SCIENTIFIC ABSTRACT NEYMAN, M. I. - NEYMAN, M. S.
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Collection:
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CIA-RDP86-00513R001136820002-8
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RIF
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S
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99
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August 1, 2000
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2
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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Body:
SKOROKEODCV , Lev Yakovlevich; NEYEMI, I- I. , red.
-[How microbioloinr developed] Kak razvivalas' mikrobio-
logriia. Voskva, Meditsina, 1965. 48 P.
(I-',IRA 18:9)
tie a I Ic v
V( Z"
wn, :j c~ tl
SIILTB , Pafni I Lvovich; NEYMM I Y MI. I.. r--.d . . FRFTI~14.411' , A.D., red.
.
(Whnt a woruan shou"'A know a`iout her hpalth', Chto
znat' zhenshchimi o svocm zciorovle; nauchno-populiarnaia
med Atcil nskaya lilleratura. 'Pookvn, Vi~ditsinap
- 1965. 25 j~.
-,-- (MIRA 19s1)
T-OLYAEKIV, Nikolkiy Yakovlevich; NLYVAN, rpd.
, is the onerry of hcial th I Kurenip - vrag zuoro-., I I a,
[Smokinf I
Mo.qk-va, Meditaina, 1965. 26 p. (MIHA 18:12)
LAT31NIK, Gar:rl YeflmovIch; SHCHERBAK, Yurly Fodoi,ovichi NEYMAIJ,
, red.
DnCEICtious hepfititis; Botkin's disoase] Infektsiony),ri
ger-atit; boleznl botkina. Moskva, Meditsina, 196r 29 p.
(MIRA 18:12)
CHAZOV, Yevf.~oriiy Ivanovich, rioktor mod. nauV .; 1%J!-f!.,,AN
[l',!yc,,2ardJal infarct.; caures, treatri-ari-, pre,.r--r.tion!j
InfP-:rkt Rdokrarda; prichiny, iecl;o.,.-',e, precuprezhnienie,
lk,osk-v-, lcit,5, 31-) 1).
I (1,~IPA
ZIKEYFVA, Valentina Konstantinowia; IIEY14AN M.I. red.
1--l-1- - - .9
(Therapeutic diet in diseases of the liver and bile
ducts] Lechebnoe pitanie pri bolemiakh pecheni i zhelchnykh
putei. Iz(1.2., is.Pr. i dop. Moskva, Maditsina, 1965. 53 P.
(14IhA 19%1)
TRAIiGEYZER, Valentina Andreyevna, kand. mod. nauk; NETMI, M.Lp
red.
(Prevention of &theroaclerosial Preduprezhdenle ataro-
skleraza. Moskva, Meditaina, 1965o 54 P. (MIRA lgil2)
KARPUKHIN, Vasiliy Tiirofeyev-.ich, prof.; NSMIAIII,- red.
[Uro).ogical diseases] Urologicheskie zabolevanlia. lzd.2.,
ispr. i dop. Moskva, Voditsina, 1964. 54 p.
(MIRA 18:3)
KUCHERUK, Valent Viktorinovich; NEYYAN, M.I.~ red.
(Control of rodents, carriers of diBeasea3 bo,~-Ibz u g,-iz-anani-
nositeliami boleznei. Moskva, Meditsina, 196,1.. 36 p.
(VIRA 18: '1)
137-58-6-12032
Translation from~ Refvrat;%.nv~ zhurnal, Metall1irgiya, 1958, Nr 6, p 121 (USSR)
A U THOR: NevmAr M. N.
TITLE Cert,3in Data Perlain)ng lo the Pl,,nning of HN,droi-netallurgical
Zin( Plart~- iNekoturv~e danny~e o Proyektirovanii gidrometal-
lurgi( heskikh t-111r'koV'Vkh zavorlov
PERIODICAL~ Tr. soveshcha,-,i,,a po metallurgii tsinka. 1954. Mos(o,,k,
M-~-t a H u r91 zd.t 1956 pl) 30 43
ABSTRACT The aothor desc ribezj engincering processes that have been
developed Te, ci)tl~ for various z)nc plants, new equipment, and
novel le(linological proiess systems developed by resear(h in-
stitule~. AH proje~ ts provide lor roasting of concentrates by
the method of FluoSolid, roasting in furnaces 6.7 m in diameter,
8 m high arid ( ipaDle of a produ( tivity of approximately 100
tor,-. Tho- opt-rAtion of leaching of oxides, dusts, arid subli-
mates of the Pb production i-i to be combined with the subse-
querl operjt.ons Of SLJ)Jatizat~on of Pb slurries, thus ensuring a
high clegret! of extra( tion of Zri and rare metals. The plans
prov.de for extensive ernplo~ment of plastic materials and of
card 1/'! erarni( 'ile for lining of v~rio-.is pie(es of equipment. A
n
137-58-6-12032
Certain Data Pertaining to the Planning of Hydrometallurgical Zinc Plants
sensitive system for removal of dust from gases has been designed, in part,
for wet electrostati(. pre( ipitators so as to permit their utilization on a
larger scale after they had been tested under shop conditions. The plans
call for more extensive employrnent of pipe lines to provide hydraulic trans-
portatior, for slurries, re-pulpec dusts, and oxides.
A.P.
1. Zirc--Prod,ictior Zij1r- cre-c-Proce.'sing 3. Industriai piants-Design
4. lnd-istria-' pianls--E.I,Ipme~~t
Card 2/2
137-58-4-6443
Translation from- Referativnyy zhurnal, Metallurgiya, 1958, Nr 4, p 15 IUSS-R)
A uTHOR N e y rn aM.-hL,/
TITLE: Designing Roasting Shops for Zinc Plants (Proyektirovaniye
obzhigovykh tsekhov tsinkovykh zavodov)
PERIODICAL, Tr- Tekhn. soveshchaniya po obzhigu materialov v kip-
yashcherri sloye. Moscow, Metallurgizdat. 1956, pp 46-56
ABSTRACT: Zn concentrate roasting installations are designed on the
basis of research work done by Gintsvetmet at a small experi-
menial furnace at the Elektrotsink works and with the aid of
literature data on the work of an industrial installation at a
Canadian plant. The design and installation of rectangular arid
round pilo! plants is described.
A. Sli
IndusLria- p-Lants-Design 2 Zir-c-RcasLing-App~4-a-i-n:,
L
Card 1/1
LEBEDEVA, Kar-'talina liladimirowta; NEYM4, red.
[afety me.-sures in T.he --et-a-l-lurQr of lead and z-i-c
Tekhnika bezopasnosti v metallurgii svintsa 4. tsinka.
l,.oskvL-, l,'.etallurgizdat, 1963. 298 p. (1,1IRA 17:6)
ir. e~,er ~a~d s,"
PA 64Tr/6
USU/nntrmiae an/rob l948
Electrons - Motion
Energy - Dissipation
*The Zaargy Dissipatim of Electrons During Their
Movement In a Rapidly Changing Homogeneous Elec-
tric Field," Prof U. S. Kayman, Dr Tech Soi, 19 pp
"RadiotekbP Vol III, No I
L2vestigatea conditIms of elactronle motion betureen
two perallel grids 11-ving long transit time. Sub-
x1tted 13 Mar 19-47.
QT56
IM ritatomicta us the Whado-OM 1"Ce of TAG&
"a Tocrodd 06d(IoLtwo KI W(ca Ifth Fff4fAf(tCt##
1111,1-% Ildl kl~g
In 1(UWAn )
urreol frmn l1w j
jb? tilt,
of '1141Y lfo~ h-~t ... f'. 1k
h4- 1, fl~. At Or 1~gmfliftu .I the cm,"i'm
1u.. 1M.'t'gh tilt, Ack.1 1" it". jofes~.Jl 'Jolong
All't thl'.6gh Ih, Ke'd
A-,,I 4 .4 ... 1~ br, it. gf.4 11"
...... lpqw'~ '~ 1114'k thm A I .. . In,, , "f f""
IlAfg~ 411 4411~1.-J UMAI Ill th" I
,a 1'rf .4 ..")JAC 10411"'llAign All, .1. r1-1 but 11K_
1. ~ml~ -.A I AbIr
do" to it.. "f ch'if"n. to -111Aw.
HIPM - tekhaichoskikh nAuk; KOMMU, A.A., reduktor;
dokto3
bIAZOVA, MT.., tekhatchositty radairtor. I
(Triode and totrode high-frequency generators] Triodnye i tetrodnye
generatory evorkhvysokikh chastot. Moskva, Izd-vo wSovetskoe radio,"
1950. 282 P. [Photostat] (MIRA 8:2)
(Ilectron tubes) (Oscillators, Slectron-tubs)
M?,YMA,NL.- 14. S.
