CN203631729U - Radiation unit of broadband dual-polarized antenna - Google Patents

Abstract

A radiation unit of a broadband dual-polarized antenna, comprising: a feeding board, a dielectric board, and a radiation board, the radiation board includes orthogonal ±45° polarized oscillators, each polarized oscillator includes two sub-radiated boards, and the fed board It includes a first sub-feed board and a second sub-feed board, the feed board and the radiation board are printed on the upper layer and the lower layer of the dielectric board respectively, and the sub-feed boards of the feed board are respectively connected to the inner conductors of the coaxial feeder, The first sub-feeding board is aligned with a sub-radiating board in the +45° polarized oscillator and performs coupling feeding, and the second sub-feeding board is aligned with a sub-radiating board in the -45° polarized oscillator and performs coupling feeding. Coupled feeding, the outer conductor of the coaxial feeder is connected to the other two sub-radiating boards for feeding, and the feeding board and the radiation board control the high-frequency resonance point and the low-frequency resonance point respectively. The scheme of the utility model improves the broadband matching.

Description

The radiating element of broadband dual polarized antenna

Technical field

The utility model relates to antenna technical field, particularly relates to a kind of radiating element of broadband dual polarized antenna.

Background technology

Along with the fast development of mobile communication system, people are more and more higher to the requirement of mobile communication, the quantity of a large amount of increase mobile communication equipments, as increased the quantity of antenna for base station, so just, increase installation, the maintenance engineering amount of equipment, increased the operation cost of Liao Ge great operator simultaneously.Simultaneously 2G, 3G, LTE and the 4G that is about to grow up, operating frequency coverage requirement covers GSM1710/1800/UMTS/LTE2300/2500 (1710～2690MHz).

For meeting under current wireless Communication Development needs background, the wideband dual polarized base station antenna unit of various structures is studied.Meanwhile, not only the impedance bandwidth to antenna for base station, directional diagram stability, gain stability and isolation etc. have proposed new requirement, require the half power lobe width of element antenna in bandwidth to remain in 65 ± 5 °, and gain is greater than 8.5dBi; In addition, to the structure of antenna for base station, cost, installation difficulty has also proposed certain requirement.

In conventional art, adopt the antenna element oscillator design of integrated casting structure, reach 1.7GHZ-2.7GHZ by primary and secondary radiant body bandwidth.Adopt metal hook feed, radiant section is made up of primary radiation sheet and collateral radiation sheet.Need regulate by structure and feeding pack at the technical casting structure antenna of Broadband Matching, coupling is trouble comparatively.Another kind of technology has proposed a kind of cross microstrip structure radiating element, for the indoor covering dual polarized antenna of TD-LTE.Dual polarization vibrator unit adopts right-angled intersection microstrip structure, and this right-angled intersection microstrip structure is upper and lower two-layer perpendicular+45 degree and two the polarization oscillators of-45 degree of being all printed in double face copper.Radiant panel adopts square tube shape structure, each parallel dual polarization vibrator unit that is fixed with on four panels of radiant panel, looping planar array structure; Feeding network shields in the tube chamber of radiant panel, and the output port of feeding network is connected with each dual polarization vibrator unit, and input port is fixed on backboard by the coaxial electrical cable end in 50 Europe.For the antenna of this print structure, lack the feeder panel of independent design, coupling is also not easy to control.

Utility model content

Based on this, be necessary the problem poor for Broadband Matching, a kind of radiating element of broadband dual polarized antenna is provided.

A kind of radiating element of broadband dual polarized antenna, comprise: feeder panel, dielectric-slab, radiant panel, described radiant panel comprises orthogonal+45 ° polarization oscillator and-45 ° of polarization oscillators, each polarization oscillator comprises two sub-radiant panels, described feeder panel comprises the first sub-feeder panel and the second sub-feeder panel

Feeder panel is printed on the upper strata of dielectric-slab, radiant panel is printed on the lower floor of dielectric-slab, the sub-feeder panel of feeder panel is connected with the inner wire of coaxial feeder respectively, the first sub-feeder panel and the sub-radiant panels of+45 ° of polarization in the oscillators feed of aiming at and be coupled, the second sub-feeder panel and the sub-radiant panels of-45 ° of polarization in the oscillators feed of aiming at and be coupled, the outer conductor of described coaxial feeder is connected and carries out feed with another sub-radiant panel of+45 ° of polarization oscillators and another sub-radiant panel of-45 ° of polarization oscillators respectively

Described feeder panel is used for controlling high-frequency resonant point, and described radiant panel is used for controlling low-frequency resonant point.

