insti- tuto inent Ie T. Stalin.  MOVSITI)VICH, I.A., kan4idat noditsinakikh nauk Subcutaneous rupture of the retroperitoneal mction of the duo- demm. Khtrurgila. Moskva, no.5:81 MY '55. (KLRA 8:9) 1. Iz kafedry obahchey khtrurgit (sav.prof. K.P. 14arkuze) Vitobskogo maditstaskogo instituta) (DUODMM. rupture subcutaneous of retroperitomeal section. surg.)  BLOKHIN, V.14., dots.; BOGDPJ1OV, F.R., prof.; VAYMETEM,', V.G., prof.; GODUYGV, S.F., doktor med. nauk; mijaMT, I.M., kand. med. nauk; !40VS,1DVIqHj_ I.A., kand. mod. nauk; 1,'jOLODAYA, Ye.K., prof.; -ff1XP-dRbVA, Ye.K., prof.; NOVACIMIKO, P.P., prof.; ROZOV, V.I., prof.; CHAKLIN, V.D., prof.; YAZYKOV, D.K., prof.; FETROVSKIY, B.V., prof., otv. red.; SENCHIW, K.K., tekhn. red. (Multivolume manual on surgery] Mnogotonnoe rukovodstvo po khirurgil. Yonkva,, 1,tedf.),iz. VoL11,book 1. [Surgery of the upper extrernitienj Khirurgila verkhnei konecimosti. 1960. 518 p. (MIRA 15:3) 1. Chlen-korrespondent Akadercii meditainskikh nauk SSSR (for Bogdanov, Novachenko, Chaklin). 2. Deystvitel'Wy chlen kka- demii meditsinskikh nauk SSSR (for Petrovskiy). (EXTMUTIES, uppEa-sunoRY)  I I KOTNIOVIOR A. Sow problms of anbryogmesin af the splne in =no OZUP*tt:mv o i protez. 21 no.1:44-51 Ja 160. (KMA 13912) (am )  MOVSHOVIC119 I.A.9 kand.moditsinakikh nauk Pathogenesis of scoliosis. Ortop. travm. i protez, 21 no. 7:23-31 il l6o. (MIRA 13:10 1. Iz klinicheskogo otdeleniya detskov nrtopedii i travmatologii (zav. - chlen-korrespondent AMN SSSR prof. V.D. Chaklln) TSentrallnogo instituts, travmatologii i ortopedii (dir, - deystv. chlen AMN SSSR prof. N.N. Priorov) na baie Moskovskogo ortopediclieskogo gospita.ya (nacliallnik - doktor meditsinbkikh liauk S.N. Voskresenskiy). (SPINE-ABEOPRITIES AND DEFOPNITIES)  MKOU BUICK, LA, kand.modonaukl VILEUKrY, V.Ta.; BOLKHOVITrN, S.T., G.S. Device for amrcising movements of the hip joint. Ortop trava. I p'rotes, 22 noo3s54--56 061., iMIM 14W 1. rs klinichookogo otdaleniya detakoy ortapedii i travmatologii 11 Irl4v%) T&ntrallnogo (sav. - chlea-korr. ANN SM prof* V D - Inatituta travmatolcei i ortopedi, Z . - daysty. ehlen 40 SUR of 1930 Prioraw) i Maskovskogo ortopedicheskogo gospitalya www;o - d-r med.nauk ILR. Tbakmemakiy). r (M7 JOINT)  KOVPHOVICHO I.A.p kand.med.nauk SmVical anatomy of the thoracic isegment of the spine in scollovis. Ortop.,, travm.i protev. 23 no.Wl-29 Hy 162. (KIRA 15:11) 1. Iz kliniki detskoy ortopedii i travmatologii (zav. - chlen- korrespondent MC SSSR prof. V.D. Cbaklin) TSentrallnogo insti- tuta, travmatologil I ortopedii (dire - deystvitelInyy chlen AM WSR prof. U.N. Priorov [deceased]). (SPnM--A]3qOM4ITTES AND DEFORMITTES)  OSTROVERKHOV, Georgiy Yefimovich; LUBOTSKIY, David Maumovich; BOHASH, Yuliy Makeimovich;,MVSHOVICH, I.A., red.1 LOPUKHIN, I Yu.M., red.; LYUDKOVSKAYAI W.I., tekhn. red. (Course of operative surgery and topographical anatomy]Kurs operativnoi khirurgii i topograficheskoi anatomii. [By]G.E. 0stroverkhov, D.N.Lubotakii, IU.M.Bomash. Moskva, Medgiz, 1963. 739 p. (MIRA 16:3) (SURGERY, OPERATIVE) (ANATOMY, SURGICAL AND TOPOGRAPHICAL)  KAPLAN, A-run Vullf'ovich; MOV~ , red. [Fundamentals of traumatology at an elderly age' 3snc-.-; travmatologii pozhilogo vozrasta. Moskva, Meditsina, 1965. 250 P. (M.IRA 18:6)  ;. :,,V.I;H(;V I (A ) I I I y a Ai,-Ii-.c)vi,.n; :4. ~,Y , -I- I ~ , red . LLcciiosis; surgical anatomy anc pa-.Ii~genesis. khirurgichesxaia anatorija i patogenez. Mo3kva, ,-'eciLsina, 1964. 2;,4 p. 17:7" 1  DUHROV, Y&kov rjrigorlyevich;_ k~~DVSHOVICIH, J.A., red. (14anuai on trauvatologyj PoBoblr, pr) trawriatoiogil. Mo- skva, Meditsina, 1965. 