CN203983462U - All channel antenna - Google Patents
All channel antenna Download PDFInfo
- Publication number
- CN203983462U CN203983462U CN201420368161.1U CN201420368161U CN203983462U CN 203983462 U CN203983462 U CN 203983462U CN 201420368161 U CN201420368161 U CN 201420368161U CN 203983462 U CN203983462 U CN 203983462U
- Authority
- CN
- China
- Prior art keywords
- hole
- metal oscillator
- channel antenna
- isolation blocking
- semiconductor
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Waveguide Aerials (AREA)
Abstract
The utility model discloses a kind of all channel antenna, by good structural design, creationary semiconductor is applied on oscillator sheet, semiconductor structure is combined with oscillator, by continuous experiment, design rectangular metal oscillator sheet and be arranged with semiconductor circle outward, and the structural design on metal oscillator sheet, its radiation signal stream flows to length and speed is all greatly improved at metal oscillator sheet, emulation by a large amount of computer softwares show that it has working band and has reached 3000MHz, meet 4G completely to frequency requirement standard, relative bandwidth reaches 65.9%, and it has good gain, front and back ratio, cross polarization specific characteristic.
Description
Technical field
The utility model relates to field of antenna, is specifically related to a kind of all channel antenna.
Background technology
At present, 4G network is more and more universal, and 5G network has also appearred in some country; From the angle of operator, for reduce investment outlay and consider follow-uply how to realize extendible capacity, compatibility, multisystem, multi-modulation scheme coexists more and more becomes a kind of trend.So antenna for base station is also had higher requirement, for meeting the frequency of different systems, the ultrabroad band antenna for base station such as 2000 ~ 3000MHz frequency range are extensively proposed; And to realize the broadband of antenna for base station, what first will face is exactly the bandwidth expansion problem as the radiating element of its core component, how in the frequency band of whole broadband, keep higher gain, wave beam convergence consistency, good front and back when high cross polarization ratio be a no small challenge; Especially ultrabroad band problem, meets 5G and 4G(LTE) etc. the oscillator that requires of high band and the antenna made from this oscillator be all to need the problem that will solve badly.
Summary of the invention
The purpose of this utility model is to overcome above-described shortcoming, provide a kind of super wide radiation frequency, good front and back than and all channel antenna of high cross polarization characteristic.
For achieving the above object, concrete scheme of the present utility model is as follows: all channel antenna, include reflecting plate, and be located at a plurality of radiating elements on reflecting plate, described radiating element includes a support Ba Lun plate, and described support Ba Lun plate is provided with two groups, every group two, is just rectangular metal oscillator sheet; Described upper and lower two metal oscillator sheets are one group, and for radiation perpendicular polarization signal, two of described left and right metal oscillator sheet is one group, for radiation level polarized signal; Between described upper and lower two metal oscillator sheets, be provided with the first feed band line, between the metal oscillator sheet of two of described left and right, be provided with the second feed band line; Described support Ba Lun plate is provided with the first coaxial cable feed hole, and described the first coaxial cable feed hole is electrically connected to the first feed band line; On described support Ba Lun plate, be also provided with the second coaxial cable feed hole, described the second coaxial cable feed hole is electrically connected to the second feed band line;
The edge of described each metal oscillator sheet is provided with outer cage ring, on described each metal oscillator sheet, near both sides, be respectively equipped with a plurality of the first isolation blocking-up holes that are arranged side by side, middle part on described each metal oscillator sheet is also provided with a plurality of the second isolation blocking-up holes that are arranged side by side, and the second isolation blocking-up hole is rectangle; Described outer cage ring is semiconductor, in described the first isolation blocking-up hole and the second isolation blocking-up hole, all fills and is provided with semiconductor;
Described each metal oscillator sheet is provided with the rectifier structure for rectification away from a side that supports Ba Lun plate, and described rectifier structure is rectangle, and described rectifier structure includes a plurality of rectifier tanks that are arranged side by side, and is provided with rectification road between rectifier tank; In described rectifier tank, also all fill and be provided with semiconductor.