The radiating element of above-mentioned broadband dual polarized antenna, comprise: feeder panel, dielectric-slab, radiant panel, described radiant panel comprises orthogonal+45 ° polarization oscillator and-45 ° of polarization oscillators, each polarization oscillator comprises two sub-radiant panels, described feeder panel comprises the first sub-feeder panel and the second sub-feeder panel, by feeder panel being printed on to the upper strata of dielectric-slab, radiant panel is printed on the lower floor of dielectric-slab, upper strata is connected with coaxial feeder inner wire, i.e. the first sub-feeder panel and the sub-radiant panels of+45 ° of polarization in the oscillators feed of aiming at and be coupled, the second sub-feeder panel and the sub-radiant panels of-45 ° of polarization in the oscillators feed of aiming at and be coupled, coaxial feeder outer conductor connects two other sub-radiant panel, realize Ba Lun balance, thereby realize feeder panel control high-frequency resonant point, radiant panel control low-frequency resonant point, improve Broadband Matching.And adopt dielectric-slab print structure, with low cost, quality is light, processing is installed simple.

Brief description of the drawings

Fig. 1 is the structural representation of the radiating element embodiment mono-of the utility model broadband dual polarized antenna;

Fig. 2 is the structural representation of radiant panel embodiment mono-in the radiating element of the utility model broadband dual polarized antenna;

Fig. 3 is the structural representation of radiant panel embodiment bis-in the radiating element of the utility model broadband dual polarized antenna;

Fig. 4 is the structural representation of feeder panel embodiment in the radiating element of the utility model broadband dual polarized antenna;

Fig. 5 is the structural representation that the radiating element of the utility model broadband dual polarized antenna specifically uses example.

Embodiment

Be described in detail for each embodiment of the radiating element of the utility model broadband dual polarized antenna below.

As shown in Figure 1, for the structural representation of the radiating element embodiment mono-of the utility model broadband dual polarized antenna, comprise: radiant panel 120(is because radiant panel is below dielectric-slab, so concrete structure is not shown in Fig. 1), dielectric-slab 130, feeder panel 140, radiant panel comprises orthogonal+45 ° polarization oscillator and-45 ° of polarization oscillators, each polarization oscillator comprises two sub-radiant panels, and feeder panel comprises the first sub-feeder panel and the second sub-feeder panel.Here orthogonal+45 ° polarization oscillator and-45 ° of refer to+45 ° of polarization oscillators of polarization oscillator and-45 ° of polarization oscillators are cross structure, and the line of symmetry of adjacent sub-radiant panel is mutually vertical.Wherein, the figure of each radiant panel can be about the figure of line of symmetry symmetry separately.

Feeder panel is printed on the upper strata of dielectric-slab, radiant panel is printed on the lower floor of dielectric-slab, the sub-feeder panel of feeder panel is connected with the inner wire of coaxial feeder respectively, the first sub-feeder panel and the sub-radiant panels of+45 ° of polarization in the oscillators feed of aiming at and be coupled, the second sub-feeder panel and the sub-radiant panels of-45 ° of polarization in the oscillators feed of aiming at and be coupled, the outer conductor of coaxial feeder is connected and carries out feed with another sub-radiant panel of+45 ° of polarization oscillators and another sub-radiant panel of-45 ° of oscillators that polarize respectively.

Wherein, coaxial feeder generally comprises two, i.e. the first coaxial feeder and the second coaxial feeder.Every coaxial feeder comprises coaxial feeder inner wire and outer conductor.Coaxial inner conductor connects upper strata feeder panel, upper strata feeder panel is realized two polarised direction feeds by coupling feed, such as adopting via hole mode to be connected with lower metal transmission line, realizes ± 45 ° of cross feeds, so feeder panel unification can be positioned over to upper strata, be coupled to lower floor from above.Coaxial outer conductor connects another two sub-radiant panels of radiant panel, carries out direct feed.

