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Sommaire du brevet 1043877 

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  • lorsque le brevet est émis (délivrance).
(12) Brevet: (11) CA 1043877
(21) Numéro de la demande: 1043877
(54) Titre français: DIVISEUR DE PUISSANCE A N-VOIES AVEC RESISTANCES D'ISOLEMENT ELOLGNEES
(54) Titre anglais: N-WAY POWER DIVIDER WITH REMOTE ISOLATING RESISTORS
Statut: Durée expirée - au-delà du délai suivant l'octroi
Données bibliographiques
Abrégés

Abrégé anglais


N-WAY POWER DIVIDER WITH
REMOTE ISOLATING RESISTORS
ABSTRACT OF THE INVENTION
Disclosed is an isolated N-way power divider for
operation at high frequencies. The power divider has iso-
lating resistive terminations in the form of transmission
line terminations connected to a set of transmission lines.
The termination and transmission line arrangement eliminates
the need for a set of "star connected" resistors charac-
teristic of prior art isolated power dividers.
- 1 -

Revendications

Note : Les revendications sont présentées dans la langue officielle dans laquelle elles ont été soumises.


WHAT IS CLAIMED IS:
1. An isolated N-way power divider, for operation
over a selected frequency band, comprising:
an input port;
a set of N output ports, each comprising first and
second output terminals;
a first set of N transmission lines, each for coup-
ling wave energy signals from said input port to a corres-
ponding one of said output ports, each of said transmission
lines having an electrical length of an odd integral multiple
of one-quarter wavelength at a selected frequency within said
frequency band;
a second set of N transmission lines each com-
prising a first conductor connected to one of said first
output terminals and a second conductor connected to a
reference terminal, said reference terminal being common to
all of said second conductors in said second set;
means for terminating each of the transmission
lines of said second set of transmission lines to present
a substantially resistive impedance between said first out-
put terminal and said reference terminal;
and means for presenting an open-circuit imped-
ance between each of said second output terminals and said
reference terminal.
2. An isolated N-way power divider as specified
in claim 1 wherein each of said transmission lines of said
first set of N transmission lines has an electrical length
of on-quarter wavelength at a selected frequency within
said frequency band.
- 14 -

3. An isolated N-way power divider as specified
in claim 1 wherein said means for terminating each of the
transmission lines of said second set of transmission lines
comprises means for terminating each of said transmission
lines in its characteristic impedance.
4. An isolated N-way power divider as specified
in claim 1 wherein said means for presenting an open cir-
cuit impedance comprises a short-circuited transmission
line having an electrical length of a quarter-wavelength
at a selected frequency within said frequency band.
5. An isolated N-way power divider as specified
in claim 1 wherein said second set of transmission lines
comprises a set of N coaxial cables, and said first con-
ductor comprises the inner conductor of each of said cables
and said second conductor comprises the outer conductor of
each of said cables.
6. An isolated N-way power divider as specified
in claim 1 wherein said second set of transmission lines
comprises a set of microstrip transmission lines, each com-
prising a first conductor on a dielectric substrate and a
second conductor comprising a ground plane on the opposite
side of said substrate, said second conductor being common
to all of the transmission lines in said second set.
7. An isolated N-way power divider, for operation
over a selected frequency band, comprising:
an input port;
a set of N output ports, each comprising first
and second output terminals;
- 15 -

a first set of N transmission lines, each for coupling
wave energy signals from said input port to a corresponding
one of said output ports, each of said transmission lines
having an electrical length of an odd integral multiple of
one-quarter wavelength at a selected frequency within said
frequency band,
a second set of N transmission lines, each compris-
ing a first conductor and a second conductor connected to a
reference terminal, said reference terminal being common to
all of said second conductors in said second set,
a third set of N transmission lines, each having
a length which is an integral multiple of a half-wavelength
at a selected frequency within said frequency bands and each
comprising a first conductor connected between one of said
first output terminals and the first conductor of a corre-
sponding one of said second set of transmission lines, and
a second conductor connected to a corresponding one of said
second output terminals;
means for terminating each of the transmission lines
of said second set of transmission lines to present a sub-
stantially resistive impedance between said first conductor
of said third set of transmission lines and said reference
terminal;
and means for presenting an open-circuit impedance
between each of said second conductors in said third set of
transmission lines and said reference terminal.
8. An isolated N-way power divider as specified
in claim 7 wherein each of said transmission lines of said
- 16 -