258 p, (MIRA 180)  MOVSHOVICH, I.A. doktor med.nauk (Maskla, tsent.r.Malava 1,~.byw 14, kv,8~ Prognostic sign of progrensing scolic,,-An. Ortip., 26 no.4:26-3e, Ap 165, 2. 1z kliniki de-tskoy ortoppdli, na bazP Moskovsk(,~,,. skogo gosvitalya (na&:RlInik d(,,ktor med,riauk (nauchnyy konsul'tant kliniki chlen-korrespcndent ANli S,"".R, prof. V.D.Chaklin) TSentrallnogo institaita travmat~-,ic--il i ortopedil (dir. - chlen-korrespondent WN ','ISR pr~,X.  MVSHOVICH,I.D, (Movehovych, I.D. I Margarine with yeast additive. Khar.prom. no.4:80-82 O-D '62. (KIFA 16: 1) 1. Ukrainskiy nauchno-isoledoveLtellskiy institut torgcwU i obabehostvannogo pitaniya. (oleomargarine-fteservation)  MOVSHOVICH, I.D. Improving the keepinf quality of food concentrates. Kons. i ov.prom. 17 no.4:15-18 Ap 62. (MIRA 15:3) 1. Ukrainskiy nauchno-issledovatellskiy institut torgovli i obshchestvennogo pitaniya. (Ukraine--Food, Concentrated)  AUTHORS: Livshits, B.S., the Laboratory; gineers, Scientific TITLE: A Crossbar Dial PERIGMCAL: Vestnik svyazi, SO V- 111- 58- 9- 5-1/3C Candidate of Technical Scierzes, Head cf M h 11rh, T.Yh. and Frc-cva, -9-Y a 0 v 67o-11-a-U-orators Office (Koordinatnays. ATS)' 1958, Nr 9, Pp 3 - 6 ABSTRACT: The author describes the K-57 block type rural crossbar dial office with a capacity of 10-40 numbers. Basic switching is carried out by multipie crossbar connectors with mechanical blocking and type RPI.'B and R-111; relays During operation with this system, current is 1rawn on!y by the microphones of the conversing subscribers. The officz is made up of blocks of 10 numbers each, with a maximum capacity of 40 numbers. it is powered from a dc source with a rating of 60v. Daily current corsump- tion is 0.8 to 1 amphrs/10 numbers. The author gives the skeletun structure of the office, describes its operating principles and constructional design. There are ~ photos, Card 112 1 circuit diagram and 1 schematic diagram,  A Crossbar Dial Office A3'30C I A-I ON: N, I ITS I - I - 11 1. Telephone communications systems--Equipment 3. Telephone communications--Performa,nce Card 212  s ov/:. ) 6 - ;-) 3 -- 9 - 5 /17 AGTh( .13: Liv --!hits I B, S. , and Gommutation Elements using a Relay with Kagrietic f3lo i~irg (Elerienty kommutatsii s ispoilzovani-yera rele blokirovIcoy) PERIAIOAL.- Elekt-rosvyazl, 1958, Nz 99 pp '5 - 62 (USSR) ABSTRACT: The cost of the power suj)_-.IJes for -,mall automati(, telephone exchanges is an aij,)reciable frar-tion of the total cost. For example, a rural exchange with a raoa6Lt',/ of 20 numbers costs 9500 roubles, of which 80CO are accounted for by politer 3UI,Iplies. Tiie relatively high expenditure on 20wer suplllt-;~~ 1.,3 traced to two cause-3: lv the relatively large consumption of electriral energj by the station; 2, th3 3tringent requirements :;n 3moothing of the su:),)ly volt!ip. The n,,~avy of electricity also Increa3e3 the annual ru.~ni-il- of a station. For the quoted abovo thl-s -fig-u-c. I-- 3000 roubles, more than 10% of aLLich can be traced electricity hill, and thE; iaalriteaan~,-e of _~u,,.,lies. T~-~ gnientific resc-aich rhich loI-I'u5 after urban and iT~d 1/4 rural telephono e,,cchaages ('INIITS) , toL_-ct Lor with the  SOV/lu b Commutation Elements using a Relay with Kagnetic Bloc',,~i~-Ig "Krasnaya zarya" (Red Dawn) factory hris developed an automatic relay excnatige wit"n a ca~ acity of !~) - '+0 niv-ibers in, ,Pai:~h ~,Iio :-Lcn of -owr i-, reauced 20 - 25 timej in cora,,ari--,on -vith e,,--!3"UIng re-1-ay exchanges. This economy is achieved mainly on acccou.