Wherein, described the first isolation blocking-up hole is Parallel Rectangular; The upper following length in described the first isolation blocking-up hole is 4mm-7mm.
Wherein, described semiconductor is gallium arsenide semiconductor.
Wherein, the thickness of described each metal oscillator sheet is 2mm-2.5mm.
Wherein, the upper following length in described the second isolation blocking-up hole is 22mm-25mm.
Wherein, the quantity in described the first isolation blocking-up hole is eight.
Wherein, the quantity in described the second isolation blocking-up hole is five.
Wherein, the distance in described the first coaxial cable feed hole and the second coaxial cable feed hole is greater than 4cm.
Wherein, described support Ba Lun plate is circular; Described support Ba Lun plate is pcb board, and its diameter is 10cm.
Wherein, the wide of described metal oscillator sheet is 6cm.
The beneficial effects of the utility model are: by good structural design, creationary semiconductor is applied on oscillator sheet, semiconductor structure is combined with oscillator, by continuous experiment, design rectangular metal oscillator sheet and be arranged with semiconductor circle outward, and the structural design on metal oscillator sheet, its radiation signal stream flows to length and speed is all greatly improved at metal oscillator sheet, emulation by a large amount of computer softwares show that it has working band and has reached 3000MHz, meet 4G and 5G of future generation completely to frequency requirement standard, relative bandwidth reaches 65.9%, and it has good gain, front and back ratio, cross polarization specific characteristic.
Accompanying drawing explanation
Fig. 1 is the vertical view of radiating element of the present utility model;
Fig. 2 is the partial enlarged drawing of Fig. 1;
Fig. 3 is that radiation signal is running into minute flow graph of rectification mechanism;
Fig. 4 is the profile of radiating element of the present utility model;
Fig. 5 is bandwidth emulation experiment datagram of the present utility model;
Fig. 6 is gain emulation experiment datagram of the present utility model;
Fig. 7 is vertical view of the present utility model;
Description of reference numerals in Fig. 1 to Fig. 7:
1-supports Ba Lun plate; 10-restrains breach; 2-reflecting plate;
11-the first feed band line; 12-the second feed band line;
11a-the first coaxial cable feed; 12a-the second coaxial cable feed;
3-metal oscillator sheet;
The outer cage ring of 4-;
5-rectifier structure; 51-rectification road;
6-the first isolation blocking-up hole;
7-the second isolation blocking-up hole;
9-obstructs hole.
Embodiment
Below in conjunction with the drawings and specific embodiments, the utility model being described in further detail, is not that practical range of the present utility model is confined to this.
As shown in Figures 1 to 7, all channel antenna described in the present embodiment, includes reflecting plate 2, and is located at a plurality of radiating elements on reflecting plate, described radiating element includes a support Ba Lun plate 1, and described support Ba Lun plate 1 is provided with two groups, every group two, the metal oscillator sheet 3 that is rectangle; Described upper and lower two metal oscillator sheets 3 are one group, and for radiation perpendicular polarization signal, two of described left and right metal oscillator sheet 3 is one group, for radiation level polarized signal; Between described upper and lower two metal oscillator sheets 3, be provided with the first feed band line 11, between the metal oscillator sheet 3 of two of described left and right, be provided with the second feed band line 12; Described support Ba Lun plate 1 is provided with the first coaxial cable feed 11a hole, and described the first coaxial cable feed 11a hole is electrically connected to the first feed band line 11; On described support Ba Lun plate 1, be also provided with the second coaxial cable feed 12a hole, described the second coaxial cable feed 12a hole is electrically connected to the second feed band line 12; The edge of described each metal oscillator sheet 3 is provided with outer cage ring 4, on described each metal oscillator sheet 3, near both sides, be respectively equipped with a plurality of the first isolation blocking-up holes 6 that are arranged side by side, middle part on described each metal oscillator sheet 3 is also provided with a plurality of 7, the second isolation blocking-up holes 7, the second isolation blocking-up hole that are arranged side by side and is rectangle; Described outer cage ring 4 is semiconductor, and described the first isolation blocking-up hole 6 and the second interior all fillings in isolation blocking-up hole 7 are provided with semiconductor; Described each metal oscillator sheet 