first set of N transmission lines has an electrical length
of one-quarter wavelength at a selected frequency within
said frequency band.
9. An isolated N-way power divider as specified
in claim 7 wherein said means for terminating each of the
transmission lines of said second set of transmission lines
comprises means for terminating each of said transmission
lines in its characteristic impedance.
10. An isolated N-way power divider as specified
in claim 7 wherein said means for presenting an open cir-
cuit impedance comprises a short circuited transmission
line having an electrical length of a quarter-wavelength
at a selected frequency within said frequency band.
11. An isolated N-way power divider as specified
in claim 7 wherein said second set of transmission lines
comprises a set of microstrip transmission lines, each com-
prising a first conductor on a dielectric substrate and a
second conductor comprising a ground plane on the opposite
side of said substrate, said second conductor being common
to all of the transmission lines in said second set.
12. An isolated N-way power divider as specified
in claim 7 wherein said third set of transmission lines
comprises a set of microstrip transmission lines, each
comprising a first conductor on a dielectric substrate and
a second conductor comprising a ground plane on the oppo-
side side of said substrate, said second conductor being
common to all of the transmission lines in said third set.
- 17 -

Description

Note : Les descriptions sont présentées dans la langue officielle dans laquelle elles ont été soumises.


r- ~
~f~3~3flL~f7~7
; Docket R3927 BACK~RQU~D OF THE. INVENTION
This inventioIl relates to isolated power dividers
and more particularl~ to such power dividers designed for ~ -
use with electrical s~gnals at high frequencies3 for exam-
ple above 100 MHz. -: -
In various high ~requency systems it is often
desirable to d~ride a high frequency sign~l on one trans
.` mission line in~o a number of substantially identi~al sig-
.~ nalsi on a like number of transmission lines. This type o~
s~gr~l division may take place as part of an antenna system . .
where ~t is desirable to supply a portion of the original
signal to a munber of individual antenna units, in a power
a~ ifar system where it is desired to driLve a r~umber of ~ .
solid sltate famplifiers wlth the same signal, or in a cable -
tria~smission system wherein the original sifffgnal is to be
fsupplied ~o a selected number o~ cables.
,: ~ Among the rarif~us devices ~or accomplishing pf~er
1~; di~rision there are~ "hybrid junctions", directional couplers
i~ and pawer dividers,, both isolated and refsctive. Directîonal
i~20 ~ couplers are commonly u~ed at microwave ~requencies ~or
supplying ~aw?er from an input port to a palr o~ pUt
ports, in a selec~ed power ra~io, called the coupli~g
¦~ ~ ratio. A coupler has ~n additional port, which ls usually
1 te~minated~ Whlch is called the "isolated" por~ sin~e sig-
?,'~25 ~ n~ls supplied to th0 input port are not coupled to the iso- :
1~:: lated port. ~11 of the ports of a directional coupler are
impedance match2d to their correspond~n~ ~ransmis~ion
: line~. me output ports of ~ directlo~al coupler are also
mutually isola~ed, that iS7 a ?31gIIal ~uppl~ed to one ~utput .:~
?~
-- 2 -- . . .
? .

~3~
port will not appear at the other output port, but will
appear at both the input port and the isolated port. The
directional coupler has two inherent disadvantages ~or use
i~ many power divider applications. First, there is pro- -
vided only a two-way power divlsion~ hence many couplers
may be required to achie~e a many-way power split. Second,
the signals in the output ports of the directlonal coupler -~
have a quadrature phase relation, and phase correction is
required where it is desired to ha~e equal-phase output
signals.
Hybrid ~unctions are similar to directional coup ~;
lers in that the two output ports are impedance matched and ~;
mutually isolated. Hybrid junctions are dif~erent by rea-
~son o~ the ~act that ~he output signals are identical in
both amplitude and phase. Hybrid ~unctions are there~ore
limlted to binary power divlsion and like the directional ~ ;
coupler h~ve only two output ports.
.
Power dividers have a single input port and two
or more output ports. There are two general types of power
~ dividers, commonly known a5 3'reactive power divldcrs" and
"lsolated power di~iders." In it~ usual ~orm a reactive
p~war diuider has a ~ingle input port and a set of N output
ports. Each o~ the output ports i5 co~nected to ~he input
ports b~ a quarter-wavelength transmission llne whlch is
cho~en ~o hav~ ~n lmpedance to match the input port to the
collect~e output impedance o~ the N output ports~ m e
reactive power divider does not have matchad or isolated
:~ .
output por~s. When a signal i~ supplied to only one o~ the
output ports, a portion o~ the ~i~nal wlll be re~lected and
~30 a p~rtlon o~ the signal will appear at each of the other
: ,
: , . ': . .
- 3 ~
'