-Itu of the wide use of a rriagnetic-blocking rolay which doos not req?.iire 1.;cirer to maintain the Ljrmature in the wor',~inv ~,ositicn. The currcint type of ?O-number autordatic exchange contains -iew 1-y,o contains 41" includinj~ 215 320 relays while the L 0 of the now model (P P M b vrhc ~,e cos t ij 10% higher bt-~n Co,.t _ of Ljje the ordinary kir,d (P PH). The coin-,.lete station (12,500 rouble3) is higher than that of the exis- ting onej (~,500 roubloA. Neverthele,.;s, when .(juer 6u,)I,lies are taken into account there is a ;,tvi g -of 21% in ca.,ital exI)enditure and 33~~' in ruiming co6ts, The construction .,rinci,~leS of the relay (P PI,, b) are ~;hovni in Fi6 1. The Lent-ral a.se-ibly is zimilar to the ordirary ty,)e U: PH) with i few modifica- Card 2/4 tions. The armature is s,)lit across itj width and t,ie ga,' is bridged both by a bronze plate and by a .3hort bar magnet.  ';OV/lu6_58-9-9/17 i-,rrilw~etion Elements using a Relay with Jagnetic BlockinL The material of the bar magnet is AHKO4 having the following magnetic 1,roi.-orties: remanence, 12,300 .;,Uu-;.3 coercive force 500 oersted; jiecific maognetir energy, 150,000 erg/cD. The separation force an th"e armature in the workin-, position is 100 - 2-J0 zrn (includin:- the spring-stack loading). The tractive force from the un- operated position is 30 - 50 gm. The moving- %cart of '-e armature is 55 ram long and the fixed part, 35 r',. The magnetic system of the relay is shown in Fig 2. Fig 2(a) shows the unenergised :iosition when the bar magnet is in c' - good contact with both ~-,arts of the armature. Fig 2(b) shows the additional flax caused by current in the ol)era- ting winding. In Fi. e(v) the armature has been attracted and the operating current has fallen to zero, TLe bar r,,iagnet now makes i)oor contact with the Lqovin~; .-crtion cf the armature. In Fi 2(g) current has been a,.~,lied to the resetting windinL and the magnet will be brcu~-ht bac its original position. The 3pn.~itivity of the relay 13 that of its ,)rototy,)(,, (P P H). The ampere-turns needed t~) Card 3/4 re-set the relay are 1/3 of those needed to o,,c-,ratq it,  SOV/lj6-58-c)-()/17 t' la I L- Commutation Elemont3 usin.- a Relay with 1' grintic Blocklng Fig 3 shows circuits suitable for a,-,,,,lying 3hort-duratuicri operating currents to the relay and also for re-setting it. Fig 4 shows a suitable diagram for ~orial and su,-er- visorir relays. Fig 5 illustrato, the use of the relay as a test facility. Fig 6 shows the princi~)le of a relay type selector. Fig 7 is a method of alterin.g the loading of instruments in an economical manner. The table in the last paragraph gives details of bobbin combinations, showing the numbers of turns, wire sizes ancl, weight:;. The relay was first brought into use in January, 1957. There are 7 figures and 1 table. C, SUBI.,.'ITTED: June 5, 155-1 ASSOCIATION: NIITS, If Krasnaya zarya"factory Card 1+/4  LITSHIT.S. B.S.. Itand.tekhn.nank. HOVSHOVICH, I.MI., Inzh. Crossbar automatic telephone exchange with a capacity of 40 to 80 Tiumbers. Test. aviazi 20 no.4:15-16 Ap 160. (MTRA 13:7) 1. Rachallnik laboratorii Nauchno-iasledovatellskogo instituta gorodskoy t sellskoy telefonnoy avyazi (for tivehits). (Telephone, Automatic)  LIVSHITS, Boris Samaylovich- MOVSHOVICH, Iosif Khgymo-vich; GOLU13TSOV, ' I.Ye., otva red.; UL&,CVMT-, f,',M,,, red.; MARKOCH, K.G., tekhn. red. (A relay block--type autorAtic telephone exchange tAth a caDacity of 10-40 numbers]Releinaia blochnaia ATS emkostliu 10 - 40 nome- rov. Moskva.. Sviszlizdat, 1962. 63 O-URA 15:9) (Telephone, AutomatiJ,  ZHARKOVA, L.P. ; J&_Vphu'i -uii T.Ye.; G(.-LUBTSCV, ~s- ~,AC ~~-;A, G. V. , md, ROMAIRVA, S [Rural K-40/8u crua6wt ~,u-imijUc Le'Lephone exchanges) Sel'skie koordinatnye ATC K-40/80; informatsionnyi abornik. Moskva, Sviazlizdat., 196-3, 109 p. .