3 is provided with the rectifier structure 5 for rectification away from a side that supports Ba Lun plate 1, and described rectifier structure 5 is rectangle, and described rectifier structure 5 includes a plurality of rectifier tanks that are arranged side by side, and is provided with rectification road 51 between rectifier tank; In described rectifier tank, also all fill and be provided with semiconductor.In all channel antenna described in the present embodiment, described the first isolation blocking-up hole 6 is rectangle; The upper following length in described the first isolation blocking-up hole 6 is 4mm-7mm.Further, after the coaxial cable in the first coaxial cable feed 11a hole is connected with its feed, be connected and realize feed with the first feed band line 11, in like manner, after the coaxial cable in the second coaxial cable feed 12a hole is connected with its feed, be connected and realize feed with the second feed band line 12, the distributed diffusion of radiation current, its signal trend is isolated behind blocking-up hole 7 by the first isolation blocking-up hole 6 and second, it has possessed higher convergence and superelevation gain and super wide frequency band, by emulation of the computer software, it longitudinally gains and has reached nearly 13dBi, described the second isolation blocking-up hole 7 is rectangle, makes it have good gain extension, and laterally gain also approaches 6dBi, emulation by a large amount of computer softwares show that it has working band and has reached 3000MHz, higher than current 4G frequency range, in the larger situation of described signal flow-disturbing, it is provided with the rectifier structure 5 for rectification at metal oscillator sheet 3 away from a side that supports Ba Lun plate 1, described rectifier structure 5 is rectangle, described rectifier structure 5 includes a plurality of rectifier tanks that are arranged side by side, between rectifier tank, be provided with rectification road 51, through over commutation passage, it has possessed fringe radiation signal more stably, by emulation of the computer software, learn, make its gain more stable, convergence ratio is high, front and back are than outstanding feature, the edge of described each metal oscillator sheet 3 is provided with outer cage ring 4, described outer cage ring 4 is semiconductor, outer cage ring 4 effectively increases oscillator isolation for semiconductor energy, it is learnt by emulation of the computer software, its isolation reaches 50db, far above common oscillator, use semi-conductive outer cage ring 4, it also possesses preferably wave beam convergence consistency.Described the first isolation blocking-up hole 6 and second isolation blocking-up hole 7 is interior all fills and be provided with semiconductor, has increased gain, has further increased frequency bandwidth, and the emulation by a large amount of computer softwares show that it has working band and has reached nearly 3000MHz, by good structural design, creationary semiconductor is applied on oscillator sheet, semiconductor structure is combined with oscillator, by continuous experiment, design rectangle metal oscillator sheet 3 and be arranged with semiconductor circle outward, and the structural design on metal oscillator sheet 3, its radiation signal stream flows to length and speed is all greatly improved at metal oscillator sheet 3, emulation by a large amount of computer softwares show that it has working band and has reached 3000MHz, meet 4G and 5G of future generation completely to frequency requirement standard, relative bandwidth reaches 65.9%, and it has good gain, front and back ratio, cross polarization specific characteristic.Described metal oscillator sheet 3 is rectangle, and each angle is chamfering structure, can in the situation that keeping electric current broadening wider, keep the ultimate range between oscillator sheet, increases its isolation, strengthens the antijamming capability of oscillator part.
In all channel antenna described in the present embodiment, described semiconductor is gallium arsenide semiconductor; By experiment and emulation of the computer software learn, the best results of gallium arsenide semiconductor, its good characteristic of semiconductor has increased frequency band range of the present utility model and has improved oscillator irradiation stability.
In all channel antenna described in the present embodiment, the thickness of described each metal oscillator sheet 3 is 2mm-2.5mm; By emulation experiment and structural design repeatedly, adjust, when the thickness of metal oscillator sheet 3 is 2mm-2.5mm, its radiation current is the most steady, and radiation is the most stable, is difficult for producing the jammr bands such as standing wave, and convergence is consistent.