output port~ as well as at the input port. me device will
be matched ~or signals applied to the output ports only on
the condition that signale o~ equal amplltude and phase be
supplied simultaneously to all o~ the output ports. -
me isolated power di~ider overcomes the deflciencies - -
of the reactive power divider by providing resistive
terminations ~or unequal signals applied to the output
ports. These terminations perform the same ~unction as the
isolated port on a directional coupler or h~brid ~unct~on
and enable the output ports ~o be impedance matched and iso- -
lated. In prior art power div~ders the re~istive termina-
tions usually take the ~orm o~ resietors "star connected"
to the output po~ts as is described below. These resistors
are usually not cap~ble of dissipatlng high average power
without overheating and becau e o~ the star connection ~-
.,; ..
', arrangement these resistors ca~not be conveniently mounted
on a conductive "heat sink" for use with si~nale of high ~ -
1, . . .
average p~wer. Further the star connected resietors in a
hlgh-~requency power divider mu~t often be located in cloee
prox~m~ty to each other~, there~y creating additional heating
problem~ in a hi~h power system.
. .
It is there~ore an ob~ect o~ the presen~ in~ention to . .
provlde an isolated N~way power d~vider.
It is a further ob~ect o~ the present invent:Lon to - --
~; provide such a pow~r divider ~Iherein the isolating resistive ~ ,:
terminatlons o~ the power dlvider m~y be remotely located
from each other. :~ ~
~, :.,.
- 4 - ~

~f~3~
It is a still further object o~ the present lnvention .:
to provide such a power di~ider wherein the resistive ter-
minations may be high power transmission-line terminations. - ~:
In accordance with the present inven~ion there i~ ~:
provided an isolated N-way po~er di~ider for operation over
a selec~ed frequenc~ band. The p~wer divider includes an ~ ~ .
input port and a set of N-output ports, each comprising
flrst and second output terminals. There is further ~nclu~-
ed a ~irst set o~ N transmission lines each for coupling
wa~e energy signals from the input port ~o a corresponding
one o~ the output ports, each of the transmission lines
ha~ng an electrical length o~ an odd integral multiple o~
one-quarter wavelength at a selected frequen y within the ~:
frequenc~ band. There is also i~cluded a second set o~ N
transmission lines~ each comprislng ~ ~irst conductor con-
. .
: nected to one o~ the flrst output terminals and a second
conductor connected to a re~erence terminal~ the re~erence
texml~al being common ~o all o~ the second conductor~ ln
the second ~et. There is *urther provided means for ter~
minatlng each o~ the transmission llne~ o~ the second set
., .
o~ transmi~ion lines to presen~ a sub~tantially resisti~e -
impedance between ~ai~ ~ir~t output terminal ~nd æaid re~er~
ence termlnal and mean~ ~or presentlng an open circuit im-
pedance between each o~ the second output terml~als and the
re~erence terminal.
For a better u~derstanding o~ the present ~nvention~
together wlth o~har and ~urther ob~ectB theraof, re~erence
: is had to the ~ollowing d~criptlon, taken in connection .-:
~ wikh the accomp~nying drawlngs, and its ~cope will be
;~ 30 pointed out in the appended clalms. ~ .:
.:
':
. - 5 -

1 BRIEF DESCRIPTION OF TIIE F;IGURES
Figure 1 is a prior art isolated power divider.
Figure 2 is a prior art isolated power divider
wherein the "star connected" resistors are remotely located
from the output ports.
Figure 3 is a plan view of an isolated power divider
constructed in accordance with the present invention.
Figure 3A is a cross-sectional view taken along section
A-A of the isolated power divider of Figure 3.
Figure 4A is a plan view of another isolated power
divider constructed in accordance with the present invention.
Figure 4B is a side view of the isolated power
divider of Figure 4A.
DESCRIPTION OF FIGURES 1 AND 2 (PRIOR ART) -
~,
Figure 1 shows an isolated power divider constructed
in accordance with prior art. By way of example, the Figure
1 power divider utilizes microstrip transmission line, but it
' ":".: '
is well recognized in the art that this type of power divider -
may be constructed using other types of transmission lines
including tri-plate strip line or coa~ial cable. The Figure 1
power di~ider is constructed by depositing a print circuit open '`~
one surface of a dielectric substrate 10. The other surface of ;~
the dielectric substrate is covered with conductive material
to form a ground plane. The Figure 1 power divider includes
an input port 11 comprising first and second input terminals.
The first input terminal is a circular spot of metal de-
posited on the substrate which may be seen in Figure 1
and the second input terminal is the conductive ground
plane on the other side of substrate 10 which is not shown
''' .- "
~ - 6 -
' ' '. ': '
: ., , . : :~ . . - -

