CN209119327U - A kind of antenna oscillator of base station - Google Patents
A kind of antenna oscillator of base station Download PDFInfo
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- CN209119327U CN209119327U CN201821817521.6U CN201821817521U CN209119327U CN 209119327 U CN209119327 U CN 209119327U CN 201821817521 U CN201821817521 U CN 201821817521U CN 209119327 U CN209119327 U CN 209119327U
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- folded dipole
- radiation fin
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- support column
- opening
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Abstract
The utility model provides a kind of antenna oscillator of base station, including vibrator body and balun pedestal, further includes feeder line and folded dipole;The folded dipole includes radiation fin, and the radiation fin is equipped with through-hole, and the radiation fin middle position is equipped with opening, and the opening is connected to the through-hole, and the opening is connect by feeder line with balun pedestal;The vibrator body is equipped with folded dipole described in multiple groups;Multiple groups folded dipole is evenly distributedly arranged in the vibrator body around the balun pedestal;The opening of the radiation fin of each group of folded dipole is connect by feeder line with balun pedestal.The utility model improves the radiance of antenna by above structure, ensure that radiating element has the advantages that high gain, and beam angle can more restrain, while improving the performances such as front and back ratio, cross polarization ratio.Meanwhile the features such as the utility model reduces the cost of radiating element by above structure, and realization is easy to assembly, high reliablity.
Description
Technical field
The utility model relates to antenna technical field more particularly to a kind of antenna oscillators of base station.
Background technique
Radiating element (oscillator) is to determine that antenna for base station mainly radiates one of the module of index, such as gain, half-power beam
Width, front and back ratio, cross polarization ratio etc..Base station antenna radiation unit generallys use opposed dipole at present, and especially low frequency is more
Using bowl-shape radiating element form.The advantages that such form has high gain, small in size, and machine-shaping is convenient, light-weight, but need
Same polarization is fed in the same direction, therefore a radiating element needs four feed cables, in production technology, Control for Dependability, cost
There is certain disadvantage.
Secondly as dipole is open circuit radiation form, radiation current can not be completely real under the inhibition of balun pedestal
Existing balanced feeding, therefore there is the defects of front and back ratio, cross polarization are than deviation.
Utility model content
The utility model is intended to provide a kind of antenna oscillator of base station, improves the radiance of antenna.
In order to solve the above-mentioned technical problem, the technical solution adopted in the utility model are as follows:
The utility model provides a kind of antenna oscillator of base station, including vibrator body and balun pedestal, further includes feed
Route and folded dipole;
The folded dipole includes radiation fin, and the radiation fin is equipped with through-hole, and the radiation fin middle position is equipped with opening,
The opening is connected to the through-hole, and the opening is connect by feeder line with balun pedestal;The vibrator body is equipped with
Folded dipole described in multiple groups;The vibrator body is evenly distributedly arranged in around the balun pedestal in multiple groups folded dipole
On;The opening of the radiation fin of each group of folded dipole is connect by feeder line with balun pedestal.
Further, the balun pedestal includes pedestal and multiple balun support columns, the number of the balun support column with
The number of the folded dipole is identical;Multiple balun support columns are circumferentially positioned on the pedestal, and are uniformly distributed;The balun
Support column is connected by the opening of feeder line and the radiation fin of folded dipole.
Further, the antenna oscillator of a kind of base station further includes setting on the base orthogonal two
A feed tab, described two feed tabs are between multiple balun support columns.
Further, multiple folded dipoles include the first folded dipole, the second folded dipole, third folded dipole and the 4th
Folded dipole;
Multiple balun support columns include the first balun support column, the second balun support column, third balun support column and the 4th
Balun support column;
The side of the opening of first folded dipole is connected by the side at the top of feeder line and the first balun support column
It connects;The other side of the opening of first folded dipole is connected by the side at the top of feeder line and the 4th balun support column
It connects;
The other side that the side of the opening of second folded dipole passes through the top of feeder line and the first balun support column
Connection;The side that the other side of the opening of second folded dipole passes through the top of feeder line and the second balun support column
Connection;
The other side that the side of the opening of third folded dipole passes through the top of feeder line and the second balun support column
Connection;The side that the other side of the opening of the third folded dipole passes through the top of feeder line and third balun support column
Connection;
The other side that the side of the opening of 4th folded dipole passes through the top of feeder line and third balun support column
Connection;The other side of the opening of 4th folded dipole is another by feeder line and the top of the 4th balun support column
Side connection.