Ha-iiophyidcs, .3uperhi,-,ii Frequencies
Radiateklinika. Vol 5, No 5, 1950. "Generalization of the Line T)2eory to Waveciirle
.svstems."
.No abqtract.
SO: Radi.otekhnikh, Vol 9, No 2, karj'Apr 2R July 1954)
Technolo y
(Triode and tetrode ,ilt:-E,, hif-'r, frealency ~:orierators). (-~Oskva ' , "ove- E'- De -'- -; -' -~- I ~ -,
, , T. :-r,
y List -if Russian f..cce,~; im,-~, Librury of Corwress, Novciiter, I "; . - "(-I ~7 ~.
1 lortlil 9 1, 1 -- .'Ll.
USSR/Electronics FD 226
Card 1/1
Author : Neyman, M. S., Active Member, VNORiE
Title : Couplings between waireguide systems through openings in side walls
Periodical : Radiotekhnika 9, 5-12, Mar/Apr, 1954
Abstract : Proposes wavegui.de coupLings through openings whose longitudinal
dimensions are Emall compared to wavelength.. Gives eq:aivalent
circuits for various couplings (e.g., parallel-capacttl~ve, series-
inductive, parallel-inductive) and gives directions for calculating
parameters of equivalent circuits. Investigation based on the theory
of lines generalized to regular waveguide systems. One reference:
1 USSR.
Institution : All-Union Scientific and Technical Society of Radio Engineering
and Electric Communications imen:L A. S. Popov (VNORiE)
Submitted : June 30, 1952
f r r-
0 --. r.1- -- ..4.
A1.
j, 10 A*
At C. K.6-
IL 11 W--
IL
IL f-
W-6
(, IS w 22
IL I,. A~
C~-. ,
10 16 --1
so
F,
mom - a-ML"" 91W '00
ft"A 2.6t..Ct,4 04
8.12 z"s.
tv
SHTSUSHLOYGER. Vollf Bents I onov Ich; WHSHINA.T.A., redaktor; REMO,
H.S. professor, daktor takhnichaskikh nauk, retsenzent--"
YRA B.Z., kandidat tekhnichaskikh nank. rete;nzent,
ZUDAICIN,I.K., takhnicheakly redaktor
[Phenomena of Interaction of waves In electromagnetic resonators]
Urleuilavzalmodelstviia voln. v elektromagnitaykh rezonatorakh.
Moskva, Gos.1zd-vo obor.promysh., 1955. 111 P. (KY-RA 9:2)
(Blectric resonators)
UTM, -Mikhail Samo-vlovich; S)WISIPYR. V.1., redal-tor; UJI1011OV, G.T#~.,
redaktor
(Generalization of a circuit thaor7 for 'wave systamO Obobshchento
tooril tsepst na volnovye sigitemy. Moskma, Goo. energ. izd-vo,
1955. 191 P. (MM R-.6)
(Electromagnetic thooi7) (Radio waves)
NEITMI,, M. S.
"Successive Calculation Method for Wave Guides and Oscillati.141 Circuits," Radjo
Tekh., No 1, 1955
IV 4-- T M f) A~, 01 . j
USSR/Electronics - Iriformation Theory FD - 2 5'-"(
ca- , I/I Pub 90, - 2/12
Au -nor Heyman, M. S. , Active Member, 00191'!,
Ti-,,Ie The Gerieral Theory of Si.7nais and the General Theory of Autonvitic
Processes
P~---'iodical Radiotekhnika, 10, -13-16, May 1~53
ract Arguments are given In favor of eztabliuhint~ two disciplines of a
general character: namely, (i) the general theory of siCmals and
(2) the C, en - r,-', 11 ~, -ory of autornastic pro(-esses. 7hey are defined
and the basic f-ature- .' f-onlen4,~~ -,.re 7,-,e -lies
between them an(~ their i,.: ~- t an c: and
eiectronics are empha--J..,.~-, ":..e
providing a theoroti.-C C~:- )I-
to
treated by infor!,.i.,.,.tion th!~'ory "I ~'11 a~
Institu~ion All-Union Scientifi:! and T~cnnic--~~ ';oc- q .~-.'o Enpinee-i-.-Z
Eiectric CommunicatIons L-,ienl A. S. VITMiZ)
SubmItted 7 March 8, 195',
I Y ~-P'Vj I I I (VI, ..) ,
USSR/Electronics - Waveguides FD-2281)
Card 1/1 Pub 90-2112
Author Neyman, M. S., Active Member VNORiE
' lkethcd of Calculating Waveguide and Oscillator Systems
Title A stopwise
Periodical Hadiotekhnika 10, 12-22, Jan 1955
Abstract A method is given for calculating waveguide systems and closed vibra-
tors., based on coupling between the core complex and core simple elec-
tromagnetic systems. This Vernits finding the parameters of cavity
electromagnetic systems without the neel for calculating the wave
electrodynamic relations. The author classifies electromagnetic sys-
tems and discusses the relationship between resonant and critical fre-
quencies, wave characteristkcs, distribution parameters, and struc-
ture of electrow-gnetic fields.
Institution: All-Union Scientific and Technical Society of Radio Engineering and
Electric Communications imeni A. S. Popov (VNORiE)
Submitted July 3, 1953
SUBJECT USSR / PHYSICS CARD 1 / 2 PA - 1247
11UTHOR NEMN' M.S.
TITLE On the Method of Computing and Projecting Generators vith
Triodes, Tetrodes, and Penthodes.
PERIODICAL Radiotechnika, 11, fas(;- 4, 15-23 (1956)
Publ. 4 / 1956 reviewed 9 / 1956
The present work investigates the method of projecting new generator tubes and
computing electric circuits of lamps such as are at present in use. Computation
is based upon an assumed useful efficiency or net output, and the losses in the
oscillation system of the anode are taken into account. This method is a
further development of a. previously published method (M.S.NEJ11AN, Vestaik elek-
trotechniki, go 1, 25 (1930)). For computation the usual simplifying assumptions
are made.
Initial equations: On the occasion of the computation of already existing types
of tubes 4 parameters are known and 19 quantities are sought. These quantities
are connected with one another by 15 independent equations which apply for
triodes, tetrodes, and penthodes with the exception of some older tylies of
tetrodes. In computation 4 degress of freedom are left over, and further 2 ad-
ditional conditions are mentioned,
At first, while all additional limitations are neglected, the computation method
using both degrees of freedom is studied for the determination of the maximum
total degree of efficiency of the generator. This computation method permits
the determination of the highest degree of sufficiency and of the corresponding
Call fir: AF 1157024
AUTHOR: Neyman, M. S.-
TITLE- A Course on Radio Transmitters. Part 1. High Frequency
Radio Transmitter3. (Kurs radioperedayushchikh
ustroyatv. Chast'. Radioperedatchiki vysokikh chastot)
PUB. DATA: Izdatellstvo "Scvetskoye Radio", Moscow, 1957, 296 ?p.
ORIG.AGENCY: None given
EDITOR: Zabolotskiy, N.G.; Tech.Ed.: Koruzev, N.N.
PURPOSE: The book was written as a textbook for the course in
radio transmitters and was approved as such by the
Main Administration of Polytechnical and Machine-
building Institutes of the Ministry of Higher Education
of the USSR.
A Course an Radio Transmitters. (Cont.) Call Nr: AF 1157024
COVERAGE: The present voliune contains the first part of the course
and covers the fundamentals of the theory and of design
of high frequen3y oscillators, oscillatory systems,
self-excited oscillators, transmitters with amplitude
modulation and the principles of construction of long,
medium-and short wave transmitters. The author acknow-
ledges the cooperation received from Gonorovskily, I.S.,
Professor, and Granovskaya, R.A., Docent. He also men-
tions Andreyevskiy, M.N., Docent, as the author of'
textbooks on the construction of radio transmitters.
These textbook will supplement the present textbook and
will serve students working on design projects. There are
23 references, 21 of which are Soviet, and 2 are trano-
lations into Russian.
Cwd-z~~_
P~%. 7212
A U "? I ion: Actin- Membcr A i,ou,ii,tion
T I TL ILI -,,;I It i'k I Rf. I of' .1.1tji
v riosi,ch,ijkli klistroanjk..'-, ~,iui-
I i telyakh . Rus s i an) -
PERIODICAL: Radio,,er.nniha, 1957, Vol 12, ',Tr ij, pp 12 (U.S.G.R.)