~ 3~7~
in Figure 1. Co~nection to this type of terminal is uæually
~acilitated by use of a coaxial connector mounted on the
side of substrate 10 having the conductiYe ground plan~.
The outer conductor of the coaxial connector is connected
to the ground plane while the inner conductor is connected
to the input terminal 11 shown ln Figure 1.
The power divider of Figure 1 also has output
ports 13a, 13b and 13c which are of the same type as input
~! port 11 and have ~iræt and second output terminals similar
'' 10 to the termlnals of input port 11. Ou~put ports 13a~ 13b
a~d 13c are connected to input port 11 by transml~slon lineæ ~ ~-
l?a, 12b and 12c. Transmiss~on llnes l? comprise a ~irst
~' cond~ctor, which is a ætrlp o~ metal deposited on substrate10~ as shown ln Flgure 1, and a æecond conductor which com~
prlses the conductive ground plane on the other slde of ~ ~
~ sub~trate 10. Transmission Iines l?a, 12b and 12c are ~:
3 æelected to be a quarter-wa~elength in length at a æelected~requency within the operating band o~ the Figure 1 power .~.
d~v~der ~ me lmpedance of these transmission line~ 12 i5
selected so that the transmlsslon line~ 1? ~orm a quar~er~
~avele~gth trans~ormer bet~æen the collective impedance of
output ports 13a, 13b and 13e and the ~ped~nce o~ i~put
j~ port 11.
Those skilled ln the art wlll recognize that ..
}~ 25 transmis~ion llnes 12 will alæo act as a trans~ormer 1~
seleeted ~o have a length which is an odd integral multiple
~:- of a quarter-wavelength~ but trans~ormers of more than one
quarter~warelength tend to operate over relat~vely narr~wer
~requenc~ bands~
i ~ .... .
~: ~ 7
;

1 In addition to operating as an impedance trans- -
former, the odd-multiple of ~uarter-wavelength length of
transmission lines 12 results in an odd-multiple of a half-
wavelength electrical length for signals coupled between
output ports 13 by input port 11. Thus, signals coupled
by this path are out-of-phase with signals directly coupled
between output ports 13 by star connected resistors 14,
described below. The result is isolation between the ;
output ports since these signals tend to cancel. -
In order to provide isolation between output
ports 13a, 13b and 13c there is provided in the Figure 1 ; ;~
power divider "star connected" resistors 14a, 14b and 14c
Each of these resistors 14 is connected to a corresponding
one of the output ports and they are all connected to refer-
ence terminal 15. For proper operation of the power divider
~ , ; ,:;-, . ..
reference terminal 15 must be an open circuit with
respect to the ground plane on the other side of substrate -
10. Since the other side of substrate 10 i5 also one of
the output terminals of output ports 13a, 13b and 13c there ;
is provided an open circuit impedance between reference
terminal 15 and the second terminals of output ports 13a, - ;
13b and 13c. This open circuit condition is necessary for
the proper operation of the "star connected" resistors 14 `
and to provide isolation between the output ports 13 as
25 described above. -
Figure 2 i5 another prior art isolated power divid-
er. In addition to the elements of Figure 1 power divider
: ,, . .:
the Figure 2 power divider has transmission lines 16a, 16b - ;
and 16c connected between "star connected" resistors 14 and -
30 output ports 13. These transmission lines are chosen to ~
. `"' ` .
- 8 - ;

