SCIENTIFIC ABSTRACT KUZNETSOV, V. D. - KUZNETSOV, V. D.
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CIA-RDP86-00513R000928210002-7
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RIF
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S
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100
Document Creation Date:
November 2, 2016
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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JgqRTSOVL V. D.; BEREGOVSKIYj - V. 1.
Technical progress in the conversion of copper matteol reviev
of foreign literature. TSvet. met. 35 no.10.*88-93 0 162
(MIRA 15:10~
(Copper-44stallurgy)
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lye
016
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er rs '128
4 tur a
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"hecha ty 11 1~ 0 eff or 'he heraeo
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Ill Cal 0 Ot v *1442 120. 224
i) Ob th Of
Pro &gllb e L'.Y a 4p 19
Qome The pert, G cob m0chabl a tem.,,, 6z
gra,bazlealat, ca of a alum
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f orm sho Vit Maeb ble k'I 0e"2 Pr ure
7
y . esl4 fluct~, - 77
a ti 022 wed or t., (1(d OPez'Q cha
t Of M.1 or 49 a, m are a tj on 0) ca es
3 t Cadml O&COPI bd Cd CIMI abd "ges be tiv
bot Ill a that um on th
elo, 46zebsl 2 a alter Ca2 t "em., ere OCC I abd e eeb.
Ire - ti 017 etre rac 'led lased b. 4r 1, .
on atmen fr Meth a its e8 Of conat . a I-L b Zjj7L,
rd t. Ora '4% t from 6 Yield alldl Q17 t4 ."er the
113 XncrL'n 0 --j -6 ice/ Z Poll, t bA% ~ P to Mal trea t
0%. J7381. fro Inte L 1()00
to na
n4m Th 5.5 k,, 'Ycl,
the ea. Qatj a,
ber -7-5 pl
Of Cohab ' Ic ~? 0 dim-
),Yol jL, g/nIM to
e8 a Oce patjd 7 ke/~llm 2
to- ur 117 It
500 che the rel
fIrs t a ti T?
need at,, e
these ')a
Avoper-
ANN--
Cy6lic low-temperatumwo
3/020/62/144/004/013/024
B125/B104
tids only slightly. The results for.zine are illustrated in Figs. I and 2.
After the,first few cycles, an intense multiplet gliding dppears in the .
grains. As a rzle the ensuing cracks propaGate along only a sin;le slide
line but some of thenalso go into the neighboring planes, in which case no
cracks appear at the boundaries. The large cracks are obviously due to
accumulations of dislocations in a given plane at the grain boundaries.
They con3i4erably reduce the mechanical strength and increase electric
0
.resistivity. Some of the cracks form an angle of 90 with the slide plane.
In the range of 100 cycles 'the generation and development of coarse cracks
is reduced, but fine cracks arise owing to retarded shear at the boundaries,",
.of the grainsl subgrainst and twins. The thermal and structural stresuea-~!
in cadmium and zinc lead to considerable plastic deformation, In zinct~-'.
the formation~of cracks interferes, with strengthening. The resultb of
cyclic thermal treatment'depend not only on the degree of anisotropy in
thermal expansion butalbo on 'the mechanical properties of the metal in
the temperature range of.euoh treatment,~ -There are 3 figures. The most
important English-language reference iat J. J. Gilman, Trans. AIME, 222,.
738 (1958).
Card.2/3
3/020/62/144/004/013/024
Cyclic low-temperature B125/BI04
ASSOCIATIONs Sibirslciy fiziko-tokhniohookiy nauchno-issledovatollskiy
1notitut pri Tomskom gosudarstvennom univernitete W. V. V,
Kuybyaheva (Siberian Physicotechnical 3cientific Research
Institute at Tomsk State University imeni V. V. Kuybyshev)
SUBLIMED: March 3, 1962
Fig. Is Dependence of thp yield Fig. 2: Dependence of the relative
point 6-T and of the tensile elongation F_nnd of electrical
resistivity on the number n
strength.B on the number nof
cycles.
6
%
Card 3/3
W 400 600 800
8/126/63/015/001/023/029
E073/E15l
F,uznetsov, V.D., Savitskiy, E.V., and Sukharina, N.N.
'I,* IJ~: ~;(mje fentures of the Rtroicture of white 3ayers
''I 1,0J GAL I-J7,lkn metallov i metallovg?deniye, v.1j, no.1, 19t)3,
5
Friction tests on low-carbon xtPel'(0.0()-0.18',, C)
coli,--tatil-ly liibricated with machine oil, save white murface layers
of, hi-h inicrohnr(iness (1000-1300 ks/Irl"I which were blackened by
2).
,01k,kI ij;u tiodium picrate and retained tnoir hardnems up to 800 aCO
heill'w reitioved only after annealing at 850 C. Spocimens with
Whig(- Jayer-ri wi.,re annealed in vnc"o at 300-650 *C either in steps*
a,!- 1o(.1; OC intervnls, or nt one temperature only. At low
temveratiirr-s the polished sectimm showed ro etcIving of the white
la;)-Or in nitric acid but the Inyer showed individital xpots with
_i-,, dark inciiis.ions. After nillicajing above 400 6C the dark-spots
arid could be observed on the unetched Rpecimens. at low
and after annealing at 700-600 '0C the surlace layer
!ttill hnrcl (66o-980 kg/m2)and would not etch, but regions
Cco-ov--d which aplienred to be covered with dark nj..)tf4, particularly
whorr! the hardness was greatest. At 000 C the white layer
C ~.. r 4.1 .1 / 2
oule S/126/63/015/001/023/029
fpatitros of the mtriictitre
EOME151
dve~t,t,qlosed, but the penrlite formed represented n htghc#r carbon
ronto-rit than the original steel; soiiip graphite was obaerved, and
at ",j0 *C clecomrosition Into pearlite and graphite was complete,,
-with a t'erritic zone surrounding the original white layer# The
nw(mtif. of graphite observed was minall, possibly due to diffusion
(hir-ing anxinalingi, The behaviniir of the non-etching white layer may
lit! oxplaine(I by the fact that the hnrdriese of un-ann4taled white,
.layerr; with graphite Inclitisionti was 400-900 kg/mf?121 ioe* very MAch
thatt eontinuous white layers. which weve 1000-13o0 kg/M~X .,
ii.fore-11cen in rostilts obtained ljy other workers on the effect of
11-v ~,;Iiitc layer on wear resistance way be due to differences 'in
tbe v,-1c, of origin of the white layers, rnsulting in carbides of
r)ifF,!rjn,g thvrmol stability. Friction In low-carbon stools may
the formatAon of carbides which partially decompose to form
graphite. There are 3 figiires.
_,;JhtrLRk.1y J*iziko_tvlcljnichnskiy nauchno-iseledovaiev-
sk.iy institut (Siberj.OTI Fhymico-technical Scientific
Card 2/2, Posparch Institute)
~3 U UITTL 1) june 121, 19b2
CW 6 13, Z W C.
._4NET8OV,,.V.D. Ldeceas-ed); SAVITSKIY, K.V.; KOGAN, Yu.I., KUDRINA, M.P.
Thermal recovery of ghost lines. Izv. vys. ucheb. zav.; chern.
met. 7 no.8:129-134 164. (MIRA 17t9)
1. Sibirskiy fiziko-tokhnicheskly nauchno-issledovate"skly
institut.
119w6L WTC1)/T WTI
-XCC-Mr, - A P6 019 010 SOURCE CODEt UR/0106/66/000/006/0020/0027
AUTHCR: Kuznetsov, V. D.; Paramonov, V K.
ORG: none 33
TITIE'. Cophased antennh with an active broadband reflector
SOURCEt AN SSSR, Vestnik, no* 6p 1966# 20-27
TOPIC TAGS: antenna arrays dipole antenna, antenna radiation patterns broadband
communication
ABSTRACT: A unidirectional cophased dipole antenna array with an active reflector
fed by. a directional coupler is analyzed, It is shown thats with certain chosen
parameters (coupling coefficient, dipole and feeder characteristic impedancesip
this antenna maintains high directivity with good matching and efficiency characte
tics in a wide frequency,band without re-adjustments.
Cophased dipole antenna-arrays are usually constructed iii two sections,
an active section fed by the transmitter and a passive reflector section in
'which the amplitude and phase of the currents are stub tuned to adjust the
.'reactive part of the antenna impedance. Antenna current components from
the active and passive sections add in the forward direction and cancel each
.other in the opposite direction, giving rise to antenna directivity. In other
.'types of systems the reflector may also be active, but.special transformers
'xnust be used to insure proper amplitude and phase relationships between
L 42112-66
ACC NR, A.P601951-0
the currents. - In both types the antennas are directional at the operating
frequency only. At frequencies slightly removed from the optimum, the
front-to-back directivft~ ratio deteriorates, the antennas are no longer
properly matched to the feed system, and the efficiency decreases accord-
ingly.