The upper following length in described the second isolation blocking-up hole 7 is 22mm-25mm; By emulation experiment and structural design repeatedly, adjust, when the upper following length in described the second isolation blocking-up hole 7 is 22mm-25mm, it is best that under the restriction producing at minimum clutter, it extends electric current effect, thereby it the most easily meets super wide radiation bandwidth.The quantity in described the first isolation blocking-up hole 6 is eight; The quantity in described the second isolation blocking-up hole 7 is five, and by Computer Simulation, during this quantity, its effect is better.
The distance in described the first coaxial cable feed 11a hole and the second coaxial cable feed 12a hole is greater than 4cm; Described support Ba Lun plate 1 is circular; Described support Ba Lun plate 1 is pcb board, and its diameter is 10cm; So design, learns by emulation of the computer software, and its isolation is larger.
Each length of side of described metal oscillator sheet 3 is 6cm; When each length of side is 6cm, its longitudinal length is just in time the half-wave length of radiation wavelength, so its good stability, does not produce clutter.
In all channel antenna described in the present embodiment, between described two adjacent the second isolation blocking-up holes 7, be also provided with a plurality of holes 9 that obstruct, described in obstruct the interior filling in hole 9 and be provided with semiconductor; The described hole 9 that obstructs can further increase flow-disturbing effect, increases bandwidth, by emulation of the computer software, learns, it can increase by approximately 3% bandwidth.
In all channel antenna described in the present embodiment, a side of the close rectification mechanism of described outer cage ring 4 is provided with the convergence breach 10 of V-arrangement, and it can effectively increase convergence and isolation, and by Computer Simulation, its performance has good convergence.
The above is only a preferred embodiment of the present utility model, and the equivalence of doing according to structure, feature and principle described in the utility model patent claim therefore all changes or modifies, and is included in the protection range of the utility model patent application.
Claims (10)
1. an all channel antenna, include reflecting plate (2), and be located at a plurality of radiating elements on reflecting plate, described radiating element includes a support Ba Lun plate (1), it is characterized in that: described support Ba Lun plate (1) is provided with two groups, every group two, is just rectangular metal oscillator sheet (3); Described upper and lower two metal oscillator sheets (3) are one group, and for radiation perpendicular polarization signal, two the metal oscillator sheets in described left and right (3) are one group, for radiation level polarized signal; Between described upper and lower two metal oscillator sheets (3), be provided with the first feed band line (11), between two the metal oscillator sheets in described left and right (3), be provided with the second feed band line (12); Described support Ba Lun plate (1) is provided with the first coaxial cable feed (11a) hole, and described the first coaxial cable feed (11a) hole is electrically connected to the first feed band line (11); On described support Ba Lun plate (1), be also provided with the second coaxial cable feed (12a) hole, described the second coaxial cable feed (12a) hole is electrically connected to the second feed band line (12);
The edge of described each metal oscillator sheet (3) is provided with outer cage ring (4), described each metal oscillator sheet (3) is upper is respectively equipped with a plurality of the first isolation blocking-up holes (6) that are arranged side by side near both sides, middle part on described each metal oscillator sheet (3) is also provided with a plurality of the second isolation blocking-up holes (7) that are arranged side by side, and the second isolation blocking-up hole (7) is rectangle; Described outer cage ring (4) is semiconductor, in described the first isolation blocking-up hole (6) and the second isolation blocking-up hole (7), all fills and is provided with semiconductor;
Described each metal oscillator sheet (3) is provided with the rectifier structure (5) for rectification away from a side that supports Ba Lun plate (1), described rectifier structure (5) is rectangle, described rectifier structure (5) includes a plurality of rectifier tanks that are arranged side by side, and is provided with rectification road (51) between rectifier tank; In described rectifier tank, also all fill and be provided with semiconductor.