be approxlmately one-half wavelength in length so that the
lmpedance o~ the "star co~nected" resistors 14 at terminals
30a, 30b and 30c is presented to corresponding output ports
13. The electrical e~fect is therefore the same as in the
Figure 1 power divider, but the resistors 14 are located
remote from output ports 13.
The Figure 1 and 2 power dividers have been shown
in embodiments of 3-way power dividers for purposes o~
illustration and the same type o~ design technique may be ~;
used to construct dividers having any number of output
ports.
One problem associated with constructing the
Figure 1 and 2 pcwer di~iders at high ~requen~ies is asso-
ciated with the capabilit~ of resistors 14 to handle mod- -
er&te or high power signals. SincP the resistors 14 are
"star connected", the~ cannot be con~eniently cooled when
dissipatlng hlgh p~wer signals.
~ ' ''.", ~:
Figure 3 shows an isolated N~wa~ powe~ di~ider con-
structed in accordance with the pre~ent invention wherein
the i~olatlng resistive termlnations take the ~orm o~ trans-
misslon line kermi~ations. me Figure 3 power dlvider has
an l~put port 11, tran~mission lines 12 and output ports 13
which are sub~tantially identical to the corresponding ele-
ments in the prior art power divider o~ Flgure 1. In the
F~gure 3 power d~vider the "star connected" resistors 14 ~;-
have been repl~ced by a set of three ~ransmisslon lines 18a,
18b and 18c. me transmission lines 18 are in the ~orm o~
_ 9 _

coaxial cables ha~ing a first conductor 19~ which is the
j inner conductor and a second conductor which is the outer
conductor. me inner conductor 19 of each coaxial cable 18 :~
is connected to a corresponding one of the ~irst output ~ .
terminals o~ the output ports 13 of the power divider. The - ;~
outer conductors o~ the transmission lineæ 18 are each
electrically connected to re~erence terminal 157, which in
the Figure 3 embodiment is the end of the inner conductor . ~:~
20 o~ a transmission line 220 Each of the coaxial cables
18 is ~erminated in its characterlstic impedance. A~ a
cons~quence~ ea h of these cables i~ the electrical equiva-
lent o~ a xeslstor connected between a corresponding first
output terminal 13 and re~erence terminal 15~
Those skilled in the art will recognize that.~:
terminating tr~nsmission lines 18 ln their characterlstic
, .
imped~ncel. re~ult ln the desired ef~ect o~ presenting a ~; .
resist~ve impedance between the flrst output terminals o~
, . :.
output ports 13 and re~erence terminal 151. Thi6 result ~
may, o~ course3 be achie~ed by other than a ch~racteristic ..
impedanca load, utilizing appropriate ~rans~ormer or matching
tech~ique~ on transmission lines 18.
Tran~miææion line 22 is a coaxlal line, selected
to:have a length "L", which i~ a quarter~ravelength at a :-:
,
selected frequency withln the ~requenc~ band and is ter~ ;
: 25 minated by a short clrcuit 2~. The result o~ thi~ ~hort ~-
circulted quarter~wavelength tran~mi~sion line 22 i~ to -
present an open circuited im~edance between reference ter~
mlnal 151 and the ~econd termlnal~ o~ output ports 13 o~ ~.
. ..
~ the power divider. In the Figure 3 embodiment the ~econd
,' ....:
10 - , .
., .

~ r
terminals o~ output ports 13 comprise the conductive ground
plane 17 on substrate 10, which is electricall~ connected
to the outer conductor 26 o~ coaxial output connector 27.
me open c~rcuit impedance condition results in re~erence
terminal 15' being the electrlcal equ~valent o~ reference
terminal 15 in the prior art power divider of Figure 1. - .
me combination o~ short circuited transmission line 22 and ~- -
termlnated tr~nsmlsslo~ lines 18 is there~ore an electrlcal
equivalent o~ star-connected resistors 14 of the prior art
power divider of Figure 1.
The transmission lines 18 o~ the Figure 3 embodi-
ment are terminated in transmission llne termlnations 28a,
28b and 28c, which may be con~eniently locate~ remote ~rom
each other and from the output ports 13 o~ the p~wer divider.
It ma~ also be seen that since these terminabions are of
the con~entional transmission line type, they may be selected
to accommodate a high average power signal and may be cooled
b~ an~ conventional method uaed in such te~mi~ations, ~or
example, radiation cooling, convection cooling, liquld
~ cooling or conduction cooling to a heat sink. B~ having
this ~orm o~ isolating resistlve termination~ the embodimen~ ;
o~ Figure 3 has remo~ed the requirement ~or ~'star-connected~
reslstors which was a limiting ~actor to the p~er capablllty
o~ the prior art isolated power dividers. .~ .
Shown in Flgure 4 is ~nother embodiment o~ the ~ :
present invention, which corresponds to the prior ~rt power
divider o~ Figure 2. Included in the Figure 4 power divlder
are tran~mi~sion lines 16a, 16b and 16c between ou~put port~
13 and the second ~et o~ tra~smi~slon lines 18~ mis set
11 -
., .