. The authors report on 4 new driven cophased dipole antenna system
comprising two arrays, each containing two sections of four horizontal
two-section dipoles placed one above another. Each dipole section con-
sists of four conductors which form the corners of a parallelepiped. In-
dividual antenna down-leads are used for each dipole array, and the cur-
rent phases are therefore equal. The, opposite ends of these down-leads
are connected to a directional coupler which channels the currents with
proper amplitudes to corresponding dipoles.
This. antenna system may be analyzed by assuming that each array
may be replaced by an equivalent dipole'with a corresponding radiation
impedance equal to the sum of all actual dipole impedances, including the
effect.of mutual interaction between the Main dipoles and the directors.
For purposes of analysis, the reflector dipoles may also be analogously
treated as one dipole. ..The calculations performed by the authors apply
NRs
to an ante.nna ~iitem with the following parameters:. distance (t) between
the center lines of adjoining four-dipole columns, 430 mm; diameter of
each coMuctoi used to form a dipole arm, 0.00093 t; diagonal of the tr ans-
..verse cross section of the parallelepiped formed by the conductors,
,,0.0745 t; length of each dipole arm, 0.42 t; vertical distance between dipoles,
.0.581t; distance between the two arrays, 0.337 t, characteristic impedance
,of each dipole feeder, 300 ohm; directional coupler length,0.3 t; maxi-
~.murd directional coupler current splitting factor, 0.2.
The authors develop expressions for the resistive and reactive compo-
nents of self- and mutual Impedances of the equivalent dipoles as functions
Of 1/)L (where 1 is'the dipole arm length and x the wavelength). From these.
expressions and the directional coupler parameters, the basic antenna
performance factors such as the antenna radiation patterns, the input
traveling wave ratio, the antenna efficiency, and the back-to-front ratio
are determined. The deviations are based on a previous work on a
driven dophased two-dipole antenna fed through a directional coupler.
The theoretical and experimental curves for the traveling wave ratio
(TWR), efficiency (n), and back-to-front ratio (B/F) are shown in Figs.
1, 2, and 3, respectively. The experimental results were obtained for the
Card 3/6
ACC NRs
You
0
A
A-
q4 -
0,2 g25 0.3 435 0.4
U.45 45
1,0
0,6-
-0,2 0.25 0,3 0.35. 0,6 C,45 015
B/F
Fig. 1. Traveling wave
ratio as a function of
1A
Solid line - theoretical;
dots - exper!-mental,
GIZ q= U13 UO" (411f
Fig. 2., Efficiency as a
function of l/A
Solid line - theoretical;
dots - experimental.
Fig. 3. Back-to-front
directivity ratio as a
function of 1/A
Solid line - theoretical;
dots - experimental; broken
line - antenna with nonperiodic,
reflector.
0,
Ca,d 4/6
ACC NRi W0140
antenna whose dimensions were given above. Each array in the experi-
mental setup was fed by a coaxial cable, and the dipoles were driven
through'a symmetric 30G-ohm KATV cable. The frequency range used
in the test was limited to the band between 300 and 900 Mc. Both the
general pattern shape and the half-power beam widths of the radiation
patterns [not supplied] are said to conform to the theoretical patterns,
It is apparent from the theoretical curves that the antenna is highly uni-
directional (the B/F ratio does not exceed 0.1, 0.2, or 0.3 In the 1.6:1,
2.1:1, or 2.5:1 frequency ranges, respectively). A good match between the
',antenna proper and the feed system Is evident from the high TWR
'(0.7 for most of the range). The efficiency is 9076 at short wavelengths
and 7074 at longer wavelengths.
One of the salient features of the antenna system is Its ability to
maintain.its performance level even when the parameters of its compo-
nents are sub-optimal. For example, the length of the directional coupler
does not affect the basic antenna characteristics. The dipole array dimen-
sions are not critical and may be made equal to the corresponding dimen-
Edons of typical cophaaed dipole arrays, Le. , distance between arrays,
,X,/4; vertical distance between Individual dipoles, x,/2; and dipole arm
length, 0.42X0 (where A0 is the fundamental antenna wavelength). The only
U
L 42112-66
ACC NR% AP6019010
relatively critkal parameter is the dipole Impedance, which tends to
extend the antenna frequency range and assures a good match between
components if It is low.
For comparison, the broken line In Fig. 3 represents the B/F directiv-
ity ratio of a cophased antenna with nonperiodic reflector, i.e., a reflector
in the form of a curtain of parallel conductors separated by a distance of
0.035 t. From this and other comparisons, It was concluded that the par-
formance of the new antenna is equal to or better than that of an array with
nonperiodic reflector or.a cophased dipole antenna array In which the re-
flector is tuned at each frequency. Orig. art. has: 11 formulas and
12 figures. (FSB: v. 2, no. 9)
SUB CODE: 09o 17 SUBM DATEt 090at65 / ORIG REF: 002
af
L ~' 78-66 EWT(!)/T WR/GD-2
- 1.96
ACC NR: AP6009497 SOURCE CODE: UR/0106/66/000/6'03/OOZ6/003Z
AUTHOR: Kuzneteov, V. D.; Paramonov, V. K.
ORG; none
TITLE: Radiator with a reflector supplied through a directional coupler
SOURCE: Elektrosvyazi, no. 3, 1966# Z6-32
TOPIC TAGS: antenna, radio antenna, broadband antenna, UHF antenna
ABSTRACT: The radiator -reflector antenn element ensures good directional
pz.ttern but has a narrow-band characteristic. To widen its band, insertion of a
suitable directional coupler between the radiator and reflector is suggested,
Formulas are developed which determine the conditions (coupling factor,
characteristic impedances of the rods and feeders, etc.) under which such an
element possesses good directivity, good matching, and high efficiency.
Card 1/2 UDC: 621.396.677.81
7 7-
L 39678-66
ACC NR: AP6009497
Experimental verification of the new formulas included measuring the TW factor,
efficiency, and front-to-back ratio of a 4-prong antenna system within a
300-800-Mc band. The experimental data was slightly better than estimated;
hence, the new formulas are recommended for rough estimation of such antenna
systems. Orig. art. has: 6 figures and 33 formulas.
SUB CODE: 09 / SUBM DATE: 090ct65 ORIG FLEF: 00 1
Card 2/2 h
LK
t '
ACC NRt
114'a
SOURCE CODE: URIO
ATITHOR: Kuznetsov V. D ; Paramonov, V. K.
CRO: none oe>
TITLEt Remodeling of tuned. co-phagal. iMa_ainto, broadband antennas
6 1
SOURCE: ElektrOBVYaZI, no. 7# 1966, 17-24
TOPIC TAGS: phased array antenna, broadband antenna, antenna engineering
ABSTRACT: A tuned-refleotor cophasal array can
be re-connected into an active-reflector
broadband antenna; the reflector is fed via
a directional coupler. The method of
connection of four tiers of radiating
elements of a stacked antenna is shown
(see Fig. 1.) for (a) multiple-feed
array and (b) paired-feed array. A
rodel of llbll-type antenna was tested
at- 360-680 Me; plotis of its traveling-
wave ratio, efficiency., and back-to-front ratio
vo. frequency are shown. A scheme for remodeling
a tuned cophasal array with a controllable
dIxectional pattern is given. Four transmitting
(b)
Fig. Multiple-feed array and
il/2 H'M.121' " 6' . 9r.B1 2.12
39
1. 38,991-66
ACC NR. AP6023600
coDbasal arrays were actually remodeled; their directional patterns practically
coincided (except for some side-lobe and rear-lobe areas) with those of the
original antennas. It is claimed that such a remodeled antenna is not inferior to
the original tuned-reflector array insofar as its directivity and matching to its
feeder are concerned; its efficiency is sufficiently high. Orig. art. has:
10 figures and 4 formulas. [031
SUB CODE: 09 / SUBM DATEt 090ot65 / MIG REFt 002/ ATD PRESS: 6-06-0
2
KUZNETSOV,, V. D. j &g *
"Invactigation of a short-Wave Antenna." Thesis for de(;ree of C.,nd. Technical
Sci, Sub 10 June 49., 1,11oscow Order of Lenin Power Divincering, Inat imcni V. 1-1.
Molotov.
Sununary 82, 18 Doe 52, Dissertations Presented for.Degrees in Sclence aryd;
Engineering :in Moscow in 19h9. From Vechernyaya I-Ioskva, Jan-Dee 1~,b9.