Feeder panel is used for controlling high-frequency resonant point, and radiant panel is used for controlling low-frequency resonant point.

The present embodiment adopts a kind of coupling feed structure, and radiant panel is printed on lower floor, and feeder panel is printed on upper strata, and upper strata is connected with coaxial inner core, gives corresponding lower floor radiation fin by coupling feed; In addition, the other radiation fin of outer coaxial connection, realizes Ba Lun balance.

In an embodiment, director can also be set above feeder panel therein, director is used for controlling high frequency radiation directional diagram.By director is set, can control high frequency direction figure, realize broadband directional diagram stable.

Therein in an embodiment, as shown in Figure 2, + 45 ° of polarization oscillators comprise the first sub-radiant panel 210 and the 3rd sub-radiant panel 230,-45 ° of polarization oscillators comprise the second sub-radiant panel 220 and the 4th sub-radiant panel 240, every sub-radiant panel is equipped with two hypotenuses, the hypotenuse of adjacent sub-radiant panel matches and adjacent hypotenuse exists gap 250, and the extended line of every two hypotenuses of sub-radiant panel is mutually vertical.Wherein, each sub-radiant panel is printed on dielectric-slab 260 lower floors.The present embodiment has been introduced a kind of radiant panel, and this radiant panel is made up of the first sub-radiant panel, the second sub-radiant panel, the 3rd sub-radiant panel and the 4th sub-radiant panel.The first sub-radiant panel and the 3rd sub-radiant panel form+45 ° of polarization oscillators, and the second sub-radiant panel and the 4th sub-radiant panel form-45 ° of polarization oscillators.Two hypotenuses of each radiant panel, such as two hypotenuses 211 and 212 of the first sub-radiant panel.

The shape of sub-radiant panel can be various shapes, due to the problem of antenna performance, is generally designed to symmetrical structure.In a specific embodiment, as shown in Figure 3, radiant panel is printed on dielectric-slab 360 lower floors.The first sub-radiant panel 310, the second sub-radiant panel 320, the 3rd sub-radiant panel 330 and the 4th sub-radiant panel 340 is trapezoidal by one and the rectangle of middle hollow out composition, such as, the first sub-radiant panel by trapezoidal 311 and hollow out rectangle 312 form.Wherein, two trapezoidal hypotenuses and be two hypotenuses of sub-radiant panel.The shape of middle hollow out can various shape, such as in the form of a ring.In this embodiment, lower floor's radiant panel is made up of four same shapes, hollows out, in the form of a ring in the middle of rectangle.Trapezoidal hypotenuse and adjacent hypotenuse produce coupling, have a bit of coupling distance 370.Radiant panel is printed on the downside of dielectric-slab, the main radiation effects that participates in, therefore select the radiant panel of rectangle+trapezium structure to there is wider bandwidth than conventional dipole son, because radiation current is along radiant panel edge distribution, so last lower metal adopts the radiant panel of rectangle engraved structure; One antithetical phrase radiant panel (a polarization oscillator comprises two sub-radiant panels) is a poliarizing antenna, and an antithetical phrase radiant panel length is approximately quarter-wave, consists of the radiating element of broadband dual polarized antenna the sub-radiant panel of two pairs of mutual 45 ° of placements.And by the coupling before two pairs of poliarizing antennas, by suitable coupling distance (distance of adjacent hypotenuse), encourage two resonance points, realized wideband.

Therein in an embodiment, feeder panel comprises the first sub-feeder panel, the second sub-feeder panel, the 3rd sub-feeder panel and the 4th sub-feeder panel, every sub-feeder panel is equipped with two hypotenuses, the hypotenuse of adjacent sub-feeder panel matches and adjacent hypotenuse exists gap, and the outside of every sub-feeder panel is equipped with at least two brachyplast joints.Can be by regulating the brachyplast joint on sub-feeder panel to realize very easily broadband internal impedance coupling.Consider that upper strata feeder panel has the dimensions size, electric current can participate in radiation to a certain extent simultaneously, has therefore increased the 3rd sub-feeder panel and the 4th sub-feeder panel, is designed to symmetrical structure, thereby makes directional diagram symmetry with the first radiant panel and the second radiant panel.