~3~3~'7 ~:
o~ transmission lines 16 i~ a hal~-wavelength in length at
a selected *requency within the operating fre~uency band ~ ~ .
and, as in the ~igure 2 prior art power divider, cause the . .
impedance presented at terminals 30a9 30b and 30c to be
presented to the corresponding output ports 13. ~he Figure ~'
4 embod~ment is also d~stinguished ~rom the Figure 3 embodi- -
ment in that the second set of transmission lines 18 is ;~
in the fo~m of microstr~p, rather than coaxial lineO In
this ~orm~ one conductor Or each o~ the second set of trans~ ~ :
mission lines 18 is connected to one terminal o~ output ports ;~
13 b~ hal~wavelength transmission line 16. me other con~
ductor of transmission lines 18 comprises a conductive
,! .: , . .. .
, ground plane 32, which is connected to re~erence terminal
i 15", which in the Figure 4 embodiment comprises o~e edge . :
o~ ground plane 32. In the Figure 4 embod~me~t an open
~ circuit impedance is prese~ted be~ween reference terminal
;! 15" and the ground plane o~ the terminals 30 by a shor~
circui~ed parallel pla~e ~ransmisslon line ~ormed be~ween
conductive ~round plane 32 and conducti~e ground plane 17,
I 20 having a length t'L", which ls a quarter~wavelength at a
'~! selected frequency within the frequene~r band. mis parallel
plate ~ransmlssio~ llne is termin~ted b~ short clrcuit 34.
In the Figure 4 embodiment the impedance presen~ed ..
S ~o transmi~sion line~ 16 at termln~l 30 is also presented ~ ~;
,~ 25 to output ports 13. ~he result is the electrical equlvalent
o~ the ~tar-connected resistors ~cross output ports 13 of
,~ the Figure 1 prlor art power divider. Ihe use o~ half~ ;
~avelength transmassion llnes 16~ as shown in Figure 4, to
separate tran~m~s~ion lines 18 and reference terminal 15"
~, ~ ., ,;
'"
;, .. .

from o~tput ports 13, is most useful in power dividers having - -
many output ports, where ph~sical co-location is di~icult.
While the embodiments o~ ~he invention which have
been described all consist o~ three~way power dividers, it
will be eviden~ to those skilled in the art that such power
dividers ma~ be constructed h~ing any number N of output
terminals ~o ~orm an N-way divider3 ~here N is any interger
greater than 1. It will also be evident that although the :
presen~ ln~e~tion is re~erred to as a "power divider," such
devlces are inherentl~ reciprocal and may also be used as
a power combiner and de~ices inte~ded ~or such application
are withln the ~cope o~ this invention.
' , '
., . - ,
. .
~ ', .,' ;.` ' '
.~ ~'~ -,."
' :~-
- 13 - :.
- .
. -, . . . - - .

Dessin représentatif

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États administratifs

2024-08-01 : Dans le cadre de la transition vers les Brevets de nouvelle génération (BNG), la base de données sur les brevets canadiens (BDBC) contient désormais un Historique d'événement plus détaillé, qui reproduit le Journal des événements de notre nouvelle solution interne.

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Historique d'événement

Description Date
Inactive : Périmé (brevet sous l'ancienne loi) date de péremption possible la plus tardive 1995-12-05
Accordé par délivrance 1978-12-05

Historique d'abandonnement

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Titulaires au dossier

Les titulaires actuels et antérieures au dossier sont affichés en ordre alphabétique.

Titulaires actuels au dossier
HAZELTINE CORPORATION
Titulaires antérieures au dossier
RICHARD LAROSA
Les propriétaires antérieurs qui ne figurent pas dans la liste des « Propriétaires au dossier » apparaîtront dans d'autres documents au dossier.
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Description du
Document 
Date
(aaaa-mm-jj) 
Nombre de pages   Taille de l'image (Ko) 
Revendications 1994-05-27 4 212
Page couverture 1994-05-27 1 27
Abrégé 1994-05-27 1 26
Dessins 1994-05-27 3 99
Description 1994-05-27 12 608