DOMEROVSKIT, I.Ae; KLJZNETS07y VeDe, redaktor; YANOMSON, A.1h,, redaktor;
VEIIIMAUB, L.B., v5EEffTeffWiy redaktor,
[Antennas] Antenny. Moskva, Goa. izd-vo lit-ry po voprosam aviazi I.
radio, 1951. 362 p. [microfilm] (KWA 8,4)
(Antennas (Ileetroulos))
KUZNETSOV., V.
USSR/Wio - Domf
Oct 51
'Turther Intensification in the Work of the Dosaaf
(Voluntary Society for Cooperation vith the Army,
Aviation, iuA Pleat),," V. Kutnetsov, Chm, of the
organization Committee of Dosaaf
'Thdio" No 10, PY 1-3
In the radiofication movement, radio amateurs re-
paired and installed mDre than 10,000 radio
receivers, about 200 vired radio centers, and 6,000
loudspeakers in rural areas, according to incom-
plete figures for 1951. Good results vere also
obtained in eampetitions.
2DOT44
If
T .
"The significance of the activity of radio enthuslaotsj" Radio, No. 51 publication
of the Min. of Communication) 1952.
A 9 Au"Au.~Ow. I I a
2, U13SR (600)
4. Television-Antennas
7- Collective television antenne.. Radio no. 11, 1952,
9. Monthly List of Russian Accessions, Library of Congress, Februarg .1953. Unclassified.
1, ULNEMOV,
V.
"Aircraft T(adar.ll frorr, the Journal Patriot '~~,Jjrry, 11. jar.,iary 1953, P. 4
D-62531, 17 Sep ;54
KUZKSTSOV, V., kandidat takhnicheakikh nauk.
11 '19IN W
Radio mirages. Tekh.mol.22 no.2:24-27 Y 154. WaA 7:2)
(Radio waves)
KUZNBTSOV, V.D.
Shunt vibrators. Radiotakhnika 10 no-10157-65 0 155. (KLRA 911)
(Ilectric current converters)
sR/Electronice
Card 1/2 'Pub. 90 2/9,
Author i Xu~netsov*)Ne D.
Title Ref11-ector Antenna System
Periodical Radilotekhnikas 3., 4-15, Mr 1956
AID P 4539
Abstract Tho author analyses the performance of a reflector
antenna system in which the antenna with the primary
radiator are on the ground and a tilting reflector
reflecting the waves from the emitting antenna in the
devired direction is placed on a tower. The author
entunerates the advantages and disadvantages of such a
system. He finds analytically the optimal surface shapes
of the antenna and of the upper reflector which he States t
The ellipsolds.1 and paraboloidal respectIvely. He finds the
efficiency of power transmission from the lower.to the
upper reflector, the amplification factor of the upper
reflector, Its directional characteristics, and a formula
for the optimal shape of the lower antenna if for practical
KUZNETSOV9 V- Cand, Tech. Sci.
"The Development of Radioelectribnics in the USSR." Voyennyy Svyasist.,
No.5, 1956
"Protective Abilitk and.Decoupling in a Periscopic Antenm
System," by V. D. Kuznetsov and A. V. Sokolov,, Elektrosnav
No 1, Jan 57, PP 17-20
A series of experiments were conducted with a multichannel micro-
wave radio-relay system "periscopic" antenna to determine protective
ability from the interference of adjacent channels.
It was estimated that for a relay system with 240 or more channels
having a distance of 1,000 km or more, the protective ability of the
antennas should be at least 60 decibels to assure 'a satisfactory two-
frequency communication system. The form and dimensions of the antenna
components were as follows: the upper reflector was continuous, flato.
inclined 450 and 3.2 m in diameter; the lower reflector was a continuous,
concave ellipsoid of rotation, with a 3.2-m diameter circle In its hori-
zontal projection. The radiating element was in the form of a one-meter
horn with a 45 cm square mouth. The gain of the antenna system was
about 30 db and the losses in the reflector system about 3 db, when op-
eriLting in the frequency range of 2,000 Mc. Three types of relay towers,
45, 551 and 75 m highi were involved In the test; the distance between
the two upper reflectorsand the two lower reflectors for the 55-meter
tower were 9.6 and 14 m, respectively.
The results obt.1ned to
the experlsont led to the conclusion Vt
periscopic antenna system of the described construction can protect
reception up to 60 dbp~provjd
.the, signals Id difterent Polarizations are OPPlied to
traveling In the O;Osite directions.
108-10-4/11
AUTHORs Kuznetsov, V.D., Ordinary Member of the Society
TITLEi The system or Collective TV-Reception with 12 Channels (Sistema
kollektivnogo priyema televideniya na 12 kanalov)
PERIODICALs RadiolEkhnika, 1957, Vol- 12, Nr 10, PP. 31- 39 (USSSR)
ABSTRACTs With respect to th*eceasity to develop a i3yatem which considers
the development of TV for an important period, the author gives
a system here which meets wita the following basic demandet it
is suitable for a frequency range of from 46,5 + 100 and from
175 # 230 U cycles (12 channels for TV and ultra-short-wave trans-
missions); it secures the reception of any channel's In the given
ranges without changes. The sy3tem has the same distribution
network as the old aystem,3, which can be adjusted without cable-
exchange or - laying. The costs are higher than those of old
systems. The system consists of the antenna itself, of one or
more mains with branch-off devices and customer lines. An ampli-
fier is built into the system in the case of weak signals or of
a great number of mains working from one antenna. A special di-
Card 1/2 rectional antenna, which was built accordina to the system of the
The System of Collective TV-Reception with 12 Channels 108-10-4/11
travel ing-wave antenna with direct connection of the oscilla-
tors with the feedline, was worked out. The new antenna differs
from existing traveling-wave antennae by the oscillator bent to
the front and becoming gradually shorter as well as by the in-
crease of the wave resistance of the common main toward the end
of the antenna. The author shows that in some casesit is useful
to use a simpler weak directional antenna. If brancli-offs are
connected care must be taken that no important reflexions occur*
This can be reached by the introduction of additional effective
resistances to the branch-offs. Two different types of am9li_
fier devices as well as for the calculation of the system are
given. There are 14 figures.
SUBMITTED: July 3t 1957
ASSOCIATIONI Nauchno-tekhnicheakoye obahchestvo radiotekhniki i elektroavyazi
im, A.S. Popova
AVAILABLE: Library of Congress
Card 2/2
L4 C) L). ANTENIM
"In-Phase (Broadside) Broadband Shortwave Antennas", by G.Z.
Alzenberg,-V.D. Kuzasteov and L.K. Olifin, glaktroavyas', No 1,
auarY 1958, Pp 15-21.
Description of two variants of broadside antennas, one with a tuning
reflector and one with an aperiodic reflector. Theoretical and experi-
mental directivity -patterns are given for the first of these antennas
in the horizontal and vertical planes, Curves for the gain and directi-
vity vs. wavelength are also given. The mtching of the antenna vM
the supply feeder over the operating range is experimentally, inveat1ga-
ted.
Card 1/1
-b V_
AUTHOM Ayzenberg, G.Z., Kuzvetaov, V.D. and 01:'.f-In, L.K.
TITIE: A Co-phasal, Shortwave Wideband Antenna vilth a-n Aperiodic
Reflector ( Unfavaay4 diapazonnaya korotkovolnovaya antenna
s aperiod-icheskim reflektorom)
PERIODICAL: Elektrosvyaz', 19585(41%r 3, pp 21 -- 2S (USSR)
ABSTRACT: A continuation of a previous article (Ref.1). The
results of a theoretical and ex liental inventiga-15-ion into
periL
the design of an antenna system with an aperiodic reflector are
prQduQed. The constructional features of antenxiae SGD4/4RA
and SGD4/4FlT are describecl. The layout of anfenna SGX/4RA
is shown in Fig~al. The refloct-lor is in the form of a grid
consisting of horizontal conductiriil.~ rods. The width b of
the reflector in given by:
b = A + 0.18X 0
where X 0 is the mid-frequency and A is the width of the
antenna itself. The height hp of1he reflector (Fig.2) is
somewhat greater than the distance between the. upper and lower
resonators of the antenna. Curves shoi%rinc,, (',-he change of
antenna gain with change of reflector height for waves X = 0.9;k
CardlT4 0
106-:58-3-3/19
A co-phasal, Shortwave Wideband Antennr, with an Aper'Lodic ReflectOr
and l-8XO ar.e given in Fia.2- The diameter of the rods
and their spacing are calculated So that the coefficient 6
for the passage of energy throuCh the reflector will not
exceed a particular value. The coefficient 6 is calculated
from the formula:
P
6 LnR (2)
PO )2
0
o in 2nt-~-
where P UP is the energy passinG th-rouGh thle metallic net,
PO is the energy of the incident wave, do is the qDacing
between the rods) r0 is the radius of the rod's and ?, I's
the wavelength. Experimental investitation using a dec-*LL-etrJ-.,.-
model showed that for 6 =-0.4, the ba^-kward radiation did not
Card2/4 exceed O-3Bmax over the whule v;oricinc rari6e vljch was
106-58-3-3/19
A Co-Phasal, Sl.-,ortmlave Wideband Ant-enria with an Aperiodic ReflCetor
considered satisfactory. This gave ro = 0.00021X 0 and
do = 0.0-/3%0 The distance between the antenna and the
reflector (d2 0.23k0) is a compromise between good,
direotional properties and satisfactory r-atchinEr to the
feeders. The horizontal polar di.aGrars can be ca ulated by:
- Cxd Sill (P + 4)
Cos CCL sin (1!2 2 Y t(xd..:)
F((p) Cos y s * n~ --LA) sin c0 (3
(3)
ana the vertical diagram by:
sin III adi Si ad
1-112- n 2
F(6) = n,,(1 - cosal ) sin rcxdi uin '4~cos'6)3in(aH,Psin /t)
Card3/4
(4),
106-58-3-3/19
A Co-p*hasal, She--'.-,.,;ave Wideband Antew-ia with an Ap(.,riodic Reflector
These equations were developed in the previous article.