The shape of sub-feeder panel can be various shapes, due to the problem of antenna performance, is generally designed to symmetrical structure.In a specific embodiment, as shown in Figure 4, feeder panel comprises the first sub-feeder panel 410, the second sub-feeder panel 420, the 3rd sub-feeder panel 430 and the 4th sub-feeder panel 440, every sub-feeder panel is equipped with two hypotenuses, the hypotenuse of adjacent sub-feeder panel matches and adjacent hypotenuse exists gap, and the outside of every sub-feeder panel is equipped with at least two brachyplast joints.Such as two minor matters 411 and 412 of the first sub-feeder panel.The first sub-feeder panel 410 is for being provided with the metallic plate of long transmission line 413 in the inside portion of U-shaped plate, the second sub-feeder panel 420 is for being provided with the metallic plate of short transmission line 421 in the inside portion of U-shaped plate, the 3rd sub-feeder panel 430 and the 4th sub-feeder panel 440 are for establishing reeded metallic plate in the inside portion of U-shaped plate, wherein, U-shaped plate is trapezoidal by one, the first rectangle, the second rectangle and the 3rd rectangle composition, the trapezoidal long end and the short end of comprising, the inside portion of U-shaped plate is trapezoidal short bottom, a wherein long limit of the first rectangle and the trapezoidal long end, coincide, the second rectangle and the 3rd rectangle are located at another long limit of the first rectangle.The first sub-feeder panel is aimed at the first sub-radiant panel, and the second sub-feeder panel is aimed at the second sub-radiant panel, and the 3rd sub-feeder panel is aimed at the 3rd sub-radiant panel, and the 4th feeder panel is aimed at the 4th sub-radiant panel.As Fig. 4, feeder panel is printed on the upper strata of dielectric-slab 460.

In an embodiment, can realize by the mode of metallic vias ± 45 ° of cross feeds therein, there is very high isolation, and improve two port consistency.This embodiment also comprises: the first transmission line, the second transmission line, and referring to 350 in 450 in Fig. 4 and Fig. 3.Referring to Fig. 1, coaxial feeder comprises the first coaxial feeder 161 and the second coaxial feeder 162, and every sub-feeder panel is equipped with inside portion and outside portion, and every sub-radiant panel is equipped with inside portion and outside portion.The inner side of sub-feeder panel refers to the side near other sub-feeder panels, and the outside of sub-feeder panel refers to the side away from other sub-feeder panels.In above-described embodiment, trapezoidal is inner side, and rectangle is outside.In like manner, the inner side of sub-radiant panel refers to the side near other sub-radiant panels, and the outside of sub-radiant panel refers to the side away from other sub-feeder panels.In above-described embodiment, trapezoidal is inner side, and hollow out rectangle latter end is outside.

Referring to Fig. 4, the inside portion of the first sub-feeder panel is provided with long transmission line 413, long transmission line is provided with the first metal throuth hole 414 away from the first sub-feeder panel end, the inside portion of the second sub-feeder panel is provided with short transmission line 421, short transmission line is provided with the second metal throuth hole 422, the inside portion of the 3rd sub-feeder panel and the 4th sub-feeder panel is equipped with recess, long transmission line inserts in the recess of the 3rd sub-feeder panel, the first transmission line is located in the recess of the 4th sub-feeder panel inner side, the first transmission line 450 is provided with the 3rd metal throuth hole 451 and the 4th metal throuth hole 452

Referring to Fig. 3, the inside portion of the 3rd sub-radiant panel 330 is provided with the 5th metal throuth hole 331, the inside portion of the 4th sub-radiant panel 340 is provided with the 6th metal throuth hole 341, the second transmission line 350 is located between the second sub-radiant panel and the 4th sub-radiant panel, the second transmission line 350 can be rectangle, long limit is parallel with the 3rd sub-radiant panel with the first sub-radiant panel, and minor face is parallel with the 4th sub-radiant panel with the second sub-radiant panel.Certain the second transmission line can be also other shapes, and object is mainly for the electric current of the 4th metal throuth hole is introduced to the second metal throuth hole.