(Km 26210) 1. Nauchno-isaledovhtei akly in4LItut gorodskoy i sellskoy telefonnoy svyazi !~Inisterstva sryazi SSSR (for Zharkova, Movsbovich, Frolova). 2. Gosudarstvennaya elektrotekhni- cheskayn fabrikq, Riga (for Rudzitig). (Toiephonpl  LIVSHITSP B.S.; MEIAEUD, E.A.;YELEKOYFVA, EA.;jWSIO.VICII,- I.Kh.; KHANIII, G.B,, PODVIDZ, M.M., dote.; METELISKIYO -G.-F.-; '6tv. red.; OBRAZTSOVA, Te.A., red. [Rura-L crossbar automatic exchange K-.i.00/2000] Sellskaia koordinatriaia ATS K--'lY-J/2(M, Informatsionnyi sbornik. Moskva, Sviaz'. ~-965. 136 p. (MIRA 18:11) 1. NaucImc-issleduvatellskiy institut gorodskoy i sellskoy telefonnoy svyazi Min~sterstvp- svya?i SSSR (for al-I exrept Metellskiy, Obraztscira).  %o USSR/Fam Animals Silk-Worms. Q-9 Abe Jour Ref Zhur - Biol., No 1., 1958, 2700 Author D.G. Voskoboyev,.I.L. Movshovich, M.A. Rish, I.N. Inst Title Zootechnical Procedures for an Increase of the Productivi- ty of the Mulberry Silk.Worm. Orig Pub Nauchn. tr. Uzb. 9-kh. in-ta, 1956, 10, 291-300 Abstract Kh. Tishayeva and A. Sultanova suggested an accelerated method of raising silk-worms. The advantages of this me- thod were demonstrated on two breeds of the Mulberry silk- worm: the Soviet No 1, and the BelokokonnAys No 2 /White cocoon/. In the hatchery the temperature of the air was increased from 23 to 300, and the relative humidity was decreased from 70 to 50-550. The caterpillars consumed by 18-26 percent more feed than the control group (a hat- chery with a standard regime). Caterpillars raised in a Card 1/2  U'SR/Farm Animals - Silk-Worms. .40 - Abs Jour Ref Zhur - Biol., No 1, 1958, 2700 Q-9 hatchery with a modified regime showed that the food they had consumed moved faster along the digestive canal, and the digestibility of the nutritive elements in the feed remained the saw as in the control group. Successive cross breeding was performed on the Bagdadskaya and the Bivol'tinskaya breeds. Female butterflies were cross bred with two or three males of different breeds in order to achieve selective fertilization. As a result, the num- ber of deposits with physiological defects was reduced, new born caterpillars had more vitality, and the quality and technological aspects of the cocoons showed a rr- ked improvement. Card 2/2  USSR / Farm Animals. Cattle. Q-2 Abe JOur : Flef Zhur - Biol., Ito lo, 1958, ,io 4516D Author : Mov-shovich. I. L. Inst : N~t ~given~~~ Title : The Improvement of the Local Zebu-like Cattle Through the Schwyz Breed at the Sovkhoz "Zeravshan". Orig Pub : Sots. a. kh. Uzbekistanal 1957, No. 9, 44-48 Abstract : The crossbreeding of the local zebu-like cattle with the Schwyz breed was carried out at the sovkhoz "Zeravshan" The majority of the hybrids of the first generation thus obtained, of brown or brown-spotted color, were of hardy and solid constitution. Their average live weight was 380.4 kg.; milk yield for 300 days of lactation, 2,133.6 kg; percentage of milk fat 3.93%. The characteristics of the local zebu-like cattle were: Card 1/2  14-1 AKUWT, leould, Sergeyevich; BMIC.-KAZAROT, ftylak Tigranovich; KAKINSKIT. Ta.k.; MOrMOVICH, I.L.; CRUN, G.Y.; PAMOTO B.I.; POLOWNIXOT. A.P.; -bmm I-. aX.; SHAKUWT. S.A.; ISHOTA. A.K.. red.; LTUMOV. B.P.; SUDAK. D.N:, teichn. red. [Isyout and equipment for commercial enterprises] Ustroistvo I oborudovanle torgovykh predpriiatii. Koskva, Goo. izd-vo torg. lit-ry, 1958. 411 p. (MIRA 11:7) (Stores. Retail)  ACCESSION NRo AP40434,21 S/0147/64/000/003/0067/0074 AUTHORS Hovahaviche to Ho TITLEt Self-induced vibrations of -axial-compressor blades SOURCE: IVUZ. AvL&tsionn&ya tekhnLk&, no. 3. 1964. 