Kxperimental and calculated reaults are given in Figs. 3 and
4. The gain of the antenna was taken as in the previous
article. There are 18 figures and 2 Soviet references, and
1 table.
6UBMITTED: September 7, 19571
AVAILABLE: Lib--axy of Congress
Card 4/4 1. Broadband antennas-Characteristics 2. Antenna renectors-Application
3. Mathematics-Theory
-r- 41 Sao
it 10 19 IL JL fr--.-4
A L Alloomm
C. OL
" A~ @My
L
K I-
K ftno-
$-$"
0. r. 1-
C-
An
la
L L
AIL
C- ..Amsm "owl W
It
I*"
L C ll~
oww I
wro &*miss* tw ONAWA" Ill"Ift dt UG IkImAlM ladoolegiftl a.
PA'&* -A 23-*Iftl 0400mleftlem As. A. a. J*w Man),
9-32
k ............. .......
BMW
82178
S/106/60/000/07/OZ/005
AUTHORSs Kuznetsov, V,D,, Paramonov, V.K.
TITLE: A Highly Effective VHF Antenna With a Low Fringe Radiation Level
and a Controllable Radiation Pattern
PERIODICALs Elektrosvyazl, 1960, No. 7, pp. 18 - 28
TEXT: The authors describe methods and results of cA~culati=3 and the
experiment al investigation of a wideband reflector ant6nnlitdesIgned for'use
on.VHF commibioation lln,~Xlth atmospheric scattering~ The antenna (Fig. 1)
Is part of a horizontal parabolic cylinder, The exciter consista of a syStem
of Nadenko dipole vi,brators and one reflector, The vibrators are suspended on
the metallized surfi-,s) of the earth in such a way that the reflector, together
with the earth's surface forms the 900 V-reflootor of the exciter. The latter
is arranged in such a way tho its line of phase centers coincides with the
focal line of the'parabolic cylinder. The an,-enna produoes a directivity Pat-
tern in the vertical plane with small aide lobes. The location of the exciter
in the immediate vicinity of the earth's surface simplifies the antenna feed
system and reduces the influence of the exciter on the antenna directivity pat-
tern, Using a linear exciter in the form of a horizontal vibrator row pro-
Card 1/3
8n78 S/106/60/000/07/02/005
A Highly Effective VHF Antenna With a Low Fringe Radiation Level and a Controllt-
ble Radiation Pattern
vides a control of the antenna directivity pattern in the horizontal plane by
phasing the vibrator currents. This also permits the multiple use of one an-
tenna for reception. The necessity of using vurried supports is one of the dis-
advantages of the antenna. Preliminary calculations show that this does not
cause extraordinary difficulties in the antenna design, since only two or three
supports are required. The basic antenna dimensions are seleoted according to
the required antenna gain, the width of the directivity patterns in horizontal
and vertical planes and the angle of main lobe Inclination in the vertical plans.
For communication lines operating In the 5 - 10 m range over distances of 1,000
1,500 Ian, the following antenna dimensions are r"oommended: height of the
aperture, H - 40 m; focal distance, f - 20 m; width of the aperture, a -:.-.045
50 m (eight vibrators in the exciter); height of the exciter reflector, hr -
= 4 m. In practice, the basic antenna reflector and the exciter reflector are
a single-line wire lattice. The distance between the wires is determined by
the required re-radiation attenuation magnitude. To obtain an easential re-
duction of the side lobe level of the directivity pattern. in the horizontal
plane, the vibrators of the exciter must be fed with an amplitude drop from the
Card 2,13 t#/
82178
8/106/60/L)OO/07/02/005
A Highly Effective VHF Antenna With a Low Fringe Radiation Level and a Controlla-
ble Radiation Pattern
center to the borders of the exciter, Vibrators having an equal distance from
the exciter center are connected in parallel (Fig. 2) to provide a control of
the directivity pattern. The mathematical analysis of this antenna is given.
Equations are given for the directivity patterns In the vertical and horizontal
planes, the directive gain and the antenna gain. The experimental investigations
were performed on a centimeter model (1 s 200), on a decimeter model (1 1 17)
and on a model of the exoit6r in actual dimensions. All measurements confirmed
the correctness of the basic theoretical assumptions and calculations. The
experimental results are shown in graphs (Fig. 8 - 11). There are 11 diagrams
and 1 Soviet reference.
24074
S/106/61/000/002/003/006
A055/A133
AUTHORS: Kuznetsov, V. D. and Paramonov, V. K.,
TITLE: Device for controlling the radiation pattern of a multiple wide-
band antenna with a low side-lobe level
PERIODICAL: Blektrosvyazl, no. 2, 1961, 23 - 30
TEXT: One of the main components of a steerable antenna - or rather of
its*feeding system - is the phasing device. The practical setup of this device
depends on the particular features of the feeding system. The authors describe
in the present article a phasing device designed for an eight-unit receiving an-
tenna, whose feeding system uses unbalanced coaxial cables with wave impedance W
'('- 75 ohms. This device Is intended for operation on wavelengths /1 = 5 - 10
It allows to control the antenna radiation pattern within the angle-limits
240 (the distane~a between the centers of the outermost antenna-units being
This phasing dEvice (see Fig- 3) consists of four unbalanced artificial lines 1
with 75-ohm wave impedance. These lines are formed by ldentioallr-shaped ele-
mentary cells C,, the radius-ratio of the four concentrie semi-circumferences be-
ing 1, 3, 5 and 7 respectively. Every cell is connected to a knob-shaped contact
Card 1/4
24074
3/106/61/000/002/003/006
Device for controlling the radiation pattern ... A055/AI33
K, the brushes of the slider Sl sliding on these contacts. The slider is also an
unbalanced line. To ensure matching in the points of the moving contacts, the
wave impedance of this line varies by steps (from brush to brush), its value beirg
respectively 37.5, 18-75, 12.5 and 9.4 ohms. The matching of the receivers is
ensured by a special transformer Tr. Atenuators A are inserted, for simpley
operation, between the ends of the artificial lines and the output plugs p. (40me
theoretical and practical data are given by the author with respect to the para-
meters of the elementary cells, of the artificial lines and of tran4former Tr).
Besides the problem of matching the antenna-units to 'Ahe 75-ohm:wave impedance
cable, there arises the problem of balancing, an unbalanced coaxial cable being
connected to the symmetrical antenna-system. The solution of these problems in-
volves difficulties in the case of ultrashort waves. A device perTdtting to ovez-
come these difficulties is described in the second part of the present article.
This matching and balancing device (see Fig. 8) is based upon.the use of the shctt-
wave transformer described by G. Z. Aisenberg (Ref. 1: Antenny d.1ya magistral'-.-
nykh,radiosvyazey("Antennae for national radio-communications), Svyazlizdat.,
1948 . Figure 6a shows the connecting diagram of this device, the following
method being used for a symmetrical introduction of the emf into the diagram: the
inductance Tn of the correbtion circuit is divided into two equal parts 141 each
of these '-.wo parts having the form of a separate coil made with a thin 75-ohm co-
Card 2/4
I - ~ _77-
4074
S/1016/6 1 /0Yj/Vj2/00 3/0,06
Device for controlling the radiation pattern ... P-055/A133
a;,,itA cab1c. The coils are connected to the diag-ram by the end& of tho bralditi~~,
as shov= in Fig. Be, whereas Fig. 8b shows the way used to couple the t'.M coils,
the emf being introduced throuGh the inner conductor oil the cable. Ulis device
proves entirely satisfactory from the point of view of both matchinS and balanc-
in,,,,, within a mide band of short and ultrashort %..-aves. The author then dercribcs
tile equipment used for testing the phasinG device. Radiation patternz in the
horizontal plane were plotted for various sbttings of the slider. The tests pro%r--
ed that this phasing device allows.to control the radiation pattern vithin a zuf~-
f~.cient range of angles. Three radiation patterns are reproduced in the article,
for the central setting of the slider and for the 240-setting (extreme setting).