Received: 6 / 15157 Reviewed: 7 / 1957
AB3TRACT: The modern klystron amplifiers of hi,:h performance require very high
voltages of the supply line and they have narrow strips of the trans-
mitted frequences. For waves longer than 50-60 cm, moreover, the over-
all dimensions of the klystron amplifiers are much too laree. The pa-
per under review an-alyzeS the causes of these 5hortcominCs and indi.
cates possible ways for their partial elimination. First of all, the
formulae are de:-ived for the restrictions which are imposed on the
designing of the klystron ar-plifiers. From these formulae the conclu-
sion is drawn t'aat in order to have the possibility of a low volta6e
in the supply line the crcss section of the electron ray must be large.
For the case of a compact cylindrical electron ray thii paper derives
the restrictive condition and the condition for the lowest permissible
voltage in the supply line. It is demonstrated why there must be a
narrow transmis:;ion strip and also that in this respect v7e will obtain
more advantaCeous circumstances only if the performance of the klystron
amplifier becomes very high. It iS Bhown that it is possible to obtain
Card 112 a widening of the 3trip also at the expense of the reduction of the
HJAS~, j 300K rXPLOETATION J V" "t
Neyman, M. S.
Avllomaticheskiye prot 3(-- 3 3y I ya%, -Ieniya; (obshcftiyt,~ vr)prosy
teoril 3intrm, soa--!r,-,ha-iftc'L1k~i upravlyayunt-,chiy~,
zavisimostey) (Automatic and Phenomena (G~~nerai
Theoretical Froblem3 Df 3y3tems Containing Control Lc),)ps)
Moscow, 1-.-,d-vc, "Sr)vetskoye radio," 1958. 14-1 p. Errata
slip lnserted. 141-mber of c:)Dles printed not g1vtn.
Eds: M.L. Volln and N.D. lv,~iniinhk(j; Tech. Ed.: A.A. "'veshnikov.
PURPOSE: This book Is intended for students, engineers and
scientific workerz3 ipecia.lizing In radio and -Ie~tra-iics
and related fields. It may also be useful tr) rf:--aders
Interested In gereral proollems of aLito:7atI(, PrOl~e3,3,~S.
COVERAGE: The author from a Blnglf! point of view
the various aspec%~, of al),tomatic proceise.3 and nhermmena,
Including stablilty and '.-:3tabllity,
C ar~L~l
I
Automatic Processes and Phenomena (Cont.) scov,.'2672
physical discontinuity and self-osclilation. Ch', ef
attention Is devotcd 1;r) clnsed-loop r--Ircuits of (~ont-oi
actions, which uriderile a-L-J. of a-at-omatic
The relation between the -,~,eory of autoinatio.
and certain problems of formal logic are examir-A, ._:i
well as problems of r~ons*~ ;ctlng automatle, oy.-~,tc7rnt'i for
cortal!i of living organl.,~t,nv,.
The autnor rnakt~,,, min-Imurri of mat.hemat.icaL
and 4n some Instan3es to rpake the presentation. as
and as simple as h-- avoids ~ertaln
terms used ir t;h,-- To emphale~,13~,
the arritr-ary and subjr.-c-1-1ve charactc.,r of tht~ general
notion of open-1r)op and riiosed-ioep (feedback) ;3,';S!.ern.3,
he introduces the terril. ~'f.oritrol loop". The material
is Illustrat(Id with tlax~,r Cor rh(~ most -L-r'
from the field of' elet-ronics and radio. Fo r t o.,3 r!
interested In furth,,~-r stud L i -1.trmatic
y of certain problorrio
control, th(.~ dut.hor off't!r-B a 111,01- of' 16- Sovlet,
4 of which are t.vansi-ation-..,. No 1.) i - r.~l on nI 1. t I (~- 13 P,-- ir f n -
t1oned. Thrir-e are ric)
6 (4) PHASE I BOOK EXPLOITATION SOV/1598
Neyman, Mikhail
Kura radioperedayushchikh ustroystv. ch. II: Radioperedatchiki
averkhvysokikh chastot (Course in Radio Transmitting Apparatus,
Pt. 2-. Superhigh-frequency Transmitters) Moscow, Izd-vo
ItSovetskoye radio", 1-958. 398 p. No. of copies printed not
given.
Ed.L N.G. Zabolotskiy; Tech. Ed.; N.N. Koruzev,
PURPOSE: This '.s a textbook for students of ra,dio-engineering
departments of polytechnical vuzes.
COV3RAGE; The author discusses closed-loop oscillatory systems
and describe13 the operation of triode and tetrode superhigh-
f-.equency osp.11latore. He also discusses the construction and
operation of multicavity magnetrons, floating-draft klystrons
and traveling-wave tubes. Attention Is also given to pulse
C=61269_
Course in Radio TransmittIng (Cont.) SOV/1598
modulators and methods of frequency modulation. The author
thankB Professor Ye.l. Manayev and Docent R,,A. Granovskaya
for reviewing the manuscript. There are no references,
TABLE OF CONTENTS..
Introduction 5
Ch. 1. Oscillatory Systems for Superhigh Frequencies 9
1. Closed vl!Drators 9
2. Basic shapes of closed vibrators 14
3. Methods of tuning and connecting coupling elements 20
4. Other types of oscillatory systems 26
5. General aspects of' the theory of closed vibrators 31
6. Toroidal vibrator5 39
7. Coaxial vibrators 43
8. Vibrators in the form of two-wire lines 48
Ch. 2. Triode and Tetrode Oscillators of Metric and
Decimetria, - Waves 51
1. Oscillator resonant circuits 51
2. Calculation of lengths of resonant lines used in
oscillators 62
Cl~-~
88-58-98-1/4
AUTHOR- Neyman, M.S., Doctor of' Technical Sciences, Professor
TITLE: Foreword (Predisloviye)
PERIODICAL: Trudy Moskovskogo aviatsionnogo Instituta, 1958,
Nr 98, Probler,.is in Superhigh-frequency Radio Engineering and
Electronics (Vo rosy radiotekhniki I elektroniki tverkhvysok1kh
chastot), pp 33 NSSR).
ABSTRACT: The autbgr of the Foreword is the editor of this
collection. The collection contains three reports on origInal
research in the fields of waveguide systems, ribbed electrodynamic
structures and self-excited oscillator modulation. This research
was done from 1955 to 1956 at the Radio Transmission Chair of the
Moscow Or-der of Lenin Aviation Institute imeni Sergo Ordzhonikidze.
The present work is the third collection of reports on research done
by this Chair. The first two collections were p;ablished 1n 1954
amd 1957 (Truly Mill, Nr 39 and Nr 73). B. Ya. Myakish.~_,v is the
author of the fir;3t report which is concerned with the calculation
and experimental determination of the reflection coefficient for
Card 1/3
Foreword 88-48-98-1/4
electromagnetic waves obliquely incident on a ribbed metallic
surface. The study ishows that when the depth of surface grooves
is approximately one quarter wavelength,depth resonance occurs. At
the same time, image reflecittion of the ray is of very low intensity
(a small percentage of the radiated power) and almost all the energy
is reflected as lateral waves. Simple analytical expressions were
obtained for the amplitude and phase of the rays and fields reflected
by the grooves in the case of narrow grooves. Data obtained by
calculation is given for wide grooves. The phenomena of transverse
and longitudinal polarization of incident waves were studied. L.T.
Telyatnikov, author of the -s.=-!cond article., explains the spectra
change theory of amplitude-modulated master oscillators during
simultaneous frequency modulation. In this study the following
cases are investigated: (1) single tone modulation; (2)-modulation
of the surn of the non-multiple frequencies; (3) periodic pulse train
modulation; (4) irregular signal modulation noise . The
study shows that additional frequency modulation effectively and
assymetrically changes the spectra of amplitude-modulated
oscillations. In the third study, written by D.I. Voskresenakly,
Card 2/3
Foreword
88-48-98-1/4
a new method of measuring the reflection coefficient In waveguides
and feeders is explained. This method is especially useful in
Ineasuring very small values of the reflection coefficient (on the
order of a few percent). It is called the resonance method.
Greateat attention is given to the application of this method in
measuring small reflections which occur in rectangular waveguides
at the junction of straight and bent waveguide section3. Examples
of measurements made by this method are given and the results
compared with the calculated data. These calculations are based on
the theory of bent waveguides elaborated by the author which was
published in the preceding collection of faculty Studies (Trudy MAI,
Nr 73, 1957).
AVAILABLE: Library of Congress
JJP1ks1r
10-8-513
Card 3/3
NlnQN, K.S..
1V
Alectromostio aurfaaa waves. hv. rys. =heb. imv.; radiotekh.