67-74 TOPIC TAGS: axial compressor, blade vibration, compressor blade vibration- ABSTRACT: The problem of blade vibration in modern axial-compressor stages operating in a wide range of speeds, at high loads, and at high output is very complex. The fact that sets of blades manufactured according to the same specifications start to vibrate at different inlet pressure, and the presence of little known aerodvnamical and mFchanical interactions further complicate the problem. The first approxLmate solution may be reached by considering the motion of a single blade while substitu;Lng the effect of other adjoining blades by an external periodic force, whose frequency is equal to the frequeft- .cy of the whole set of blades. i.e..to the arithmetic mean of the frequencies of all blades. Thus, the problem is reduced to forced vibratLons of a *Alf-exeLted system with one degree of freedom. The Card 1/2  ACCESSION NR: AP4043421 above method is applied to a simple system of pure flexural vibrations, in which the airfoil contains the reduced mass of the blade and pos- seses the aerodynamic characteristics of its peripheral cross section. The aerodynamic forces are assumed to be constant. The established equation of motion for these conditions leads to the amplitude fre- quency equation of forced vibrations of the self-exciting system. Amplitude-frequency curves are plotted which give the dependence of the amplitude and the phase of the blade on the frequency, The proposed analysis of self-induced vibrations makes it possible to explain the variation of vibrational stresses in blades and phase shifts among the blades of a single blade rim. However, the analysis given only the qualitative results and can, be used only for comparison with other results. 0rLg# art, host 23-formulas and 2 figures. ASSOCIATIONt non* SUBHITTEDt l0Hov63 SUB CODEt PR. ATD PRESSt 3089 NO REP SOVI 001 ENCG: 00 OTHERt 000 Card 2/2  -- NOTBROVICH, K.T. Simple method for coloring thrombycytes. Lsb.delo 6 no-Z04-35 xr-AP 16o. (KIRA 13:6) 1. Klinichealmya laborstoriya Lipetakoy oblastuoy bollnitsy (glavvy vrach P.D. Borozktn). (BLOOD FLATURTS) (STAINS AND STAINING (KICROSCOPT)) X.  MOVSHOVIGH K.V Correspondence courses for higher training of provincial medical laboratory workers. Zdrav. Ros. Feder. 3 no.6:23-24 Je 161. (NIRL 14:6) 1. Iz klinicheskoy laboratorii Lipetskoy oblastnoy bollnitay K.V.Burtseva). (glavnyy vrach (LIPETSK PROVINCE-MDICINE-ZTUDY MID TEACHING)  MOVSHOVICHt K.V. Use of Panchenkov's aspillaries in the determination of prothrombin time. TO. delo C71 no./+s5g Ap 161. (MIM 1413) le Iftotskays oblastuays bolluitea. (PROTHAMIN)  MOVSHOVICH, M.N.9 iazh. Guaranteed train runs withmt need for the remval of defective cars* Zhelo dor. transP. 46 no.105-76 Ja 164. (MIRA 17:8) 1. Nachallnik vagonnogo otdola Nizhneudinskogo Otdeleniya Vostochn"ibirskoy dorogi.  L AUTHOR: Movshovich, M. Ye. 108-9-8/11 TITLE: On Temperature Coefficients of the Frequency of the Optimum- Thermocompensated Scheme (Temperaturnyye koeffitsiyenty chastoty optimallno-tormokompensirovannykh akhem). PERIODICAL: Radiotekhnika, 1957, Vol. 12, Nr 9, pp. 63-68 (USSR) ABSTRACT: It is referred to the paper of S. S. Arshinov in Radiotekhnika, 1948, Vol- 3, Nr 2 and shown that the temperature coefficients of the optimum thermocompensated scheme have to be determined by other equations than those obtained by S. S. Arshinov if the scattering of the parameter of the circuit elements is taken into account. Here the equations for the case of a complicated scheme with perfect thermocompenestion, for suoh with imper- feot thermooompeneation and for the case of a simple scheme are derivated. It