2. a kind of all channel antenna according to claim 1, is characterized in that: described the first isolation blocking-up hole (6) is Parallel Rectangular; The upper following length in described the first isolation blocking-up hole (6) is 4mm-7mm.
3. a kind of all channel antenna according to claim 1, is characterized in that: described semiconductor is gallium arsenide semiconductor.
4. a kind of all channel antenna according to claim 1, is characterized in that: the thickness of described each metal oscillator sheet (3) is 2mm-2.5mm.
5. a kind of all channel antenna according to claim 1, is characterized in that: the upper following length in described the second isolation blocking-up hole (7) is 22mm-25mm.
6. a kind of all channel antenna according to claim 1, is characterized in that: the quantity in described the first isolation blocking-up hole (6) is eight.
7. a kind of all channel antenna according to claim 1, is characterized in that: the quantity in described the second isolation blocking-up hole (7) is five.
8. a kind of all channel antenna according to claim 1, is characterized in that: the distance in described the first coaxial cable feed (11a) hole and the second coaxial cable feed (12a) hole is greater than 4cm.
9. a kind of all channel antenna according to claim 1, is characterized in that: described support Ba Lun plate (1) is for circular; Described support Ba Lun plate (1) is pcb board, and its diameter is 10cm.
10. a kind of all channel antenna according to claim 1, is characterized in that: the wide of described metal oscillator sheet (3) is 6cm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420368161.1U CN203983462U (en) | 2014-07-06 | 2014-07-06 | All channel antenna |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420368161.1U CN203983462U (en) | 2014-07-06 | 2014-07-06 | All channel antenna |
Publications (1)
Publication Number | Publication Date |
---|---|
CN203983462U true CN203983462U (en) | 2014-12-03 |
Family
ID=51980884
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201420368161.1U Expired - Fee Related CN203983462U (en) | 2014-07-06 | 2014-07-06 | All channel antenna |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN203983462U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104134851A (en) * | 2014-07-06 | 2014-11-05 | 胡洁维 | Broadband antenna |
-
2014
- 2014-07-06 CN CN201420368161.1U patent/CN203983462U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104134851A (en) * | 2014-07-06 | 2014-11-05 | 胡洁维 | Broadband antenna |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN104134850A (en) | Dual-polarized antenna | |
CN203983468U (en) | The pentagon element antenna of high-gain band convergence breach | |
CN204118237U (en) | Dual polarized antenna | |
CN204011686U (en) | Band obstructs the wideband semiconductor dual polarization vibrator in hole | |
CN203983462U (en) | All channel antenna | |
CN203983466U (en) | Wideband semiconductor dual polarization vibrator | |
CN104134851A (en) | Broadband antenna | |
CN203983461U (en) | Broadband dual polarization vibrator | |
CN203950918U (en) | A kind of broadband single-polarized antenna | |
CN104134852A (en) | Broadband dual-polarized oscillator | |
CN203983460U (en) | A kind of high-gain semiconductor single polarization oscillator with convergence breach | |
CN203983465U (en) | A kind of high-gain rectangle element antenna with convergence breach | |
CN203942010U (en) | A kind of high-gain rectangle element antenna | |
CN203983459U (en) | Single polarization oscillator | |
CN204118238U (en) | Band dual polarized antenna | |
CN203983474U (en) | High-gain pentagon element antenna | |
CN203983470U (en) | Pentagon single polarization oscillator | |
CN203950919U (en) | A kind of all channel antenna | |
CN203983471U (en) | A kind of band dual polarized antenna | |
CN203983469U (en) | Band dual polarized antenna | |
CN203942009U (en) | Band dual polarized antenna | |
CN204130688U (en) | Antenna based on single polarization oscillator | |
CN203942012U (en) | Band obstructs the broadband dual polarization vibrator in hole | |
CN204029974U (en) | Broadband single polarization oscillator | |
CN203942008U (en) | Wideband semiconductor single polarization oscillator |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20141203 Termination date: 20150706 |
|
EXPY | Termination of patent right or utility model |