Further, small one and large one two rectangles are formed between two groups of feeder lines connecting with same folded dipole,
Rectangle close to balun support column is less than the rectangle far from balun support column.
Further, it is arranged in parallel between first folded dipole and third folded dipole;Second folded dipole
And the 4th be arranged in parallel between folded dipole;It is vertically arranged between first folded dipole and the second folded dipole.
Further, the width of the through-hole is predetermined width fixed value.
Further, the radiation fin includes the first sub- radiation fin, the second sub- radiation fin and the sub- radiation fin of third;
The second sub- radiation fin and the angle that the side of the first sub- radiation fin connect, and formed between them be 110 °-
140°;
The sub- radiation fin of third is connect with the other side of the first sub- radiation fin, and the angle formed between them is
110°-140°;The second sub- radiation fin and the sub- radiation fin of third are symmetrical arranged about the first sub- radiation fin.
Further, the 4th son radiation normal thereto is respectively equipped on the described second sub- radiation fin and the sub- radiation fin of third
Piece.
Further, polygonal hole is equipped between the corresponding feeder line of two neighboring folded dipole in vibrator body.
The utility model has the following beneficial effects:
The utility model provides a kind of antenna oscillator of base station, and folded dipole includes radiation fin, and the radiation fin is set
Have a through-hole, the radiation fin middle position is equipped with the opening connecting by feeder line with balun pedestal, it is described be open with it is described
Through-hole connection, the vibrator body are equipped with multiple groups around the folded dipole of balun pedestal, the radiation fin of each group of folded dipole
Opening connect with balun pedestal by feeder line.The present invention improves the radiance of antenna by above structure, folding
The characteristic for closing oscillator is to be closed short-circuit radiation mechanism, and electric current is more balanced than symmetrical dipole, and this balance quality brings radiativity
Energy such as front and back ratio, cross polarization ratio and the constringent raising of wave beam, and being applied in combination by multiple groups folded dipole, have and increase
The high advantage of benefit.Meanwhile the present invention reduces the cost of radiating element by above structure, realizes easy to assembly, reliability height etc.
Feature.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of the antenna oscillator of base station of the utility model embodiment;
Fig. 2 is a kind of structural schematic diagram of the antenna oscillator of base station of the utility model embodiment one;
Label declaration:
1, vibrator body;2, balun pedestal;3, feeder line;4, through-hole;5, it is open;6, rectangle;7, polygonal hole;8,
First folded dipole;9, the second folded dipole;10, third folded dipole;11, the 4th folded dipole;12, the first balun supports
Column;13, the second balun support column;14, third balun support column;15, the 4th balun support column;16, the first sub- radiation fin;17,
Second sub- radiation fin;18, the sub- radiation fin of third;19, the 4th sub- radiation fin.
Specific embodiment
For technology contents, the objects and the effects that the utility model is described in detail, below in conjunction with embodiment and match
Attached drawing is closed to be explained.
The design of the utility model most critical is: folded dipole includes radiation fin, and the radiation fin is equipped with through-hole, described
Radiation fin middle position is equipped with the opening connecting by feeder line with balun pedestal, and the vibrator body is surround equipped with multiple groups
The opening of the folded dipole of balun pedestal, the radiation fin of each group of folded dipole is connect by feeder line with balun pedestal.
Fig. 1 is please referred to, the utility model provides a kind of antenna oscillator of base station, including vibrator body and balun pedestal,
It further include feeder line and folded dipole;
The folded dipole includes radiation fin, and the radiation fin is equipped with through-hole, and the radiation fin middle position is equipped with opening,
The opening is connected to the through-hole, and the opening is connect by feeder line with balun pedestal;The vibrator body is equipped with
Folded dipole described in multiple groups;The vibrator body is evenly distributedly arranged in around the balun pedestal in multiple groups folded dipole
On;The opening of the radiation fin of each group of folded dipole is connect by feeder line with balun pedestal.
As can be seen from the above description, the utility model provides a kind of antenna oscillator of base station, folded dipole includes radiation
Piece, the radiation fin are equipped with through-hole, and the radiation fin middle position is equipped with the opening connecting by feeder line with balun pedestal,
The opening is connected to the through-hole, and the vibrator body is equipped with multiple groups around the folded dipole of balun pedestal, each group of folding
The opening for closing the radiation fin of oscillator is connect by feeder line with balun pedestal.The utility model improves day by above structure
The radiance of line ensure that radiating element has the advantages that high gain, and beam angle can more restrain, while improve front and back
Than performances such as, cross polarization ratios.Meanwhile the utility model reduces the cost of radiating element by above structure, realizes assembly side
Just, the features such as high reliablity.