On the corresponding each metal throuth hole of dielectric-slab position, be provided with metal throuth hole, wherein the first metal throuth hole and the 5th metal throuth hole overlap, and the 3rd metal throuth hole overlaps with the 6th metal throuth hole.Because feeder panel and radiant panel are all printed on dielectric-slab, therefore, on dielectric-slab, stamp through hole, be equivalent to feeder panel and radiant panel is provided with through hole.What the first metal throuth hole and the 5th metal throuth hole were corresponding is the same through hole on dielectric-slab, and therefore, the first metal throuth hole and the 5th metal throuth hole overlap.What the 3rd metal throuth hole and the 6th metal throuth hole were corresponding is the same through hole on dielectric-slab, and therefore, the 3rd metal throuth hole and the 6th metal throuth hole overlap.

Referring to Fig. 1, Fig. 3 and Fig. 4, the outer conductor of the first coaxial feeder 161 is welded on the 3rd sub-radiant panel 330 by the 5th metal throuth hole 331, the inner wire of the first coaxial feeder 161 is connected with the long transmission line 413 of the first feeder panel 410 with the first metal throuth hole 414 by the 5th metal throuth hole 331

The outer conductor of the second coaxial feeder 162 is welded on the 4th sub-radiant panel 340 by the 6th metal throuth hole 341, the inner wire of the second coaxial feeder 162 is connected the first transmission line 450 by the 6th metal throuth hole 341 with the 3rd metal throuth hole 451, the first transmission line 450 connects the second transmission line 350, the second transmission lines 350 by the 4th metal throuth hole 452 and connects the second feeder panel 420 by the second metal throuth hole 422.

In an embodiment, the height of the first radiant panel, the second radiant panel, the 3rd radiant panel and the 4th radiant panel is quarter-wave therein.

In an embodiment, director is cross director therein, described cross for controlling high frequency radiation directional diagram.Cross director is parallel with dielectric-slab, add cross director, due to ± 45 ° of radiating elements, its parasitic director electric current must be that ± 45 ° of linear polarizations flow, so director adopts cross structure, can, by regulating cross director different length and the lobe width apart from control antenna high frequency, be conducive to broadband global optimization, effectively improve the antenna pattern of antenna high frequency.

In an embodiment, the dielectric constant of dielectric-slab is 4.4 therein.

In an embodiment, the spacing of cross director and feeder panel is 18.2mm therein.

The various embodiments described above can independent assortment, and the utility model is lifted one of them concrete example that uses and described:

Referring to Fig. 5, comprise that radiant panel 520, dielectric-slab 530, the U-shaped structure feeder panel 540(feeder panel of rectangular ring structure is arranged on dielectric-slab upper strata, in figure, do not illustrate), on dielectric-slab, cross director 550 can be set.Lower floor's rectangular ring radiant panel 520, the U-shaped structure feeder panel 540 in upper strata are printed on respectively FR4(dielectric constant 4.4) dielectric-slab 530 downsides and upside.Dielectric-slab can be to be supported on reflecting plate 510 by coaxial feeder.

Referring to 4, the U-shaped structure feeder panel 540 in upper strata is mainly made up of four metallic plates that are U-shaped structure, i.e. the first sub-feeder panel 410, the second sub-feeder panel 420, the 3rd sub-feeder panel 430, the 4th sub-feeder panel 440.U-shaped structure is divided and be can be a trapezium structure, rectangular configuration and two arms compositions.Each U-shaped plate comprises two hypotenuses and two straight flange arms, and the main and adjacent sub-feeder panel of hypotenuse produces coupling, straight flange arm this as parameter easy adjusting number.U-shaped structure feeder panel is mainly used in tuning feed effect, is all printed on dielectric-slab upper strata, and wherein two slice, thin piece feeder panels 410 are connected with 50 ohm of coaxial lines with 420.The first metal throuth hole 414 directly connects the inner core of a port coaxial feeder, is then coupled to the first sub-radiant panel 310 by the first sub-feeder panel 410, realizes port one feed.The first sub-feeder panel 410 and the second sub-feeder panel 420 intersect to be placed, first the inner core of another port coaxial feeder is welded on the first transmission line 450 by the 3rd metal throuth hole 451, feed current is guided on the second transmission line 350 of lower floor by the 4th metallic vias 452 again, finally by the second metal throuth hole 421 and the second sub-feeder panel 420 together with, realize port 2 feeds.Two-port realizes cross feed, has good isolation and two-port standing wave high conformity.Can easily realize broadband internal impedance coupling by regulating the brachium size of the sub-feeder panel 410 in upper strata first and the second sub-feeder panel 420 to facilitate.Consider that the U-shaped plate in upper strata has the dimensions size, electric current can participate in radiation to a certain extent, and therefore the U-shaped structure feeder panel in upper strata is designed to symmetrical structure, adds the 3rd sub-feeder panel 430 and the 4th sub-feeder panel 440.