A slight increase in the level of the side-lobes is explained by certain inac-
curacies in the length of the artificial lineo of the phasing device and of tho
connectinG cables. In the case of transmission antennae, the control of radia-
tion patterns is more complicated. One of the possible controlling devices is
briefly dezeribed, its deficiencies pointed out, and a method permitting to eli-
minate thc3c deficiencies Is suggested. There arc 15 figures and 4 Soviet-bloc
references. [Abstracter's note: In Figure 3 1 (line) stands for the Russian 4
(liniya), C (cell) for the Russian A(Yacheyka) and Tr (transformer) for the
Russian 7pTtransformator); but E". (standin.- for ~mobT-and Sl (standinz for sli6cr)
Card 3A
24074
311061611000100210031006
Device for controlling the radiation pattern ... A055/A133
are not translations of the-Russian symbols, but an adaption of them, the Russian
B standing indeed for "vykho&' (leadout) and nT for "polzun-tokos"emnik" (brash
slider)].
SUINAMIM: February 25, 1960.
Figure 3:
2) C
3) K
4) Sl
'rr
Figure 8:
1) b
2) c
C;
a) Pue. 8 GO
card 4A
29552
3/106/61/000/011/004/006
4,11~r,00 Olsq) A055/A127
AUTHORS-. Kuznetsov, V. D. and Paramonov., V.K.
TITLE: Broadband stub In superhigh-frequency systems.
PERIODICAL:" Elektroavyaz, no. 11, 1961A 30 - 34
. At
TEXT: In antenna feeding systems, It is often necessary to ground a d-c
or a 1-f circuit without deteriorating the h-f circuit parameters. The use of an
ordinary quarter-wave stub is possible only in systems operating on one single
frequency. In superhigh-frequency work, "metallic insulators" are used. The
present article is a short analysis of this broadband insulator or stub in the
general case, i.e. not considering the relations between the wave impedances ZO
(of the line) and ZT and ZK. The stub being symmetrical, only one half of it
(Figure 2) will be examined here. The input admittance of the transforming part
of the stub (from the side of point A) at frequency f corresponding to the wave-
length Ais given by-
Y ZT + izo M
inp T - 2P
Card 1/ 5 zTz0 + izi
29552
s/io6/6i/ooo/0il/oo4/oo6
Broadband stub in superhigh-frequenoy systems A055/A127
or Z 2 2 PZT( 2 2
Y + ib A + P ) + i Z0- Y (2)
inp T " ginp T inp T + 4 2 2 2 4 2
20-4 ZT z6z~ + Z~P
where tgCl; (X Analogously, the input admittance. of the correcting
short-circuited part of the stub In the same point A ist
Y ib 1
inp K inp K 2 ZKO
(3)
The abeolute value of the total reactive admittance of the stub in point A is thus
I
(Z2 2)
b_ b + b ZT 0 - Z;r- 1 (4)
inp T inp K Z2 2 4 2 2 Z~3
oz~ + ZT P
Th,~ normalized value of this admittance can be written as followst
C,5,rd 2/5
29552
s/1d6/61/ooo/o11/oo4/oo6
Broadband stub in superhigh-frequenoy systems A055A127
b~ - ~z ; A 2 m - n (5)
9y. 2 /3 (1+t?)
where z 0 ZT) /ZT ZO z0
m Q - -k ZO ~ ZK' ZK (6)
ZT ZO/
The matching (traveling wave coefficient) at frequency f is:
K V(bl' f + 4 - Ibr.1 (7)
(bZ')2 + 4 + Jbil
Let the working frequency range of the stub be the frequency range within which
bj does not exceed the magnitude % corresponding to the inflections of function
br' (P) in points//31,2 (Pigure 3). The coordinates of the inflection points are:
2 tV,2m + 6 m (8)
Card 2/5
29552
S/106/61/000/011/004/006
Broadband stub in superhigh-frequency systems A055/A127
The coordinates of the two other points whera the function Is equal to are:
1 2
P3,4 " 2 1,2 (10)
P 1,2
The working frequency range of the stub is:
q A arotgP4 18oO - arctg P3 (11)
max/4min ~ 'Z~ctgP3~ " -arc
tgP 3
The calculation of the stub is effected as follows: m and n are determined by
F,q. (6), Substitution of the thus found magnitudes in Eq. (81 gives /*3 For-
mula (10) is then use,! to calculate ~ 3 4. Substitution of /1 4 in Bq,..I;)
gives P~ . Formula (7) permits then to tind the minimum matchi~k in the working
frequency range; the width of this range Is determined by means of (11). A graph
permitting to calculate K and q is given. The length 1 nust be chosen equal to
~Mean/4* Amean being determined by the arithmetical mean frequency of the working
range. The phase characteristic of the stub can be computed with the aid of for-
mula:
Card 4/5
29552 3/106/61/000/012/004/006
Broadband stub in superhigh-frequency systems A055/AI27
ZK
2~
2
2 Z,T
Z
T
tg - ZK (12)
Z
K
F
2 -+
ZT
An experimental check proved that the results obtained with the above not of for-
mulae are sufficiently correct. There are 9 figures and I Soviet-bloc reference.
SLIE-UTTED: January 20, 1961.
Figure 2: Figure 3:
"04. z
Card 5/5
25520- S/108/61/016/008/002/006
D280/D304
AUTHORS: Kuznetsov, V.D., and Paramonov, V.K., Members of
-S75`dYe-Vy-T_Se_e _rs so c i at ion)
TITLE: Installation for studying directional properties of
antennae
PERIODICAL: Radiotekhnika, v. 16, no. 8, 1961, 25-32
TF,XT: The authors describe a simple arrangement for studying direction-
al properties of antennae. The results are displayed on a C.R.T. in a
polar system of coordinates. The display shows either the directional
distribution of the field strength or power and permits evaluation of
the directive gain of the antennae by means of integration of the polar
graphs. The installation has been devel6ped for the study of direct-
ional properties of broadcast, TV and communication antennae, whose
directional properties have to be taken within a narrow frequency band
and are usually given in a linear scale. The bloc diagram of the
arrangement is shown in Fig. 1. In taking polar diagrams it works as
follows; A hef. sine or pulae amplitude modulated signal, received by
a revolving antenna A is applied through a h.f. filter F to a detector
Card 1/5
25520
S/108/61/016/008/002/006
Installation forooo D280/004
D10 The I.fe detected signal (1000c/s) is applied to the amplifier Xt
whose load consists of the moving coil of the phase splitter PS syn-
chronized with the motore The two signals from the fixed coils of PS
are detected by a second detector D2 and through a phase switch are
applied to the inputs of the DC channels of the horizontal and vertical
deflection systems of CRO type 3 0-7, (EO-7) with a long persistence
screen. The diagram of the phasing switch and of the second detector
is also given. The amplifier used has the output voltage proportionall
within a certain range, to the square root of the input voltage which
for small amplitudes of the signal given a directional diagram of the
field intensity produced by the aerial. Its ect diagram is shown#
The anode cct of the last tube has a transformer matching the amplifier
output to the inductance of the moving coil of the phase splitter, The
primary of this transformer is tuned to 10OOc/s. The required amplitude
characteristic is obtained as follows: the second tube of the amplifier
has its operating point adjusted very near the cut-off. The voltage
Card 2/5
S/108/61/016/008/002/006
Installation foroea 25520 D280/D304
obtained by the rectification of the output is supplied to the grid
through a high resistance, (switch 5wl open)* With the increasing
grid current the grid-cathode resistance decreases in proportion to the
output voltage of the amplifier* Hence the amplification of the
first stag*, whose load consists of the grid-cathode resistance# varies
inversely proportiona'lly to the output voltage Uout , so that Uout w
CV -U,. (1) where C - constant. For better smoothing and stability
the output signal is rectified in a bridge circuit and applied to the
grid of the second tube through an RC filter. The food back loop has
a small time constant and a pass band of several tens of C/o. In this
manner, with the speed of antenna revolution corresponding to 15-20
rpmt the beam width of 5-70 of the directional pattern lobes is faith-
fully reproduced. The frequency response of the amplifier is given in
Fig. 5. the 3db points corresponding to approx. 6OOc/s. For 55db change
in input voltage and 27.5 db chang6 in output voltage the amplifier
characteristic coincides with the thenrotical response, The gain
Card 3/5
25520 S/108/61/016/008/002/006
Installation for*** D280/D304
of the amplifier is 90 db. at 1000c/s for maximum input voltaget The
noise level ~t the output is 35 db below the maximum output signal,
The dynamic range of observations is thus of the order of 30 db. If
the study of the side lobes is required with the corresponding radiation
below 30 db with respect to that of the main lobe, the generator power
should be increased accordingly. Amplifier type 28-OH (IM) was used.