Further, the balun pedestal includes pedestal and multiple balun support columns, the number of the balun support column with
The number of the folded dipole is identical;Multiple balun support columns are circumferentially positioned on the pedestal, and are uniformly distributed;The balun
Support column is connected by the opening of feeder line and the radiation fin of folded dipole.
As can be seen from the above description, being conducive to radiation current by balun support column identical with folded dipole number and being formed
Circuit.
Further, the antenna oscillator of a kind of base station further includes setting on the base orthogonal two
A feed tab, described two feed tabs are between multiple balun support columns.
Couple feed is carried out as can be seen from the above description, the orthogonal setting of described two feed tabs, between them, is capable of antenna
Radiance.
Further, multiple folded dipoles include the first folded dipole, the second folded dipole, third folded dipole and the 4th
Folded dipole;
Multiple balun support columns include the first balun support column, the second balun support column, third balun support column and the 4th
Balun support column;
The side of the opening of first folded dipole is connected by the side at the top of feeder line and the first balun support column
It connects;The other side of the opening of first folded dipole is connected by the side at the top of feeder line and the 4th balun support column
It connects;
The other side that the side of the opening of second folded dipole passes through the top of feeder line and the first balun support column
Connection;The side that the other side of the opening of second folded dipole passes through the top of feeder line and the second balun support column
Connection;
The other side that the side of the opening of third folded dipole passes through the top of feeder line and the second balun support column
Connection;The side that the other side of the opening of the third folded dipole passes through the top of feeder line and third balun support column
Connection;
The other side that the side of the opening of 4th folded dipole passes through the top of feeder line and third balun support column
Connection;The other side of the opening of 4th folded dipole is another by feeder line and the top of the 4th balun support column
Side connection.
As can be seen from the above description, four folded dipoles are formed by feeder line and balun support column by above structure
Closed radiation current circuit solves the problems, such as that radiation current is unbalanced in the prior art.
Further, small one and large one two rectangles are formed between two groups of feeder lines connecting with same folded dipole,
Rectangle close to balun support column is less than the rectangle far from balun support column.
As can be seen from the above description, internal is hollow form, and size can root by small one and large one two rectangles formed
It is adjusted according to actual needs, is substantially rectangular opening, effect is to adjust the impedance of feeding transmission line, realizes input impedance
Matching;The shape in its hole is not limited to described in the technical program simultaneously.
Further, it is arranged in parallel between first folded dipole and third folded dipole;Second folded dipole
And the 4th be arranged in parallel between folded dipole;It is vertically arranged between first folded dipole and the second folded dipole.
Further, two folded dipole spacing disposed in parallel are 0.4-0.6 operation wavelength.
As can be seen from the above description, being arranged by above structure, the equivalent superposition of mutually orthogonal setting is made to radiate to form ± 45 °
Polarization.
Further, the width of the through-hole is predetermined width fixed value.
As can be seen from the above description, the through-hole of radiation fin is wide hole, and its width is predetermined width fixed value, can basis
Actual use situation is adjusted;And by the through-hole of above-mentioned setting, is conducive to the radiance for improving oscillator, is conducive to simultaneously
Form radiation current circuit.
Further, the radiation fin includes the first sub- radiation fin, the second sub- radiation fin and the sub- radiation fin of third;
The second sub- radiation fin and the angle that the side of the first sub- radiation fin connect, and formed between them be 110 °-
140°;
The sub- radiation fin of third is connect with the other side of the first sub- radiation fin, and the angle formed between them is
110°-140°;The second sub- radiation fin and the sub- radiation fin of third are symmetrical arranged about the first sub- radiation fin.
Further, the 4th son radiation normal thereto is respectively equipped on the described second sub- radiation fin and the sub- radiation fin of third
Piece.
As can be seen from the above description, the radiance of antenna can be further increased by above structure.
Further, polygonal hole is equipped between the corresponding feeder line of two neighboring folded dipole in vibrator body.
As can be seen from the above description, current path can be increased by above structure, bandwidth is broadened, and it is single to can reduce radiation
First weight.