U0.11-12 Ja-F 158. (M33A 11:4)
1, Rodkomendovana bdedroy radioperedayush~hgftustroyatv Nookovskogo
ordens lenIna aviatsio=ogo Inatituta In. S. Urcighoalkidze.
(RaAie waves)
NZYYAFI, II.S.
Special. features of applyin.,- the nethod of forced freq--.enc7
arnchronization to backward-wave oscillators. Izv. 77s. uc~jeb.
zav.; rad'-otekh. no.3:2RF~293 MY-Je '5P. (1413A 11:?)
(microwaves)
06526
6(4,7) SOV1142-2-2-21-015
AUTHOR: Neyman, PA.S.
TITLE: Some Basic Problems of High-Power Radio Trans-
mitter jjcvej.opment
PERIODICAL: Izvestiya vysslaikh uchebnykh zavedeniy, Radiotekhnika,
1959, Vol 2, Nr 2, pp 146-154 (USSR)
ABSTRACT: Based on an analysis of the most essential general
engineering deficiencies of modern hi,,o,-h-power radio
transmitters, -,he author describes some possible
avenues for their future development. He discusses
some 6vayb -..L' :-t:,zLA,_ii,6 ;,raiLbmitLet- dimensions, of
eliminating some of the numerous stages of high fre-
quency and modulator units, of a radial coolinS system
simplification and ways of simplifying the control of
transmitters and auxiliary devices. The author fur-
ther presents a review of papers which will be of
interest when solving the aforementioned prouiems. rn'~
emphasizes that prognoses for the future, especially
for the remote future, are necessarily always incom-
Card 112 plete, since unexpected aspects and possibilities wili
0652f)
jov/1 +' 2 - 2 -2// 2
Some Basic Problei;.s of 11-61,h-Power Radio Transmitter Develop-
ment
confront t-e re';c,-,.rcher cluring the progre,3 of ~iis
work . Therefor,-,, this article should be consiiere!]
only as an attempt. of compilin6 some h---nts of a ~os
sible future devciopment, based on ideas w~,.ich are
already known at tlic~ nresent time. There are '21
references, 11 of .-iiiich are Soviet and 10 English.
This article was recommended by the
Kafedra radioperedayushchikh ustroystv Ttloskovskogo
ordena L2nina aviatsionnogo instituta imeni jergo
Ordzhonizudze (C!.air of Radio Tranzimitters of the
Moscow - Lenin Orde-- - Aviation Inititute imeni
3ergo Or(IZIIOn!kI-12t- i
SUBMITTED: Deceiber
Card 2/2
063LP~
9 (2) 30V,/142-2-4-1/26
AUTHOR: Andreyev, P.N., Zatskaya, T.K., Neyman, M.S.
TITLE: A High-Power, Wideband Ret3natron Amplifier
P""RIODICAL: lzvestiya vysohl.kh ticho-bnykh zavedeniy, Rr~diutekhnikfl,
1959, Vol 2, Ur 4, pp 391-398 (USSR)
ABSTTRACT: A 10-kw resnatrDn amplifier is described briefly. It
has a very wide frequenej passband (about 6'/o of the
mean frequency). The basic principles used for desig-
ning this amplifier are explained. The frequency pass-
band had. to be achieved without using some coupled os-
cillatory circuits, neither for the input, nor for the
output. Not more than 6 kv feed voltage were to be
used. The reaction of the output circuits on the input
circuits and on the exciter were to be eliminated as
far as possible. The electrcn-ray principle was used
for designing the electrodes. The amplifier was buil-t
as an all-metal structurE- w-;'_th continuous evacuation,
thus all oscillatory systems and electrodes were pla-
'Inrd 1/3 ced in a common ,iacuum. The two ascillatory circuits
063V
CV/14 2-2-4-11126
A High-Power, 71ideband Resnatron Amplifier
of the amplifier are coaxial, halfwave syotems. The in-
put and output :3ystems are tuned by p-'-stons. Input
and output of rf energy are designed -.or coaxial cab-
les with 50 ohms impedance. A general diailram of the
resnatron amplifier is shown in Figure 1. A photograph
of this device is shown in Fig 2. A detailed diagram
is shown in Fi[r, 3. The most important components are
shown in a photograph, Fig 4, and in iiagrams, Figs I
and 6. All basic units are watercooled. The construc-
tional details are described briefly. During tests,
the following data were es"ablished: Load capacity 11
kw; anode voltage and voltage at the screen grid 5.8
kv; bias voltaq;e at the screen grid -165 volts; capa-
city in the exciting feeder 2.9 kw; current of the a-
node-screen unit 4.5 amps; control grid current 0.6
amps; cathode heater voitarre 5-3 volts; heater current
1700 azaps; cooling water consumDtion 20 liters Der mi-
nute; continuous duty. The amplitudo-frpqency charac-
Cnrd 2/3 teristic of the monatron amplifier ic; shown in Fig 7.
06348
0`07/14 2-2-4 -1,12(;
A High-Po,,,ier, Wideband Resnatron Amplifier
The amplifier power was established by measuring the
rf power absorbed by the cooling water. The amplifier
worked reliably during the test. The publication of
this article was recommended by the Department of Ra-
dio Transmitters of the Pdoskovskiy ordena Lenina fiviat.-
sionnogo instituta imeni Sergo Ordzhonikidze (I`Yloscow -
Order of Lenin - Aviation Institute imeni Sergo Ordz-
honikidze). There are 2 photographs, 4 diagrams, 1
graph and 7 references, 6 of which are English/Ameri-
can and 1 Russian.
SUBY17TTED: February 25, 1959
Card 3/3
9(
S 4
AUTHOR: Neyman, MOS., Professor Do,~tor- of Technic-all
-- `-~artme-n-t;--Tead
T I TL'-, Radio EngineerinC., Dis(,.Ip'iL-E'-, (On tae of
struction Plans f~:)i T--ainm- T?aJio/Er-,gir,eer:3;'
PERIODICAL: Izvesti-a vysshik-h uchebnyk-h zavedeniy, Raciioieknr,~Lk-a,
1959, Vol 2,, Nr 5, pp 624 - ~-~28 (IUSSF,~
ABSTR-ACT: The author r~zcommends a :7adical (-.hanrTe cif tae train-.~nC
0
program for vadio engilaeers, since exiStinF:-, Lns,.mi~---
tion plans ar-e lagging bf?I!Lnd the rapid de-,.reiopmen-,
of radio elec.tronies and its theoretica.". foundat,.nns
The requiremi-nts of coritemporary radio ergineering
cannot be met: by COrreUtlng ex-Lzt.-,r,.g in.,;T-,ruction plar,,;.,
because a MF-ll,e additior) :)f nevi u~,-ects v,,ou.,ri rio', ;.,ii-
minatue existing deficiencies. Lhe discussioii of prob-
lems connected with a radic.al revision of training
Card 1/6 program is meeting a stubborn opposition, s:-rr-e such
SOV/142 - I Z/ I q
Radio Engineerir4,7 DisciplLnes (On -,he Problem of Instr-uct(ion Plans
for Training Radio Enf~ineers)
change will mean a break -.-.,lth the 'nistorica. develop-
ment of rad-'o engineering, originating at the electr-,.-
cal enginee'_~irjg facuit-les., which in turn were deVeloped
at the facultles of m-echanical engineering a,, =T.itu~-
ions of _'-Lignler iearnincr. Until today, t,his 1-iisror,ca-
development of the radi,D engineering -faculties and de-
part-.ments has a noti~~E.able influence on the training
proj~ram, resulting in a too det.ai-led coverage of sub-
jects dealing with electrical and inec' -lanical engizieering.
Radio engineering facilities or departnenus often be-
long to po,.,.-~-r en~,~ineering, elec1-r,,(-_-a1 en-inee7nngj... avi-.
0 '7j
ation or other specialized institu-~, ions (.,,r ,ruze.-, The
members of the scientific councils of these insirutons
often do not show suff`tcient undei~standin.- of the prob-
leDis of tht~ radio enC-jineerinG departments, since, the
ma,-iority of' council members belongs t,o various o-1her
departments. It must. he kept, in mind that, under con-
Card 2/6 temporary conditions, a radio enr,~_,neer vii-1.1 not ,.-()r?