The phase splitter was a goniometer, consisting of two perpendicular
to each other coils, built as two rectangular frames, with a third
coil ofthe same shape inside the two. A more judicious choice of the
phase splitter would be a two-phase variable transformer of type
48',"~ 5rj(4VTM5P) which has a longer gain and a better sinusoidal dis-
tribution of voltage in.the stator. The above installation permits
also the determination of the directive gain of antennae by simple in-
tegration of the directional diagrams. The integrating cet consists of
the integrating network proper (C=2000 JJ F and resistors 950,65 and
3.9 kOhm)t a 3014A ammeter and switches SW 2 and SW.O The procedure of
meaauring directive gain is given and It Is stated that'the same reason-
ing and procedure can be applied to rectangular aperture antennae.
Card 4/5
25520 S/ics/61/016/008/002/006
-Installation for.ea D28O/D304
In conclusion, theauthors state that the described installation is
.easy, huick and accurate in actual separation. There are 8 fAgures and
2 Soviet-bloc references.
ASSOCIATION: Nauchno-tokhnichoskoye obshchestvo radiotekhniki i
elektrosvyazi im. A.S. Popova (Scientific and Technical
Society of Radio Engineering And Electrical Communications
Im. A.S. Popov),'_Abstractor's note: Namo of association
taken from firsi' page. of'j)urnal',..
SUBMITTM: March 28, 1961
Card 5/5
44
A
ct-t" nit, a- 44r
D.+p4qb
42
ix zoo
fix Ivx
4-,-Cf rM 5
STSOV V D v kand..tekhn. nauk; SOSHN OVAp 1. V.,, inzh.
Redesigning of the antenna systems of television stations for
transmission of Wo programs. Vast. eviazi 23 no.413-6 Ap 163.
(MIRA 16:4)
Television-Antennas)
levision-Tranoxitters and transuiskon)
M
KUZN=3OV,, V.D.1 SOSHNIKOVAl N.V.
Antenna oyetemo of televioion centero* Elaktrooviazl IS no.4ii-10
Ap 164,, (MIRA 17W
ACCESSION NR: AP4037396 S/0106/641900100510009/0013
AUTHOR: Kuznetsov'I V. D. 40 Paramonov, V. K.
TITLE: Selection of antenna height for ionosphoric-scatter lines
-13
SOURCE: Elektrosvyaz'. no. S. 1964, 9
TOPIC TAGS: radio communicition, ionospheric scatter, ionospheric scatter
propagation, ionospheric scatter antenna, ionospheric scatter communication
ABSTRACT: Reasons for selecting the antenna mean height H and antenna-
aperture height HA for ionospheric -scatter radio -communication lines are
considered. Curves and formulas are given for computing the mean antenna
height for any ratio HA JH. It is found that: (1) With a specified X/A (where
a is the angle of max vertical-plane radiation) in an antenna with the cosine
law-of aperture vertical excitation, the mean antenna height decreases and the
mast utilization factor grows with 14A /H up to HA /H a 1; hence, the antenna gain
Card 112
ACCESSION NR: AP4037396
grows more quickly than the total antenna height; in an antenna with a uniform
law of aperture excitation. the gain increases only tip to HA /H u 0.85 and the
mast utilization factor only up to HA /H. n 0. 80; (2) Using antennas with
HA /H s 0. 25-0. 35, as is often the case on 1. 800 -2. 000-krn lines, roe ults in a
poor utilization of the mast height; increasing HA /H to 0. 7 -0. 8 would add 3 -4 db
to the antenna gain at a cost of adding only 20-3019 to the mast height. OrigA, art.
has: 6 figures and 10 formulas.
ASSOCIATION: none
SUBMITTED: 30Dec63 DATE ACQ: 09Jun64 ENCL: 00
SUB CODE: 5- NO REF SOV: 000 OTHER: 000
Cord 2/2
@90M!
ACCESSION NR: AP4014672 S/OlO8i64/019/001/0018/0030
If AUTHOR: Kuzuetsov, V. D. (Active member),' Paramonov, V. X. (Active
member)
TITLE: Stepped directional couplers
..j SOURCE: Radiotekhaika, v. 19, no. 1. 1964, 18-30
TOPIC TAGS: directional coupler, multistep directional coupler, directional
coupler theory, 2 step directional coupler, 3 step diractioInal coupler, power
dividing directional cou?ler
ABSTRACT: A theoretical analysis and the design techniques of multistep
directional couplers are presented. The coupler is regarded as a stopped line in
which the coefficient of reflection from the input end determines the coupling
faqtor. rormulas for calculating a directional coupler with any relation between
the impedances of the principal and the branched circuits- are giyen. An n-step I
.1/2
.7Cord.1- -
'ACCESSION NR: AP4014672
directloW coupler having an c..,ginium characteristic is analyzed by means of a
Zn-power Tchebycheff's polynomial; the extreme case of this characteristic -the.-,
so-called maximum-flat characteristic. is also considered. Two- and three-step!
couplers with the above characteristics are used to illustrate the method of
calculation and procedures involved. It in recommended that directional couplers
be used in cases requiring power division in a specified ratio (e.g., a rmjLlti-
element antenna with a controlled radiation pattern). Orig. art. has: 7 figures
and 67 formulas.
ASSOCIATION, Nauchno-takhatchookoyc obohchestyo radiotekhaiki i
clektrosvyazi (Scientific and Technical Society of Radio Engineering and..
Electrocommunication)
SUBMITTED: 25Jan63 DATE ACQ: 07Feb64 ENCL: 00
SUBrCODE: co, r.E NO REF SOY: 003 OTHER: 003
.-Card ..,2/2
KUNKSOV,-~-D,; PARMTOV.. V&K*
Problem concerning the choice of antema hei-ht for an iono-
spheric scatter conmunication line* glaktrosvLast 18 no.5t
9-13 MY 164 (MIRA 17%8)
KliziL-;Tsovp V.D.; 1"U"W"ONCIV, V.K.
Band bcdiaicing adoptorz. Uadiotokhnikca 19 no.9:20-23 3 164.
o aRA 17: 10)
1. Deystvitollnyye chleny ITauchno-tekIL-dchoskogo obshchostva
radiotokJu,iiki i clektroswfazi im. A.S. Popova.
iLIILX,: uysTem ror cne rmlyr-ipurpose utinzation or unr receiving an-tenna-750,
f -ijpler, phaain~
A svgtom for "he mt-11t I purncise lit!! zif r, n' r-ner-tinn antenn1w
Lil'. -4-patI.L. 1, "e, passible: *.0
-5im%ItaReGusI7-::w.i;a.- ttvwAndlependent--rd I
h patterni, ear, be dli~eacted Lco-atirmaudly 00 1 h- 6 1
tal Plane. I nit
ti r Z45TI
'ni~ -ml~ and a DhaBiniz
11 V1, I
g
T, '21 9-66 - mr(l)ZI WR
A 09840 SOURCE CODE: UR/0413/66/m/oo4/oo33/0033
INVENT6R, Kuznetsov, V._D.; Paramonov, V. ff.
ORG: none
TITLE: Cophased array with active reflector. Class 21, No. 178866
SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 4, 1966, 33
TOPIC TAGS: antenna array, antenna configuration, dipole antenna
ABSTRACT: e Author Certificate introduces a corbasEd antenn ar!Jay-' ith active'
Th w an
reflector (eee.Fig. 1) which consists of two identical dipole arrays spaced A/4 apart.
Fig. l.-Cophased array
1 - Radiating dipole; 2 reflecting dipole;
3 - directional coupler.
r
Card uDc! 621.396.677.852
To 77-5"T--,.--
L 9140c)-66
ACC NR, Ap6oo984o
To enhance directivity and assure proper matching characteristics over avide
frequency range, the two dipoles are fed from a directional coupler. Orig. art. has;
1 figure. (BD]
BUB CODE: 09/ SUBM DATE: 23Dec63/ ATD PRESS:
KUZNETSOV, V.D.
Acad Sci USSR. Inst. of hicrobiology.