Please refer to Fig. 1, the embodiments of the present invention one are as follows:
The utility model provides a kind of antenna oscillator of base station, including vibrator body 1 and balun pedestal 2, further includes feedback
Electric line 3 and folded dipole;
The folded dipole includes radiation fin, and the radiation fin is equipped with through-hole 4, and the radiation fin middle position is equipped with opening
5, the opening 5 is connected to the through-hole 4, and the opening 5 is connect by feeder line 3 with balun pedestal 2;The vibrator body
1 is equipped with folded dipole described in multiple groups;Multiple groups folded dipole is evenly distributedly arranged in described around the balun pedestal 2
In vibrator body 1;The opening 5 of the radiation fin of each group of folded dipole is connect by feeder line 3 with balun pedestal 2;
The balun pedestal 2 includes pedestal and multiple balun support columns, and the number of the balun support column is converted into described
The number of oscillator is identical;Multiple balun support columns are circumferentially positioned on the pedestal, and are uniformly distributed;The balun support column is logical
It crosses at feeder line 3 and the opening 5 of the radiation fin of folded dipole and connect;
The pedestal be equipped with orthogonal two feed tabs, described two feed tabs be located at multiple balun support columns it
Between;The width of the through-hole 4 is predetermined width fixed value;
The radiation fin includes the first sub- radiation fin 16, the second sub- radiation fin 17 and the sub- radiation fin 18 of third;Described second
The angle that sub- radiation fin 17 connect with the side of the first sub- radiation fin 16, and formed between them is 110 ° -140 °;The third
The angle that sub- radiation fin 18 connect with the other side of the first sub- radiation fin 16, and formed between them is 110 ° -140 °;Described
Two sub- radiation fins 17 and the sub- radiation fin 18 of third are symmetrical arranged about the first sub- radiation fin 16;The second sub- radiation fin 17 and
The sub- radiation fin 19 of normal thereto the 4th is respectively equipped on three sub- radiation fins 18;Two neighboring equivalent vibration in the vibrator body 1
Polygonal hole 7 is equipped between the corresponding feeder line 3 of son.
The embodiments of the present invention two are as follows:
The present embodiment two and the difference of embodiment one are that multiple folded dipoles are equivalent including the first folded dipole 8, second
Oscillator 9, third folded dipole 10 and the 4th folded dipole 11;
Multiple balun support columns include the first balun support column 12, the second balun support column 13, third balun support column 14
With the 4th balun support column 15;
Side at the opening 5 of first folded dipole 8 passes through the one of the top of feeder line 3 and the first balun support column 12
Side connection;The other side at the opening 5 of first folded dipole 8 passes through the top of feeder line 3 and the 4th balun support column 15
The side in portion connects;
Side at the opening 5 of second folded dipole 9 is another by feeder line 3 and the top of the first balun support column 12
Side connection;The other side at the opening 5 of second folded dipole 9 passes through feeder line 3 and the second balun support column 13
The side at top connects;
Side at the opening 5 of third folded dipole 10 passes through the top of feeder line 3 and the second balun support column 13
Other side connection;The other side at the opening 5 of the third folded dipole 10 passes through feeder line 3 and third balun support column
The side at 14 top connects;
Side at the opening 5 of 4th folded dipole 11 passes through feeder line 3 and the top of third balun support column 14
Other side connection;The other side at the opening 5 of 4th folded dipole 11 passes through feeder line 3 and the 4th balun support column
The other side at 15 top connects;
Small one and large one two rectangles 6 are formed between two groups of feeder lines 3 connecting with same folded dipole, close to balun
The rectangle 6 of support column is less than the rectangle 6 far from balun support column.
It is arranged in parallel between first folded dipole 8 and third folded dipole 10, and the corresponding first son radiation of the two
Spacing between piece 16 is 0.4-0.6 operation wavelength;It is set in parallel between second folded dipole 9 and the 4th folded dipole 11
It sets, and the spacing between the corresponding first sub- radiation fin 16 of the two is 0.4-0.6 operation wavelength;First folded dipole 8
And second be vertically arranged between folded dipole 9.
Referring to figure 2., the embodiments of the present invention three are as follows:
The utility model provides a kind of antenna oscillator of base station, including parallel opposed in pairs and orthogonal four
A gap folded dipole and orthogonal feed tab and balun pedestal, the radiating element is by integrated die cast, institute
Folded dipole to be stated to be realized by the gap of one fixed width in the plane, gap end and balun pedestal are connected to form current loop,
Remaining entity part connects into a closure plane, and feed tab is placed between adjacent slits folded dipole, by mutually orthogonal one group
Folded dipole superposition radiation in gap forms ± 45 ° of polarization.