Radio Engineering Dis,'-plines (On the Prob.em ni ins,~ructic)?--
for Training Radio Engineers)
alone on one P.,-rjbl rj,, but, in a '.eam of
several other radio en-gineers. eLectrical en~!neers,
chemical engineers etc L 1i eam
viork -Ls practiced at Soviet 'zidustTlal lh~llf-r--.
aor some t 4Lme and it ,s the on!-,I possir-o-'i-y w
ing fast and high-quall-i solut lons of comi~!,-,ated engl
neering problems on t1ae present hi-h levei of sca.~'nce,
3
Each of the engineers in such a team must be trairied
and must always be )n-formed by re(~ent literature on
current development's in his field. At the sairr-
it is not desireable to train hil-,h'iy speriai,.-,ed rarlio
engineers, since the dif ferent f ieids of radio engi
neering are often interr onnected . A too aig~,iy s,~e(- lal 7 Zed
enginee-r would be useless for Iiis team within a fe'N
years due to the ra.pid development of radio engineering.
Card 3/6 It is necessary to limit the t,raining proCram, for radlio
k",
3OV/ 14~~ -
Radio Engineering DisciplineE, (On the Problem of Instruct.Lon Plans
for Training Radio Engineers)
engineers, espe(:-ially in the f2elds of electri--al and
mechanical engineering, The amount of theoretical in-
formELtion existing on essential problems of radio engi--
neering is extraordinary large, thus an attempt, to in-
clude all these subjects into a training pro-ram is
doomed to failure. Only the fundamentals shouLd be
included into the training program without overburden-
ing the stud-ents. The number of courses should be kept
at a minimum. Such an approach will provide the neces-
sary time for Lacluding some (i1sciplines of decisive
importance Ln rad-io engineering, which were thusfar in-
adequately covered The author discusses briefly the
numerous and c.omplicated problems arisins, with sucli a
revision and gives some recommendations concf:~rnin- the
arrangement of courses. The mathematical instruc Iuion
prog,,ram should be enlarged by the following sections!
Card 4/6 1) introduction to analysisi 2) differential a-rid ante V/1'
SDOV/ 142 - 2- ~, -I L~ I --:~
Radio Engineering Disciplines (On tile Problem of Instrlic'.1-an FIans
for Training Radio Engineers)
gral c-alculus, ordinary difCere-ntial eouations~
3nalytical and differential georijetry. 11) lector aria-
lysis and matrix ralrlulus; 5) di-irferertial eq,~iatior i,
with partial deri.vatives and int,egral equatiorl.5;
theory of' probability and random processei~i ',I)
series and. integrals, The theoretical mechanIcs -r.,ijise
should be included in the physics -ourse, The tra,I,*..,(Ai
a.1 chemistry courae can be eliminated, covering
items in the radio materials course whicn exceed r.ne
'evel of the chemistry course 4r-, i seco4dary sr.hool,
I I
The author presents a list of courses which sr;ould
be comprised in the training program for radio
neers: mathematics,general physics, theory of'
magnetic circuits, theory of the electromagnetic field,
vacuum electronics. solid state electronics, signal
theory, automatic process theory, technical drafting
U 4
Card 6 applied mechanics, technology of radio eq ipment ; rad-
I-JOV 14 2 -
Radio Engineering Disciplines (On the Problem of Instruction Plans
for Training Radio Engineers)
parts and materials, elec.trical equipment of T adio
networks, transmitters, receivers and amplifiers,
antennas and feeder lines, pulse devices, theory cf
radio networks, specialized courses, and cour-,es (Ieal-
Ing vvith now problems,. Tho reorganization of' t lie in,,Aruk---
tion plans will require careful preparation and. addi-
tio--ial discussions to adapt the training prog--am 'or
radio engineers to present requirements. The ar-ricie
was published as a subject of discus-sion. There is L
Soviet reference.
AS"JOCIATION:Kafed-ra ra-dioperedayushchikh usT.roystv Moskovskogo
ordena Lenina avlatsion-nogo instituta imeni Sergo
Ordzhonikidze (Transmitter Department of the Moscow
Lenin Order-Aviation Institute imeni Sergo Or,dzhcni.-
kidze)
SUBMITTED: May 19, 1959
Card 6/6
i 6. 68o
, Qt : ) --,
(3 0
AUTHOR: M. S. Neyman
TITLE, On Super High Frequency
Computation
PERIODICAL: Radiotekhnika, '.c,,c0, Vol 15, Nr- 3? pp
ABSTRACT: - disc.~ss`on c" p
T2e paper is a genera -esse-dal--
automatic computer.13 and t~-,eir possible T.-.e
improvement in, the speed of ~.lgh-sueedl -c,T:pu'e-3
discussed . I-, 1-s said p-es -,~110
speed Impro'.,emer;' -!-ia:. app -',o,. c:' 'j.-c
Decreaslr~E hy seve-a . 'nundred
cpera"no- t')y
P"
gn nsmlso G
c, f s 1a -ar
C,
pe?- second. 7-:1--, t-as twc
in f],~, x 1, b It, G V - ', -
severai tlMe3 in SIA--ces,31c,!.
Card thus decreasing ~.Oa'
On Super Higr Frequency lr~'err-.--e~~,
Automatic Computation S ov1,.-L,.-.,
It has a dlsadvanta~ye 1!1 11 IS
of propagation of electromauno~--~-~ dis,
e n I t be --, o r7l,e s imp c r' a nb cp a y a
geometry and er,:-",. of c
,o deve,op arid us~--- r-e
he n d I sc Lis se s s upe r ae,,,- ,4,
Phenomena become or pr.i,-,;e Impor'ar a --a-J I g I d
condilior of self-e x c 1 4-- a , i 0,~ C -" a C, j
phenom, eno,-. of' f'rCT 0--~
lrito ano-r.er cond"'Ic-'. ~-,-e 1, IS
few fo- 6
ahe
~he priase. Ce - t a I M C' 0J C0-S L
F-
sma~,-dimens ior~ -es s- a r,
power triode au-.ogerE-.-a~ I-S C,
reflec!~Ing klys~rors. 3 o 7, r-, o e
developed furt-her if' ap Io.,, c
P "P...-I
computers is to be successful. T, r',
Card 2,~~ 1 U.S. reference. R. L. PIRE!P
SIMOV, V.I.; RM", H.S.-
All-Union scientific Se8Bion dedicated to Radio D--7.
Radiotekhnika 15 no.7:76-79 JI 160. (MIRA 11:7)
1
(glectronice-Congresses)
S/108 6o/o15/o1o,/oo1/ooe
B012XB060
AUTHORi fieymanj M&47., Active Member of the Society
TITLEa Principles of the Construction of Intermittant Superhigh
Frequency Automation Systems q
PERIODICAL. Radiotekhnika, 1960, Vol. 15, No. 10, pp. 3-10
TEXTz The author of the present paper studied several basic problems
concerning the construction of amplitude-, frequency-, phase-, and mixed
systems of intermittent superhigh frequency automationT In addition, the
present paper deals wltfi some general problems arising in the construction
and the use of superfast systems of this type. To begin with, the simplest
circuits for information processingbare examined in connection with the
introduction of intermittent auperhigh frequency automation. In doing so,
the author confines his investigation to the case of binary systems
(yes, no), although a construction of more complicated systems (with the
aid of some frequencies, phases, and amplitudes) would also be possible.
Only the simplest elements of such circuits are discussed. Fig. 1 shows an
elementary member serving for the transfer and the processing of informa-
Card 1/3
- V
Principles of the Conatruction of Intermittent
Superhigh Frequency Automation Systems B012/Bo6o
tion in two variantst "repetition" (Fig. 1a) and "negation" (Fi,-,. 1t).
Fig, 2 illustrates members with two inputs. One of them (Fig. 2a) cor-
responds to the logical operation "and", while the other corresponds to
the logical operation "or" (Fig. 2b). Fig. 3a shows a member with several
outputs. Since a damping of oscillations is inevitable in the transfer of
Information, it is nooeaeary to provide for amplification appli(AncOij . Thi-f-C,
variants of such an amplification are shown (Fig. 3b) and explained. The
third, which is the amplitude modulation of the superhigh frequency
trigger, is recommended and described is greater detail. Fig. 5 shows
suitable forms of the amplitude modulation characteristics. It is shown
that the simplest is an amplification making use of a modulation frequency
which amounts to half of the pulse repetition rate. Three cases of
utilization of radiopulses are examined to illustrate the possible
designs of the members shown in Figs. 1 and 2: a two-amplitude system. a
two-phase system, and a two-frequency system, Without comparing these
9yetems, the mixed superhigh frequency automation systems are examined
next. The author further deals with possible superhigh frequency pulse
transformation methods, in which the pulses carry binary information In
addition, the methods of their transformation into video pulses and vice
Card 2/3
Principles of the Construction of Intermittent S/108/60/015/010/001/008
Superhigh Frequency Automation Systems B012/BO60
versa are dealt with. It is shown that the transformation of video pulses
into radio pulses and vice versa, as well as the transformation of radio
pulses of one frequency into radio pulses of another frequency are
especially interesting. It is pointed out that (assuming the posoibility
of ensuring quick information) it is expedient in a number of cases to
apply automatic systems from some "levels" or "cascades" with variously
fast action. The last chapter of the article deals with the input and
output information in the case of superfast operation intermittent
automation devices. The possible methods of reducing the volume of innut
and output information in the solution of very complicated problems are
listed. There are 5 figures and 4 referencest 1 Soviet.