KUZNLTSOV, V.D.: "The microflora of com extract." Acad Sci USSR. Inst. of
Ylicrobiology. Moscow., 1956.
(Dissertation for the Degree of Candidate in Bilogical Sciences)
SO: Kniz~~a Letopis'. No. 20, 1956
I.
-USSR / Microbiology. Technical Uicrobiology. F-3
Abs Xour: Ref Zhur-Biol,, No 16, 1958~ 72014.
Author :.K- ~Znetsovs V. Do
Inst : Hut,_g44". a -a
Title ; Microflora of Corn Extract.
Orig Pub: Mikrobiologiya, 1957, 26, No 3, 367-373,
bstraot: In the first stage of the production of corn u;:-
tract (oxtraotion of corn grains by wator con-
taining 0.2% of sulfurous anhydride at 480), an
increase occurs in the number of lactic aoid
bacteria to 0,574 billion calls por 1 ml, which
comprises 99.9% of the total number of microor-
ganisms, Sporogonous bacteria, actinomyces,
yeasts and molds are also encountered in small
amounts. it description of strains bolonging to
p. Laotobaoillus which in the 6pinion of the
Card 1/3
18
'USSR / Microbiology. Technical Microbiology. F-3
Abs Jour: Rof Zhur-Biole, No 16, 1958, 72014.
Abstract: author differ from all the spocies described of
lactic 6oid bacteria is given. In the second
stage of the process (settling of the extract in-
to wooden receptacles), an intensive multipli-
cation of the yeast fungi occurs, which Is ox-
plained by the low temperature of 30-380. In
addition, the dominating species (80%) is Tor-
ulopsis molisohiana; T. colliculosa, Myootorula
variabilis are a encountered. During stearn-
ing of the corn extract tho yeasts, and partially
tho lactic acid bacteria, dio. Complete death
of the latter occurs toward the end of the 2-3rd
month of storage of the prepared extract. Al cor-
relation was established between the chanzes in
the composition of the microflora and detoriora-
tion of the extract quality. Extracts of poor-
C,1rd 2/3
-U;3SR / Microbiology. Technical MiorobiologY. F-3
Abs Jour: Ref Zhur-Biol., No 16, 1958, 72014.
Ahjtraot: ost quality are usually obtainod at the begin-
ning of the recycling. In addition, in the re-
cycled water, short bacilli-liko forms of lactic
acid bacteria predominate which form small trans-
parent colonius of irregular fom. When good
quality extract is obtained, lactic qcid bactor-
ia which possess long cells and form compara-
tively large opaque colonies of fibrous construc-
tion predominate. The latter form more lactio
acid than short forms under productive condi-
tions. -- N. 0. Blinov.
Card 3/3
19
Country *USSR F
C at crz c ry :141croblology. Antibloals and 6-Imbionla. Antibiotics.
Ab,3. Jour Ref Zhur~Biol. 0 No ~39 1956, Ho 103716
Author
,j V. D.
jLUzn&tV9v
InstItut. :__
Titla '-The ZPfact of Idaroorgaydwa ou the QMmIlty of Corn
Wract
Orig Pub. ti'~Ikrobiologiya, 1957, p6, 1,,o 4, 481-484
Abstract 'A study was made of the influence of lactic-acid
bacteria, putrefactive bacteria and yvasta,loolated
from the wach water and ooncentrrtcd corn extract,
on the quality of corn extract prepared in difforent wayi
Nutritive modia for the groutli of globisporin, strapto-
wyaln and pentbillin producers were preparei Prom the
extracts infected by the microorganisms. After the
infection of all the assaplas with a mixtu2e of nicroben
the development of only the yoasts and laotic-scid
bacteria vao observed. The yeasto Increased the globi-
sporin yield by 1.2 to 1.3 tines. FarmentRtiot of the
attract by the lactic-acid baoterieL increased the yield
Card: 1/2
A
Country F
CatcSory
;,b-,,. Jour :Rat' zhur-Biol-, Yo 23, 1958, "~1'0103716
Author
Institut.
Titlo
or i~,, Pub.
Abstract :of aursonvoin and penicillin prodiicars but not of
(Cont.) atreptomycin producers. Fermentation by a mixture
of lactic-acid bacteria and yeasts Increased the yibld
of streptowycin and penicillin. After the e%traot
was infected by putrefactive bacteria alone its quality
wan markedly iynpdvari shed. --V. G. Vakaravich.
r
.,ard: 2/2
F-27
USSR/Microbioloa - Microbes PathoC;enic for Mn and Anirmls.
Brucellae
Abs JOUr : Ref Zhur Dial., No 22, 1958, 99429
Auth3r : Kuzneteov) V.D.
Inst : Mogeow Techno[Acul Xnstitute of the Meat and Dairy
Industry.
Title Utilization of the Reaction of AUGlutination in the
Dia6mosis of Drucellosis of Sheep and Goats.
F
Orig Pub Sb. sttd. rabot. Moak. tekhnol. in-t myuen. i molochn.
prom-sti, 1958o vYP. 5, 90-91
Abstract No abstract.
Card 1/1
- 83 -
UMTSOV. V.D.
Antagonistic properties of Actinomyces isolated from soils of
the Transbatkal region. Antibiotiki 3 no-5:9-13 S-0 158o
(MMA 12: 11)
1. Vessoyusnyy nanchno-ionledovatellikiy institut antibiotikov.
(SOIL, microbiology,
Actinomyces, strains antag. to other microorganisms
(RUB))
(40TINOMBSO
strains antag. to other microorganism in soil (Rue))
KUZNETSOV, V.D., kand.biol.nauk
Actinomyces, promoting and inhibiting the growth of certain
bacteria under monocultures, Agrobiologiia no.1:1')4-136
Ja-y 159. (MIRA 12:4)
1. Veesoyusrqy naiicbno-iseledovatellskiy institut antibiotikov,
g. Moskva. (Actinoqrces) (Soil micro-organisms)
XUZNETSOV, V.D.
Actinomyces In the shore soils of lake Tamkun. Mikrobiologiia
28 no.2:257-26:3 Mr-Ap (MIRA 12:5)
1. Vessoy=W nauchno-issledovatel'skly institut antibiotikov,
Moskva.
(ACTIFONTCESO
in soil (Ras))
(BOIL, microbiol*
Actinomyces (Rua))
-KUZMSOV, T.D.
A now species of lactic mid bacteria. Hikrobiologlia 28 noOt
368-373 W-J11 159- (HMA 13:3)
1. Tsesoyusuyy nauchno-iseledovatellskiy Institut antibiotikov,
Moskva,
(LACTOBACILLUS
seae, now species (Rae)
,4a,"-m -2-
KUZNETSUVv V.D.; MOINAp N.)~
Producer of a candicidin-type antibiotic belonging to the
aotinamyooe group. Trudy Inste miorobiol._ no.W88m-192 160
(MIRA !Ll)
1. VoesoyusM nauchno-issledovatel'Bkiy institut anti~iotikovj
Mookva. q.
(ANTINOMYCETALES) OWIMM)
y jk ye.j.; VIKHROVA9 II.M.; KRyUCHKOVA9 T.I., KMOPINAP
cD~ ; SOROKII 9
UjokWM, A.8-
longing to the fluorescOnt grcrap, of I
pr6diloor of ac,tinqKcin be~ no.81193-201 1600
aotinomyostoo. .2~~ InOt- miorobiol (MM 1411)
l;'Vseqo7"nv MAO~~Soleavmtel'skky jnsti~ut antibiotikovo
Mookv&. (AOTjjjamET-Am) (AGTINWYCI~)
KU2MTSOV. V.D.
Use of aotinophage in the identification and directed study of
some producers of polyene antibiotics, Antibiotiki 5 no.3:25--
29 Vq-Je 160, (MIRA 3.411)
1. Vaeooyuznyy nauahho-issledovatellskiy institut antibiotikov.
(ACTINOKEES) (STREPTCHYCES)
(BACTERIOPHAGE) (AMIBIOTICS)
'P.. -4
-- KUZM4OVs
-j.Dj
Conference on the 0i"Sification of aotinomyosto producers of
T
antibiotics. - Antibl tiki 3 no.6t234-.U6 N-D 160. (MIM 24t3)
'9INGKICES)
fA
r -
IXUZIIETSOVo V.D.
.Actinmycetes from,varioua a-ils in the environs of Kiev and
their antagonistic properties. Mikrobiol. zhur. 22 no. 1147-53
l6o. (MIRA 13:10)
1. Voonoyuznyy nauchno-iosledovatellskiy inatitut antibiotikov,
Moskva.