Specifically, the ultra-wideband dual-polarization radiating unit is by four gaps folded dipole a, b, c, d in plane, feedback
Electrical transmission lines e, polygonal hole f, balun pedestal and two feed tab compositions.A and c is flat in four gap folded dipoles
Row is opposed, and spacing is 0.4-0.6 operation wavelength;B and d parallel opposed, spacing are 0.4-0.6 operation wavelength;A and c are orthogonal
In b and d, two orthogonal polarization are formed.
The radiation arm of gap folded dipole a is symmetrical about feeding transmission line e.Wherein gap folded dipole radiation arm and feed
Transmission line e, balun pedestal form closed current loops, and it is a1, a1 respectively that radiation arm a is made of multistage gap broken line ',
A2, a2 ', a3, a3 '.It is 90 ° that wherein a1 and feeder line e, which forms angle, a1 and about 110-140 ° of angle of a2 formation, a2 and a3
Forming angle is 90 °, this broken line is conducive to reduce radiating element volume, and extends current length.Gap width facilitates defeated
Entering impedance matching, gap angle is that this programme is best with width, but not limited to this scheme, changing angle can be real with gap width
Existing different design object.
Gap folded dipole feeding transmission line e be equipped with rectangular opening e01, e02, it acts as adjustment feeding transmission path,
Being conducive to adjustment input impedance makes Optimized Matching.E01, e02 are rectangular opening herein, and shape, the size in hole are not limited to this technology
Described in scheme, design object is can be achieved in other polygons and any size.
Plane between adjacent gap folded dipole is equipped with polygonal hole f.It acts as increase current path, exhibition
Wide bandwidth, and can reduce radiating element weight.Likewise, this polygonal hole is one of embodiment, arbitrary polygon is equal
Design object can be achieved.
The radiating element is placed between two neighboring gap folded dipole by mutually orthogonal feed tab and is carried out coupling feedback
Electricity, two orthogonal gap folded dipole superposition radiation form ± 45 ° of polarization and reduce pad, improve PIM intermodulation qualification rate.
Likewise, the structure feature that folded dipole b, c, d also have and folded dipole a is equivalent.Two o'clock feed can replace
Four-point feed radiating element is conducive to lower product cost.
In conclusion the utility model provides a kind of antenna oscillator of base station, folded dipole includes radiation fin, described
Radiation fin is equipped with through-hole, and the radiation fin middle position is equipped with the opening connecting by feeder line with balun pedestal, described to open
Mouth is connected to the through-hole, and the vibrator body is equipped with multiple groups around the folded dipole of balun pedestal, each group of folded dipole
The opening of radiation fin connect with balun pedestal by feeder line.The utility model improves the spoke of antenna by above structure
Performance is penetrated, ensure that radiating element has the advantages that high gain, and beam angle can more restrain, while improving front and back ratio, handing over
Pitch the performances such as polarization ratio.Meanwhile the utility model reduces the cost of radiating element by above structure, realization is easy to assembly, can
The features such as high by property.
The above description is only the embodiments of the present invention, and therefore it does not limit the scope of the patent of the utility model, all
Equivalents made based on the specification and figures of the utility model are applied directly or indirectly in relevant technology neck
Domain is also included in the patent protection scope of the utility model.
Claims (10)
1. a kind of antenna oscillator of base station, including vibrator body and balun pedestal, which is characterized in that further include feeder line and folding
Close oscillator;
The folded dipole includes radiation fin, and the radiation fin is equipped with through-hole, and the radiation fin middle position is equipped with opening, described
Opening is connected to the through-hole, and the opening is connect by feeder line with balun pedestal;The vibrator body is equipped with multiple groups
The folded dipole;Multiple groups folded dipole is evenly distributedly arranged in the vibrator body around the balun pedestal;Often
The opening of the radiation fin of one group of folded dipole is connect by feeder line with balun pedestal.
2. a kind of antenna oscillator of base station according to claim 1, which is characterized in that the balun pedestal include pedestal and
The number of multiple balun support columns, the balun support column is identical as the number of the folded dipole;Multiple baluns support the band of column
On the base around setting, it and is uniformly distributed;The balun support column passes through the radiation fin of feeder line and folded dipole
Opening connection.
3. a kind of antenna oscillator of base station according to claim 2, which is characterized in that further include being arranged on the base
Orthogonal two feed tabs, described two feed tabs are between multiple balun support columns.