SUBMIITED: February 12, 1960
Card 3/3
ANMRLTV. P.N.; VAMIOVA. G.A.; NZYVAII. K.S.
Resnatron self-oscillators with a large power output for operation
in ths UHF band. Radiotekhnika 15 no.Us26-33 3 160. (MMA 13:11)
1. DO)y8tvitel by7e ohleny Mauchno-tekhnicheakogo obahchostva radio-
takhaikl I elektroavyasi Imeni A.S.Pbpova.
(Ch3cillators, Xlectric) (vdcrowaves)
C/1 ? r,) 10
31980
S/I 2/61/oWoWooi/oi8
F,192/E382
,, Telyatnikov, L.I. and Zemtsov, G.P.
AUTHORS: Neyman~, MS
TITLE: Investigation of flip-flopsand registers for the
amplitude system of digital computing
PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy,
Radiotekhnika, v. 4, no. 4, 1961, 388 - 397
TEXT: One of' the authors analyzed in two earlier papers
(Ref.. I - Radiotekhnika, 1960, 15, no. 3, 7; Ref. 2 - -do-
No. 10, 3) the general problems of designing digital-computing
elements based on radio pulses instead of the usual video
pulses. Such systems can use amplitude, frequency, phase and
combined method; of recording and processing of irxformation~
Some experimental results of an investigation of the basic
amp1it4d4t-type binary systems are described in the following.
The elements of the flip-flops and registers are based on over-
excited oscillators. The experimental oscillator was based on
a vacuum tube, type 6"8 (6N8), with series supply in the grid
and parallel supply in the anode circuit. The oscillator
operated at a frequency of 7 Mcls. One of the important
Card 1/6,
31980
S/142/61/004/004/001/018
Inveatigation of flip-flops .... 9192/9382
characteristics of such an oscillator is its output voltage-
at the grid circuit as a function of the negative
amplitude U
9
as a
bias applied to the grid, with the mode voltage S
a
is
parameter. A set of such control curves for various 2
a
shown in Fig. 1G for the coupling coefficient K = 1A
(coupling between anode and grid circuits). It is seen that
depending on the grid bias voltage, the oscillator can behave
as a bistable element. On the basis of Fig,. 1, it is possible
to determine the width ZNE of the bistable zone for various
9
anode voltages. It was also found experimentally that the
amplitude of the oscillations was a loop-form function of
the anode supply voltage. The width of the bistable zone as
~ function of the anode voltage is greater than the width as
~ function of the grid bias voltage. Changeover of the above
type of flip-flop (switching circuit) can be effected by means
of an external video pulse, radio pulse or both, provided the
systetp operates within the bistable zone. If the triggering is
Card 2/0-11
.,)1980
S/142/6i/oo4/004/Ool/ol8
Investigation of flip-flops 9192/9382
done by a radio pulse, this should produce forced oscillations
in the system, whose amplitude should exceed a certain threshold
level. Further, the radio puls2 should transfer to the system
an energy not less than (1/2)CU , where U is the amplitude
of the threshold voltage and C is the equivalent napacitance
of the oscillatory system. The fact that the amplitude-type
flip-flop can be controlled either by a radio pulse or by
changing its supply voltage can be taken into account in the
design of a binary register with an amplitude system of informa-
tion-storage. Triggering of the flip-flop by means of radio
pulses makes it possible to transfer the "state" of a preceding
flip-flop to the next unit, while by using video-pulse
modulation at the supply side each flip-flop can be returned
to its original state. In the case of triode flip-flops, the
modulation can be effected at the anode as well as at the grid.
The registers can be of the following three types, depending
on the inter-coupling elements between tile flip-flopsl
a) register with delay lines; b) register with two flip-flops
in each stage and c) register with three flip-flops in each
Card 3/~,,_
S/142/61 ooVoWooi/oi8
Investigation of flip-flops. E192/P-382
stage. The first flip-flop A is the fundamental element in the
.register of the second type, while the second trigger B forms
the coupling element. The modulating voltage is applied to the
ating L
fundamental and coupling elements in anti-phase. The modul 0
voltage is applied to the elements with a phase-shift of 120
in the case of a three-flip-flop register. A register element
of the second type was investigated experimentally, the circuit
diagram of the system being shown in Fig. 13, The potentiometers
R in the circuit were used for setting the mean levels of the
biases and the amplitudes of the modulating voltage for each of
the oscillators. The lefthand-side oscillator was triggered
by an external source, operating at 7 Me/s. The righthand-side
oscillator was triggered by radio pulses derived from the
lefthand-side oscillator via the capacitances C CB1 and C CB2
and the diode )C~, connected in parallel. The diode was employed
principally for directional decoupling of the systems The
experiments showed that a satisfactory operation requires that
the directional decoupling be at least 10. If the decoupling
were lower, a spurious triggering of the lefthand-side oscillator
Card 4#,,
319P,G'
S/142/61/004/oo4/ool/018
Investigation of flip-flops .... E192/E382
by the righthand-side oscillator could take place. The above-
experiments confirmed the possibility of employing the
amplitude-type binary switching circuits and registers as
reliable computing elements.
There are 14 figures and 8 references: 4 Soviet-bloc and
4 non-Sovict-bloc. The four English-language references
mentioned are: Ref- 3 E. Goto - PIRE, 1959, 47, iio. 8, 1304;
Ref. It - R.A,. Wigington PIRE, 1959, 47, no. 11 , 516;
Ref. 5 - F. Sterzer - PIRE, 1959, 47, no. 8, 1317;
Ref. 6 - Transactions of IRE, 1959, EC-8, no. 3.
ASSOCIATION: Kafedra Moskovshogo aviatsionnogo instituta
im. Sergo Ordzhonikidze (Department of Moscow
Aviation Institute im. Ser,ro OrdzIlionikidze)
SUBMITTED: December 6, 1960
Card 5,~,'.
23089
S/108/61/000/007/001/007
746 D204/D305
AUTHOR: Neyman, M.S., Member of the Society (see Association)
TITLE. Principles of designing memory elements and of code
selection for high frequency binary automatic control
systems
PERIODICAL: Radiotechnika, no. 7, 1961f 3-10
TEXT: In the present article, the author considers methods of
realizing memory elements for binary automatic control systems and
the basic principles of code selection. Different memories are con-
sidered first. The passive wave memory, a memory obtained owing to
a finite time of any wave propagation, can be designed using either
the incident or reflected wavd in the form of pulse packets, The
time of storage is then limited by the attenuation and "erosion"
of signals owing to dispersion. The increase in the time storage
of these HF memory devices can be achieved by adding active circuits
which either periodically or continuously regenerate the information,
e.g. in the form of series connected pulse-forming and anplifying
Card 1/ 5
S/1023089
Y61/000/007/001/007
Principles of designing... D204 D305
circuits (Ref. 4: C. Cutler, PIRE, Vol. 43, No. 2, 1955) or in the
form of one oscillating circuit, for several passive elements, such
as a TWT. The possibility of storage elements at SHF based on the
principle of varying the parameters of the propagation medium, i.e.
of a parametric storage element is considered next. Such a memory
can use the variation of impedances of attenuation constants, of
resonant and phase characteristics, reflection coefficients, coup-
ling coefficients, phase velocity etc, The problem of storing
information could be easily achieved for instance by rectified
voltage and currents of the radio pulses. These in turn could
charge or discharge non-linear capacitances, alone or combined with
non-linear resistances of diodes, etc, There are certain difficul-
ties here, however, owing to the time of writing of the information;
since e.g. if the time I' of voltage variation is T a 10-9 sec at a
capacitor C = 10-11F and & u - IV the required current is i - 0.01
amp. This amplification of radio pulses is required. For the sel-
ection of stored information and its application to the required
element of the automation circuit code selectors could be used.