is shown that in the selection of a scheme with an optimum thermocompeneation it is neosseary in the first place to judge the amount of the possible yield under taking into account of the scattering of the parameter of the circuit elements, not the amount of the possible yield at nominal values of the temperature coefficients of the frequency. Here Card 1/2 the three above mentioned equations are to be used. The in -  On Temperature Coefficients of the Frequency of the Optimum 108-9-8/11 Thermacompensated Scheme. vestigations carried out show that the complicated thermo- compensated scheme does not offer better advantages than the simple schemes. There are 1 figure, I table, and 3 Slavic references. SUBMITTED: January 5, 1956 AVAILABLE: Library of Congress Card 2/2  ICVSffOVICH. M.Ta. Using p-n-p and n-p-n semiconductor trIodes in push-pull output stages. Radintakhnika 14 no.2:57-62 F 159. iMIRA 12:1) (Transistor amplifiern)  26205 S/i 06/60/0m/002/006 /009 A055/A133 AUTHORS- Shapiro, D..N.; Movshoyich, M. E. TITLE- Amplification parameters of transistorized frequenoy conv-3rters PERIODICAL; Elektrosvyaz', no. 2, 1960, 38 - 44 TEXT. The authors describe- an experimental method to measure -,ki.3 y-p&ram- eters of transistors operating as frequency oonverters. A sp,-~alal doivi2e. wa2 designed permitting direat measuring of g11 signal ( active component of Y;1 Sig- nal), 922 if (active component Of Y221f), gil het fka,;tive component of trie con- verter input admittance for the heterodyne- requen3y ~rirrew;,~ and -.he moduli IY21 convl and 1yj2aonv1 of admittances Y21 and Y12 The psxamelers 150 - "00 kc?On& device permItted were measured at l'i - 46r, kc and f sjga2_t_ to Introduce +he heterodyne voltage VO he emitler oircui; and trie signal vol- er- tage Into the base circuit, and vice verea. Conductance g 1j,sign was det 0+ t r,,. re - mined by the magnitude of the transistor input circuit shufi. ng e- ec on tj'_ sonance circuit tuned to frequency f3ifial, .he transistor outpu, circuit being \j short-circuited and the heterodyne vol age being applied either to +.he ~_,mitter Card 1/4  26205 3/106/60/00(-,,/002/006/009 Amplificetion parameters of transistorized A055/A133 a! circuit or to the base circuit. Conductance I het WsH "asur"d In &n an gous manner. Conductance 922 if was determined by the tranEiator output clrc-u shunting effect on the circuit tuned to fif, tlie t-,ansistor input circuit being short-circuited and the heterodyne voltage being appl-16d either to the emitter circuit or to the base circuit. For measuringly2i convit the voltage U 41 Sigrgal (at, sifnal) was applied to the transistor input. Th,~~ herer-odyna vojtag_,4 4c.ed eit Jer n the emitter circuit or in the base circuit. A 100-o~)m- resi~~tance, across which Ulf was measured, was connected to the trwnsistor ou,~put. UndAr such conditions: JU signall IY21 Canvl = IOOIU,fl IY12 onvi was measured only with the heterodyne voltage &pplied to the emitter circuit, the base being (from the point of view of the signal voltage) the input electrode of the triode. Voltage Ulf was applied to the output terminals of the triode, the base circuit being practically closed to ground (a 27-o~im resistance was inserted into this circuit). Therefore,, Card 2/4  2620S S/106/60/000/002/006/009 Amplif ication p&rameters of transistorized AO-55-1/A 133 ju signald Y 12 3onv 27 1 -,If I where Usignal Is the signal -frequency voltage -drop across -~he 27-ohm, resistance. The authors analyzg,in particular, the role played by the parameter y,2 conv characterizing the feedbaok from the oonverter output to the converter input circuit through the transistor. They prove theor8tica-Ily tiqa-., In the firFt approximation, it is posnible to neglent he reverse conver-lon and to -_,onsider Y12 conv = 0. They aCLsc prove that, in tne practf-~a_! ca,se of n6F ~P6G)-trl- ode uzed in their experiments, Y12 pony can indeed be neglected. The general re- sults of the measurements lead to the following concluslonz: 1) In transistorized frequency-converterF, th- power ampi'Lfioation factor prcves c!onslderablly greater when the signal voltage is introduc-td In-.c thm base c1rcu'.