4. a kind of antenna oscillator of base station according to claim 2, which is characterized in that multiple folded dipoles include the first folding
Close oscillator, the second folded dipole, third folded dipole and the 4th folded dipole;
Multiple balun support columns include the first balun support column, the second balun support column, third balun support column and the 4th balun
Support column;
The side of the opening of first folded dipole is connect by feeder line with the side at the top of the first balun support column;Institute
The other side for stating the opening of the first folded dipole is connect by feeder line with the side at the top of the 4th balun support column;
The side of the opening of second folded dipole is connect by feeder line with the other side at the top of the first balun support column;
The other side of the opening of second folded dipole is connect by feeder line with the side at the top of the second balun support column;
The side of the opening of third folded dipole is connect by feeder line with the other side at the top of the second balun support column;
The other side of the opening of the third folded dipole is connect by feeder line with the side at the top of third balun support column;
The side of the opening of 4th folded dipole is connect by feeder line with the other side at the top of third balun support column;
The other side of the opening of 4th folded dipole is connected by the other side at the top of feeder line and the 4th balun support column
It connects.
5. a kind of antenna oscillator of base station according to claim 4, which is characterized in that two connect with same folded dipole
Two rectangles that small one and large one is formed between group feeder line, the rectangle close to balun support column are less than far from balun support column
Rectangle.
6. a kind of antenna oscillator of base station according to claim 4, which is characterized in that first folded dipole and third
It is arranged in parallel between folded dipole;It is arranged in parallel between second folded dipole and the 4th folded dipole;Described first is equivalent
It is vertically arranged between oscillator and the second folded dipole.
7. a kind of antenna oscillator of base station according to claim 1, which is characterized in that the width of the through-hole is default width
Spend fixed value.
8. a kind of antenna oscillator of base station according to claim 1, which is characterized in that the radiation fin includes the first sub- spoke
Penetrate piece, the second sub- radiation fin and the sub- radiation fin of third;
The second sub- radiation fin is 110 ° -140 ° with the angle that the side of the first sub- radiation fin connect, and formed between them;
The sub- radiation fin of third and the angle that the other side of the first sub- radiation fin connect, and formed between them be 110 °-
140°;The second sub- radiation fin and the sub- radiation fin of third are symmetrical arranged about the first sub- radiation fin.
9. a kind of antenna oscillator of base station according to claim 8, which is characterized in that the second sub- radiation fin and third
The 4th sub- radiation fin normal thereto is respectively equipped on sub- radiation fin.
10. the antenna oscillator of -9 any a kind of base stations according to claim 1, which is characterized in that adjacent in vibrator body
Polygonal hole is equipped between the corresponding feeder line of two folded dipoles.
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CN201821817521.6U CN209119327U (en) | 2018-11-06 | 2018-11-06 | A kind of antenna oscillator of base station |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108232401A (en) * | 2018-01-02 | 2018-06-29 | 广东盛路通信科技股份有限公司 | High-performance UWB Antenna oscillator |
CN108511913A (en) * | 2018-05-03 | 2018-09-07 | 京信通信系统(中国)有限公司 | Antenna for base station and its dual-polarized antenna vibrator |
CN109244652A (en) * | 2018-11-06 | 2019-01-18 | 深圳市鑫龙通信技术有限公司 | A kind of antenna oscillator of base station |
CN111129750A (en) * | 2019-12-20 | 2020-05-08 | 京信通信技术(广州)有限公司 | 5G antenna and radiating element thereof |
-
2018
- 2018-11-06 CN CN201821817521.6U patent/CN209119327U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108232401A (en) * | 2018-01-02 | 2018-06-29 | 广东盛路通信科技股份有限公司 | High-performance UWB Antenna oscillator |
CN108232401B (en) * | 2018-01-02 | 2024-05-14 | 广东盛路通信科技股份有限公司 | High-performance ultra-wideband antenna oscillator |
CN108511913A (en) * | 2018-05-03 | 2018-09-07 | 京信通信系统(中国)有限公司 | Antenna for base station and its dual-polarized antenna vibrator |
CN109244652A (en) * | 2018-11-06 | 2019-01-18 | 深圳市鑫龙通信技术有限公司 | A kind of antenna oscillator of base station |
CN111129750A (en) * | 2019-12-20 | 2020-05-08 | 京信通信技术(广州)有限公司 | 5G antenna and radiating element thereof |
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