Three systems of code selectors are considered, as applied to a
Card 2/5
S/10 61/000/007/001/007
Principles of designing,_ D204%305
sampled system utilizing radio pulses with amplitude, frequency and
phase pulse modulation. These are: parallel, pyramidal and crossed
types of code selectors. If 1, 2, 3,,,,,.m denote the control in-
puts and there are 1, 2, 3..,..,n outputs then in the parallel con-
nection of code selection to each of the n outputs, there corres-
ponds one m-th binary code combination and 2m,> n, In the pyramidal
system of selection the input 0 branches off in the selector first
into two directions, then into four, eight, etc, and finally into
2m directions. In the crossed system of select--)n, the selector
contains n switches in one direction, situated at the nodes of a
plane quadratic matrix. For every row and column there are two sub
selectors, each into--tFn directions, The sub-selectors have at
their inputs half of the signals of the governing code combination
(21'= Vn-), so that the matrix selecting system is being governed
in two steps. The parallel type of code selector contains, there-
fore, n switches in one direction, n comparison circuits each for
m signals and n elements which store the individual combinations
of the outputs, each for m signals. The pyramidal system contains
switches into two directions only, the number of which is equal to
Card 3/5
2 3089
S/108/61/000/007/001/007
Principles of designing.- D204/D305
1 + 2 + 4 + _. + 2m-1 . 2m n-l In crossed types of selec-
tors all the above elements are present in the sub-selectors but in
reduced numbers, sinceVn- has to be substituted for n~ In further
considerations, systems with uni-polar (1 or 0) controlling signals
only are considered, The elements of a selector of the parallel
type are considered under the assumption that oscillations do-'- not
change their parameters except when required. Under such conGitions
all four A, F, T and V systems can be achieved using linear passive
elements. System T . the code combination from comparison circuits
may consist of phase reversal for instance. System A and f: Here
the most convenient is the preliminary transition of the type A -t'
Y or f -,p A -4 T. System V: Here the controlling system most
likely to be used is of two polarities i.e. positive and negative.
In selectors of parallel types the switching circuit should differ-
entiate between the control signal m and the slightly smaller infor-
mation signal, the control signals being only A or V. The differ-
entiation can be made more certain by a preliminary amplification
of the central signal, constant level detection and code redundancy
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Principles of designing... D2047D305
in the comparisons circuits. There are 4 figures and 4 references:
2 Soviet-bloc and 2 non-Soviet-bloc, The references to the English-
language publications read as follows: H. Takahasi, E. Goto. UNESCO,
Proc. of international conference on information, g. 2.9, 1959 (Rus-
skiy perevod: Zarubezhnaya radioelektro tekhnika, No. 49 1960, p.
86); C. Cutler, PIRE, v. 43, No. 4. 1960, 1955~
ASSOCIATION- Obshchestvo radiotekhniki i elektrosvyazi im. A.S.
Popova (Radio Enaincprincy Pnrl Flentrical Commilniva-
tions Societv im A.S, PoDov) / Abstracter's note:
Name of association taken from first page of journag
SUBMITTED; October 10, 1960
Card 5/5
31-207
S/108/61/016/012/001/009
3 9201/0302
AUTHOR: Neyman, H.S., Member of the Society (see Association)
TITLE: Karmatrons platinotron and magnetron design
PERIODICAL- Radiotakhnikag v. 1-5, no. 12, 1961, 3-14
TEXT: Two main problems &rise in designing karmatrons, platinotrons and
magnetrons: 1) Calcultions as related to the electron effects in the
interaction space. They exist because of the fact that the electron ef-
fects are rather complex and not yet fully understood. 2) The design of
the structure of the delay system including all technical data required
for their proper operation. Attempts at the theoretical solution of
the above problems have produced, until now, no results which could be
applied in practice. Since, however, some design criteria are necessary,
the author attempts$ in the present article, to obtain a simplified
approach to the design of the above devicesq based on fundamentally simple
ideas and relationships and using certain empirical facts and coefficients.
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Karmatrong platinotron 0201/D302
The multi.-segment magnetron design considerations are included because
the known methods of their design do not underline their similarity to
karma- and platinotrons. The analysis is based on a unified represent&-
tion of all three devices, all considered as variants of the type]
TWT. Because of that the parameter 6, equal to the cathode-to-ano,Lofatio,
is not introduced. Another parameter is introduced instead, representing
the ratio of the distance between cathode and segments of the delay
structure to the pitch of the latter. It is stated that ideas euid re-
coaunendations as to the choice of parameters are tentative and should be
made more exact as soon as more experimental data are available. The
basic relationshipsas assumed in the article are as follows: 1) Syn-
chronization cGndition, Eq.(l) 3U 1 90 where ~J - the
c ~ 30-0 * H p
phase velocity of delayed electromagnetic waves equal to the average
axial electron velocity; c - velocity of light; c - retardation; E and
V__ 0
HO - the intensity of electric and magnetic field respectively. 2) The
expression for the radius fc of the cycloid of electron motion,
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Karmatroa, platinotron D201/D302
Eq.(2) M log E0 r-%-fl E0 3) The simplified relationship
-,;?- - rz-- 5,8 =H_
H0 0
between E0 and H0 Zq.(3) U 0 = E0 d, where d - distance between the cathode
and segments of delaying structure. 4).The'relationship between the pitch
(space periodicity) D of the delay structure and the wavelength Eq.(4)
D -OP x 0 . where I wavelength, phase shift per step.
c 2 0 7.1'
For 7L' -type of oscillations for the wave component, the inter-
action of which with electrons is used as the useful effect. 5) The
idealized thermionAc efficiency Eq.(S) 1 - 29e , which does not
d
take into account the fringe and other effects. 6) Connection between
d and D Eq.(G) d = i4D, where 11. is a certain parameter, which is one
of the basic design parameters. After a few transformation% the re-
quired system of relationships takes the form of Eqs.(7), (8), (9) and
(10)
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Karmatrono plptinotron 02oi/0302
6950 1020
(8)
(7)
HO
)
-VUO(i - q
h ) 19
e
D (9) d JIB. (10).
2 C
In platinotrons with relatively short delay structures, the maximum
hasing for the "Pre ferred" band is derived as Eq.(16a)
allowable d
0
P%
24, 2A
-
p
4 ~ o
2 &*~f lim e lim Vc- where is the
lim
f - 360a 0 -if 360a DNf
- the average axial electron velocity,
maximum allowable de-phasing, 'IP
e
I - distance along the periphery of delay structure and N - total number
segments. This equation may be rewritten as Eq. (17)
of delay structure
C
2 A f 2 lim a For karmatrons the number of segments N may be
i- ~ -N (9
much larger. In case of magnetrons, dispersion is determined by the
condition of a sufficient deviation of the resonant frequency from that
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Karmatrong platinotron ooo D201/DJ02
of.the adjacent resonances. Determinatiou of the length of the delay
system is considered*descriptiv~ly and as far as the karma- and platino-
trons are constde redIthe final number of segments should be chosen
exper1mentally. The angth A *1 of'the interaction space required for
rearranging electron bunching is derived under simplifying conditions,
as Eq.(17a) where U denoted as in-
V e 2D ~ = F
I = D 0
tensity! If the interaction space has a certain curvature - correction
factor should be introduced. The exact correction factors are stated to
b6 extremely complicated. The application of the above design procedure
is illustrated by the design of a pulsed platinotron and of a pulsed
magnetron, the results of which show very good agreement with the pub-
lished data for both devices. There are 3 figures, 2 tables and 6 re-
ferences. 3 Soviet~bloc and 3 non-Soviet-bloc. The references to English-
language publ4.cationa road as follows. GA. Dombrowski, IRE transactions
on electron devices, no. 4, (1959); W.C. Brown, PIRE, v. 45, no. 9,
(1957).
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Karmatrong platinotron 9ov D201/D302
ASSOCIATION-, Nauchno-tekhnicheskoye obahchestvo radiotekhniki i elektro-
avyaii im. A.S. Popeva (Scientific and Technical Society
of Radio Engineering and Electrical Communications im. A.S.
Popov) Abstractor's note. Name of Association taken from
first page of journal?
SUBMITTED, February 12, 1961
Card 6/6
%MWI, H.S.
---
Progress of radio electronics and its principal problems.
Izv. 7p. ucheb.; radiotekh. 5 no.1:9-15 Ja-F 162. 15:5)
1. Rekomendovana kafedroy Moskovskogo aviatsionnogo instituta
imeni Sergo Ordzhonikidze. (Electronics)
S/142/62/005/OG1/001/012
"ho 10 E140/E435
AUTHORS: Neyman, M.S., Zemtsov, G.P.
TITLE: An investigation of logical elements for digital
automata using amplitude script
PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Radiotekhnika.