-. -,han wh#~-n it is in- 'troduced into the emitter ~~irouit. In thi5 reEpe2t, ~onvertArs are analogous to amplifiers. 2) The maximum value of the power amplifisation faotor c-3curs, in converter operation (in the s&se of 'IP60"-tran6letorz), when Uhe,.~~ ( *0.2*0.5)v and le - (0.2#0.8) ma. 3) At freq,.~encies above fif, the maximum powt3r amplifl- cation factor of the triode in converter op,~ratton Ls gr4~ater than in wTpliffer Card 3/4  26205 3/106/60/000/002/006/009 Amplification paramaters of transistorized .... AQ55/A!33 oprtration. 4) When Uhet Is introduced into the ta2e circuit, tne power drawn from the heterodyne supply proves somewhat sma-Iler than whtn Uhet, is Introduced in-o the emit,!;~-tr circuit. The obtained results make It possib'_~, tc. judge 3n the expediency of using a diode frequenc~y converter in t_-ansis,.or12sd r&c-.eivers. Thr,- maximum power amplification factor of a diode ccnverta~ and c.- an if-a-mplifter stage using 11FW-transislors must be of the order of 62. Comparing thl,4 value with the data obtained for 3onverter operation, the authors conclude that, from th,s point of view of the amplification properties, the u3e of the diode conver- ter in the frequency range of 150+1600 kc 15 not expedient. There are 3 figures, 2 tables and 2 Soviet-bloc references. SUBMITTED! June 10, 1959, [Abstractor's note: The following subscripts are translated in the text. conv (converter or conversion) stands for np ; signal stands for c ; e (emitter) stands for i ; het (heterodyne) stands for 'b ; If (intermediate frequency) stands for n14 .1 Card 4A  SHAPIRO. D.N.; 140TSHOVICH, M.Te, Amplification parameters of a transistor frequency converter. Blektrosvias' 14 no.2:38-44 F 160. (14IRIL 13: 5 ) (Frequency changers)  -KOVSHOvICH, K.Te,; SHAPLRO9 D-M- Use of stabilized transistors in IF amplifier stages. Xlektro- sviaz' 14 no*9*.36-41 5 '60. (KIRA 13:9) (Transistor amplifiers)  20091 S/!06/60/000/012/004/009 q,4310 A055/AO33 AUTHORs Movshovich, M. E. TITLE: Parameters of Semi-Conductor Triodea Operating in Frequency Conversion Cir'~Ults PERIODICALt Elektrcsvyaz1, 1960, No, 12, pp- 29-3 7 TEXTt Thlobje,:!t of the present article is to establish formulae con- necting the various parameters of semi.- ,onductor triodes, i. e. formulae anar logous to the well-knosn formulae connecting the corresponding parameters of electron tubes. The fi.rat part of the article is parely theoretical and deals with an ideal semi-eonductor triode, The author develops several e- quations allowing to salrulate, for instance, the various conductances (911, 921, 922) in the case ,~f semi-~:-ond-.;-Ior triodes operating- 1) in am- plification c;rcuits, 2) in frequency conversion circuits. This theoretical analysis is effected separately for semi-conductor triodes working in the low-frequency range and in the high-frequency range. In the second part of the article, the author considers the possible errors introduced into his formulae by certain a~i3umptions underlying h1_9 theoretical calculations. Card 1/2  20091 S/106/60/000/012/004/009 A055/AO33 Parameters of Semi-Conductor Triodes Operating in