(KIM REGION-ACTINOM(149)
Actinomycetes in some soi-Is of' the Pamirs and their antagonistic
properties. Kikrobiologila 29 no- 43563-570 JI-Ag 160,
(MIRA 13slO)
1. Vsesoyuznyy nauchno-issledovatellgkiy institut antibiotikov
(VNIIA)p Moskva iPAMIRS-ACTIN014YCES)
WNSTSOV, V.D.
Use of actinophages in controlled search for producers of
haptasnic antibiotics. Dokl. AN SSSR 135 no.4:981-983 160.
(MIRA 13:11)
1. Vaesoyuzuyy naucbno-iseledovatellskiV inatitut antibiottkov.
Predotavleno akademikom V.N.Shaposhnikovym.
(Bacteriopbage) (Antibiotics)
,KUZMTSOVs V.D.
Actinomyces in Red soils of Zelenyi Myo and thoir anta onistic
properties. Antibiotiki 6 no.lOt883-887 0 161; W 14112)
1. Vassoyuznyy nauchno-ios edovatellakiy institut mtibiotikov.
(ACTINOMYCES) IBATUH M-GION-30IM-11ICROBIOLOGY)
jqZNETSOV, V.D.
Systematic position of some actinonWcetes producing heptaene anti-
biotics. Antibiotiki 7 no.8:675-679 Ag 162. (KMA 15i9)
1. Vdesoyuznyy nauchno-issledovatel,skiy institut antibiotikov.
(ANTIBIOTICS) (ANTINOMYCES)
KUZNETSOV, V.D.
A new species of the genus Chainia. Mikrobiologlia 31 noo3:534-
539 W-Je 162. (MIRA 15:12)
1. Veasoyuznyy nauchno-insladovatellakly institut antibiotikovo
(ARMEML4,-ACTINOMYCETALES)
F,UZf,TTSOV,Vji.;
Some problemL; of utorlriv
kincl Lurea undlel-
laboralory conditions. MikrobioloiIiia 31 no.4:,'31-'i')',' JI-Ag 16z).
18:3)
1. Vieioyu5,nyy naiietint)-I.ssl,edo,.,ntell,3k[y ingtitut antibiotikov.
KUMIETSOV, V.D.
Distribution of aot-InoVeetes in the soils of Trgascarpathia.
Mikrobiologiia 32 no.3&498-506 Kv-4,063 (MIRA 1713)
1. Voeso-yumyy nauchno-isalodovateltakly inatitat antiblotlkovj,
Mosk%ra.
KUZNETSOV V.D
Distribution of aotinamycetes 171 some soile of Amenise
Mikrobiologiia 32 no.,5t8Z7-834 B-0163 (HIM 17
lo Vbeooyuznyy nauobno-iseledovatellskly inatitut antibim-
tikov,, Mookya.
06TROIjXIIOVj,A.A.j NUMET.-XV, V.D.
Rapid method of selecting active variants of penicillin pro-
ducer with the aid of rH2 indicators. Antibiotiki 8 noolt
33-35 Ja'63- (MIRA 16:6).,,
l,Vseso7uznyFy nauchno-isoledovateltakiy institut antibiotikov.
(PENICILLIV) (OXIDATION-MCTION RFACTIO11)
M.-IiiETSOV ~ V. D.
Isolation of an actinophage from I'-quid culture nedia for flarimycin
(viomycin) producing organisms. Antibiotiki a rc.10:887-892 0 163.
(MIRA 17; 10)
1. Vac.-wyuznyy nauchno-isoledovatellskiy 1n:A1-Lut antibiotik(rr.
KNIJETSOV, V.D.; ISAGINIt, N.M.
llronem!ttlon bnd varJabillLy or Actinomycen strept,owcini atrain
IS.-I producing streptoiVcin. Antlblotlkl 9 no.ll-.970-975 11 164.
(PIRA 1813)
1. VscBoyuznyy nauahno-isaledovatellskly inntitut nntlbtotikovt
Moskva.
KALAKUTSKIYO
A now species of the genus Actinoplanes Couch; Actinoplanes
armeniacus n. op., and some characteristics of its spore
formation. Mikrobiologlia 33 no.4;613-621 Jl-Ag 164 jMIR.A 18t3)
1. Inotitut mikrobiologii AN SSSR i Vsesoyuznyy nauchno-
issledovatelloki- inatitut antiblotikov Ministerstva
zdravookhraneniy~ SSSR (VNNIIA).
,.IK.U-71a,',TJOV,,, V.b-D,; FIVI-NAROVA, E*V.
Methods of plating the freeze-driad spores of sorm actinomycetes,
producers of antibiotics. 141krobiologiia 34 no.ltl76-179 Ja-F t65.
(141RA 18:7)
I., Vaesoyuznyy naticlmo-issledovatellskiy Institut antiblotikov.
KUZNFTSUV VAI..
Phagolysis of aotinortVaetes as one of the causes of disorders
In the biosynthetio process of some antibiotics. Antibiotiki
10 no.8t689-693 Ag 165. (MIRA 18:9)
1. Vaesoyuznyy nauchno-iseledovatellskiy institu. antibiotikov..
Moskva*
--g"API N
Clauffl.cation nf Actinomycao galbti3o f~ntlblo.alkl 10 noo7s
595-598 ji 65. (PIRA 180)
1. Vgesoyuzrqy nauchno-InalKlovatollairly invAtut antibliotikov,
mor va.
i
ACC NRz AP6,11-71-23 SOMICE r'WEt r.TV0297/65/010/008/OM9/069-3
AUTHORt
ORGi All-Union Scientifio Research Institute Of Antibiotics L.Mosgow Vnego~
yuzW_
nauchno-is sled dVutel '*skiy institut antibiotikov)
TITIEt Phagol$.sia of aotinooWootes -one of the reasons for breakdown in tho
biosynthenis of certain awt lqtios~9
SOURCF: Antibiotikij, vo 10p no. 80 1965p 689-693
TOPIC TAGSt antibiotics blocynthesiop fermentation
ABSTRACT,-. A study was carried out on samples of -low-active culture fluids
produ`c'ers of florirVein, novobiocins and cycloserine) in order to detect
act~.p~hapes~Pin them. In all cases, when actinophigea were isolated from
culture fluids, the method-of indicator cultures was used, for which a Be.
of actinoqrcetes species close to each producer was used. The floriwcin
producer -- Act. floridae - 194 - is a variant, vhich is stable toward
certain actinophagoo obtained in the laboratory of the All-Union Scientific
Research In3titute of Antibiotica, The low-activo cultural fluid of the
floriWain producer contained a small number of nWcelia and was devoid of
foreign micreflora. Subsequetit, experiments showed that the nunber of phage
~cles in cult.ure fluid of 1he florimycin producor filtered t4r~ough a
LC.,d 1/~ UDC.1 615.779,931-012.002.2Y+tL,76.852.1:.097.35:576.858.9
FACC -NRAP60171?3
Seitz filter was *roducorl to a~~ro)dmately 1/16 compared 1to the number of
j6a,exrticlea contained in 1i lid freed of nqcelia by centrif~jging-.
,, j,z0 o1 Iyals of the indicaTor cUture, -an agar block containing the
actinophage was cut out, and then placed in a test tube containing meat-
peptone broth, iihoro the florin7cin producer strain No 194 was used as a
culture-host. The results of the study showed that in the biosyntheais of
florimycin, novobiocia, and cycloserine under laboratox7 coulitions and on
the experimental installation of the Institute, one of the reasons for un-
successful fermentations it; phagolysic of culture producers. These cultures
are in all probability lysogenin, ard from time to time upontaneoualyj due
to as yet undisc.overed reasons., they can urrIergo pbagolysis under the effect
of their own phago. However, it must be noted that the presence of temperate
phage, at low-titors Jn defective culture fluid is not always a reason for
halting fermentation. According to the author's observations, vigorous
golysia of. pro'ducers a.ccurs more generally at- close of -winter umd spring.,
pha
Origo art* haot 7 figureo and 3. ta"bie, DA-V
SUB CME: 06 SUBK DATZ s MaY64 CRM Ws 006
2/2
iN
Lj
Mutability of framycin (noomycin)-producing Actinomyces
fradiae No.129 during their storage under laboratory con-
ditionso Antibiotiki 10 noo9:788-793 S 165. (MMA 18:9)
Is Vnesorjznyy rmuchna-lanledovatol'skiy institut, antiblotikovp
Moskvas
PORUDNIKOV, P.F.; KUZUETSOV, V.D.
Fabric shrinkage after soaking. Tekat. prom. 25 no.12:68-69
D 165. (MIRA 190)
1. Direktor Arzhenakoy sukonnoy fabriki (for Po-odnikov).
2. Glavnyy inzh. Arzbenskoy sukonnoy iabriki (for Kuznetsov).