V.5, no.1, 1962, 16-25
TEXT: The authors describe an experimental study of circuit
elements for carrier-amplitude logic. "For greater simplicity
and clarity the first experiments were carried out using vacuum
triodes and a relatively low frequency of oscillation".
The system described consists of stiff-feedback oscillators with a
heavy fixed grid bias 'i-.,hich maintains them cut-off except when
triggered into oscillation by the simultaneous presence of a
high-frequency input and a reduction of the bias. The latter is
used to control the clock relations. The bias,resonant
frequencies and coupling arrangements are adjusted to permit the
following logical operations: (with two inputs only) AND, OR,
EXCLUSIVE OR, and (with one input only) NOT (negation). The
carrier frequency of the experimental elements was 750 kcs, the
clock frequency 50 cps (sic'. The circuits are not unilateral,
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An investigation of logical ... E140/E435
so that there is back triggering of oscillators, for example
in the 011, with one input excited, the output oscillator is
triggered which reacts back on the source for the second input.
In the exclusive-OR circuit, pips occur at the start and finish of
a cycle if both inputs are nominally excited, due to imperfect
synchronism of the two oscillators (the clock signal is
sinusoidal). The leakage is also high, the signal-to-"no-signal"
ratio being three-to-one. The authors speak of a "synaptic"
junction at which the type of logical operation could be
controlled by an external signal, due to the fact that the
difference between one operation and another is in part controlled
by the type of coupling (resistive, capacitive). There are
12 figures and 1 table.
ASSOCIATION: Kafedra Moskovskogo aviatsionnogo instituta
im. Sergo Ordzhonikidze (Department of the Moscow
Aviation Institute imeni Serge Ordzhonikidze)
SUBMITTED: ~Ino 16, 1961
Card 2/2
S/142/62/005/006/001/011
E140/9435
AUTHOR: Neyman, M.S.
TITLE: On electronic machines for testing ultra-high-speed
pulse script digital elements
PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Radiotekhnika,
v.5, no.6, 1962, 663-671
TEXT: The author describes various simple arrangements for
testing digital circuits using microwave pulse script or other
ultra-high speed elements. The logical operations possible are
"AND", "OR", flexclusive-or", shift and store. A system for
manual input and cyclic operation with comparison to a prescribed
end result is described, permitting operation cycles of the order
of several minutes to be obtained. Correct operation is
determined by stopwatch, given a knowledge of the clock rate and
the period of the operation, e.g. simple counting in a shift-
registee counter of large numbers of positions. There are
9 figures and 4 tables.
ASSOCIATION: Kafedra Moskovskogo aviatsionnogo instituta im. Sergo
Ordzhonikidze (Department of Moscow Aviation Institute
SUBMITTED: May 15, 1962 imeni Sergo Ordzhonikidze)
Card 1/1
NERANP M.S.
(I-- -.--
Super-high frequency sampled-data computer automata. Trudy
MAI no.149:5-12 162. (MIRA 15.12)
(Electronic computers) (Automatic control)
NEYVAN. H.S.
Principles of the design of super-high frequency sampled-data
systems. Trudy 14AI no.149:13-22 162. (MIRA 15:12)
(Electronic computers) (Automatic control)
NEYNANI M.S.; TELYATNIKOV, L.I.; ZENTSOV, G.P.
Study of triggers and shift registers for amplitude-type
sampled-data systems. Trudy MAI no.149:23-37 162. (KM 15:12)
(Pulse techniques (Electronics))
(Electronic computers)
NEYMANY M.S.; ZFMOV,, G.P.
. .............
Study of -logic elements for amplitude-type impled-data systems,
Trudy MAI no.149s52-65 162. (MIRA 15:12)
(Electronic computers)
- HEYMANI H.S.
Principles of the design of memory and code selection elements
for high-frequency sampled-data control systems. Trudy MAI
no.149:148-157 162. (MIRA 15:12)
(Automatic control)
NEYMANO X'S.
Concerning the automation of programing operations of Superhigh-
speed computer system of discrete electronic automata. Trudy
MAI no.149zl58-174 162. (MIRA 15:12)
(Electronic computers) (Automatic control)
NEYMANI M.S.
Electronic automation of research work. Trudy YAI no.149:175-
187 162. (KIRA 15:12)
(Electronic data proces") (Research)
r9
(Electronic computers
NEYMAN, M.S.; ZEMTSOV, G.P.
Amplitude triggers using tunnel diodes. Radiotekhnika 18
no.1:40-47 Ja 163. (KCRA 16t2)
1. Daystvitelinyye chleny Nauchno-tekhnicheskogo obahchestva
radiotekhniki I elektroavyazi imeni Popova.
(Electric neWorks) (Pulse circuits)
IS
S
Lame A: PMT(d)/qwT(r4)/Ewp(w)/p1*)
D/AEDC(b) (ARL IR
Off. ~--/-AP50--
02 1
8/0'2 /024/0012/0012
AUTHOR: vxalltsev. V. I.; Glazunov, S. G.; Zaboronok, Gr. F.,i Zelentsov,
i_i_.7
Y_
seley, A - A .0. * e Vefe.dova, L. A. R!ynj~c
-.1"'L aro ol d,.
Fi 7ijj:F4:j7
_2nshin, A. S.; Sokolov, B. G.;
1,111ME: Vacuum -furnace fdr melting, alloys. Class: 18, No. 166934
ISOURCE: ~Byulletenl izobreteniy i tovarnykh znakov, -no. 24-, 1964, 12
TOPIC TAGS:--valcuum furnace, alloy melting, alloy melting furnac e,
Vacuum molting furnace
ABMACTt this -Autoor'Certificate introduces. a- vacuum furmace for
.___Mektirlig. ulloys a '-The furnace is equipped-vith electron gunis or tilt-
~ing, thigh- frIequen.cy melting crucibles-and a.mold vhich~ aiz anclosed-
in a vactium chamber. In,order Linitially td melt
-win
D4-
Cord 11-2
ACCESSION NR: AP404ZS45 5/0142/64/007/0031028SID07-94
AUTHOR: Neyman, M. S. (Professor); Zemtsov, G, P.
TITLE: Simple method of testing discrete -operation components at high clock
frequencies
SOURCE: IVUZ. Radiotekhnika, v. 7, no. 3. 1964, Z83-Z94
TOPIC TAGS: computer component, computer component testing, computer
reliability, computer comionent reliability
ABSTRACT: This method is suggested for testing the reliability of a trigger,
logical element. shift register, etc.: The pulse train from the component being
tested in applied to a detector and then to a (simple or superheterodyne) radio.
receiver. After the detection, an amplification at the clock frequency. or its
harmonic, and then a second detection may be arranged. An experimental device
i (see Enclosure 1) used for testing an r-f pulse trigger consisted of the trigger
Card 1/ 3
ACCESSION NR: AP4042845
proper Tr, a detector D for isolating the r-f -pulse envelope. a superheterodyne
receiver R tuned to the clock frequency, and an indicator I which served to
measure the voltage across the receiver detector. The trigger included a tunnel
diode with an additional inductance and coupling capacitors. The effect of the
supply voltage on the reading of the indicator, for various modulation v:ltages
and at clock frequencies of 70, 130, 140, and 150 Mc. were determined experi-
mentally (curves supplied). It was found that the tested tunnel-diode trigger
reliably operated at clock frequencies up to 130 Mc, with a carrier -frequency to
clock-frequency ratio of 13.5. The method permits the testing of components not,
nly for flip-flop operation but also for cycles such as: 101010, 100100100,
110110110, etc. Orig. art, hasz. 12figureso-
ASSOCIATION: none
SUBhUTTED: 25blar63
SUB CODE: DP
!Card 2/3._
ENCL: 0 1
NO REF SOV: 003 OTHERI 000
ACCLSSICH MRs AP4042845
Tr
r
J
k trigger testing scheme
Card 313
ENCU)SM, Cl
NEEYMA,NI M.S.
Fundamental problems of microminiaturization. Ra#otekJu-,ika
19 no.1:3-12 Ja 164. (MIRA 17:1)
1. Deystvitellnyy chlen Naucht,'- roklaiicheakogo obshchestva
radlotekhniki i elektrosvyazi imeni Popova.
'Pamoylovich; GANIN, I.K., red.
[Course on radio transmitters] Kurs radioperedaiushchikh
ustroistv. Moskva, Sovetskoe radio, 1965. 593 P.
(MIRA 18-8)
EP
T
;L 36714_6t~
ACCESSION APS004417
:,processes.- - In designing technical systems for Processing and storing information;
of atomic -molecular events, roughly this relation will hold true:
;:MBQjK 10, where 14 is* reliability, M is the degree of micr6miniaturization~