Frequency Conicrsion Circuits Thus he assumed, for instance, that the currents of the emitter, of the col- lector and of the base (i.., !,.l and il) of the low-frequency somi-conduc- tor triodes vary withir. the limits where their dependence upon the voltage 6em is an exponential function. This however, is only a rather rough appro- ximation, as shown In Appendix 1 to the artiile. The author examines there- fore the effect of these sour-:Pe of errcr upon the semi-conductor conduc- tances, such as they werp calculated by means of his purely theoretical for- mulae. The results of an experimental investigation enabled the author to render his theoretics: formilat, still more acourate with respect to the practical operating -,~nditicns of semi-conductor triodes. In conclusion, the author says that hi:3 article is by no means exhaustive and represents merely one of the first attempts to approach the solution of the problem in question. There are 6 figures, ! table and 2 Soviet references. SUBMITTED: June 24, !CY6O Card 2/2  21i 27779 3/1 000/008/003/006 q, 0 00 1/ V/ A055/AI2-? AUTHORS: Movshovich, M, E., Labutin, V. K. TITLE: Analysis of two equivalent circuits of transistors PERIODICAL: Elektrosvyazi, no. 3, 1961, 35-39 TEXT: The authors tinalyze the T-shaped and the ff-shaped equivalent circuits consisting of a small trimber of f raquency.- independent elements. The y-parameters of the ciroults are caloulated as funotions of the component ele- ments, the authors' aim I-eing to estimate the difference between the cal-ulated and experimental values of tnese parameters in the case of "P-14" and "P-15~ transistors. T-shaped eq,_11-valeent cclr-.~Lit - Ie Is here the d-:~ component of the emitter current and 1. its a-~~ aomponent, r. is the emitter junction resistance 06 - ~Xo/l + J1 is the transistor current ampliflcat~lon factor at the frequency of the amplified signal 100 beling the low-frequeney value of the common-base t 0 transistor current amplifiaation faator~; fo& is the 3urrent amplification boundary frequency of the common-base transistor; I - f/fx is the relative frequency of the signal. It is assumed that the equivalent circuit reproduces with sufficient fidelity the transistor's amplifleati,)n properties within the Card 1/5  27779 -9/106/61/000/008/003/C)06 Analysis of two eqjivalen-~ oircuits of transistors A055/AI27 frequency range: 0 .2 foc -*-' f 8 ~Ocl (I) Recalling that: y = 9 + Y12 - 912 + I WC il 1~ iI 12 (2) Y21 - 921 + 21, Y22 - 922 + IWC 22 and using the Y-matrix for the T-shaped equivalent Lircult of the common-emitter transistor, the authors obtain, (r + r L 2 2 + ~2 e bb')(' 4. 3 911 2 2 r r 21 2 2 2 '12 - rerbb 2Gk (' + C re __+- )[re + (re + rbb L 12 -k 2 r r Y 12 g2. 4~ b2 + T2 21 2- 211 2 Card 2/~  Analysis of two equivalent ciroult-- , canl3istors rbb I (r + r -0 ) cijv, 2) 12 e bb Ck" + -Y 022 2 0 C 2 2 c c:. (re+ rbb,)(1 +7 ) (r,,+ (re + rbbl)] 22 k r where: 2 2 r )2 + [re,~ (re + rbbt)12 (~ rbb (4) F-shaped equivalent cirouit. - It is possible to prove that the y-parameters of this o1rcuit are given by the following equationsi gil ~9 /I,. + 2 1+ ( -.",,XV - 1 (5) C1, Clio + Acl, (dep )av Card 3/5 33iL'6/61/000/008/003/006 A055/A101  27779 3/106/61/000/008/003/006 Analysis of two equivalent circuits of transistors A0561AI01 where j = 1; 2 and I = 1, 2. 9 A 9ji, CjjQ, and Ad CjI depend here only on the elements of the equlvalentVoor~ult, their value being given In a table. W 1 + rbb' (gbe + g blk) (6) av (c We ; c k) rbbl and 91 - gble + gbk; CI- cWe + Ck (7) Pritchard (see English-language references) said that the equivalent circuit of Fig. 2 is accurate for frequencies f