Shown in Figure 3, lower floor's rectangular ring radiant panel is made up of four equal rectangles, comprises the first sub-feeder panel 310, the second sub-feeder panel 320, the 3rd sub-feeder panel 330 and the 4th sub-feeder panel 340.In the middle of rectangle, hollow out, in the form of a ring, can be called rectangular ring radiant panel.After rectangle, connect one trapezoidally, hypotenuse and adjacent hypotenuse produce coupling, have a bit of coupling distance.Metal rectangular ring is printed on the downside of FR4 dielectric-slab, mainly participates in radiation effects, therefore selects rectangular radiation plate to have wider bandwidth than conventional dipole son, because radiation current is along radiant panel edge distribution, so last lower metal adopts rectangular ring radiant panel.A pair of rectangular ring radiant panel is a poliarizing antenna, and a pair of rectangular ring radiant panel length is approximately quarter-wave, consists of the radiating element of broadband dual polarized antenna the rectangular ring radiant panel of two pairs of mutual 45 ° of placements.And by the coupling before two pairs of poliarizing antennas, by suitable coupling distance, encourage two resonance points, realized wideband.Coaxial feeder outer conductor is welded on respectively on the 3rd sub-radiant panel 330 and the 4th sub-radiant panel 340 by the 5th metal throuth hole 331 and the 6th metal throuth hole 341, realizes balance as a Ba Lun.

For obtaining stable directional diagram in frequency band, particularly control gain, front and back ratio and the lobe width of HFS, add cross director, due to the radiating element of ± 45 ° of broadband dual polarized antennas, its parasitic director electric current must be that ± 45 ° of linear polarizations flow, so director adopts cross structure, and the lobe width that director different length and distance can control antenna high frequencies, be conducive to broadband global optimization, effectively improve the antenna pattern of antenna high frequency.

The utility model adopts dielectric-slab print structure, and with low cost, quality is light, and processing is installed simple; Adopt rectangular ring radiant panel to compare the sub-broader bandwidth of conventional dipole as dipole; Adopt U-shaped structure feeder panel, novel structure, U-shaped structure two arm lengths easily regulate, and can control group mate, and meanwhile, U-shaped structure feeder panel size width dimensions can regulate, for bandwidth match provides multiple control dimensions; By middle two metal throuth holes and lower floor's transmission line, realize ± 45 ° of dual polarization cross feeds, feed part is arranged in to upper strata simultaneously, primary radiation sheet is arranged in lower floor simultaneously, realizes good isolation and two port high conformities.By introducing cross director, customer service broad-band antenna directional diagram is unsettled determines, for the optimal control of directional diagram provides other method, director easily regulates apart from size, easily the directional diagram of control antenna.

In concrete utilization, dielectric-slab can be to be supported on reflecting plate by coaxial feeder, can be to be also supported on reflecting plate by bracing frame.Reflecting plate is that length is the square of 140mm.Dielectric-slab and reflecting plate be arranged in parallel.The spacing of dielectric-slab and reflecting plate is 38mm, and reflecting plate is provided with flange, and the both sides of reflecting plate are respectively front and back, and dielectric-slab is in the front of reflecting plate, and flange is along reflecting plate just towards extending and arrange away from back side direction, and flange height is 12mm.Be used for the lobe width of control antenna with the reflecting plate of flange, carry out the lobe width of control antenna by changing the size of reflecting plate and flange height.Cross director is parallel with dielectric-slab, and the distance of cross director and dielectric-slab is 18.2mm.As the radiant panel in Fig. 3, sub-radiant panel is made up of trapezoidal and rectangle, and wherein rectangle comprises long limit and minor face, and bond length is 16mm.The vertical range on the long limit of the first sub-radiant panel rectangle and the long limit of the 3rd radiant panel rectangle is 57.4.The distance of the adjacent hypotenuse of sub-radiant panel is 0.8mm.As the feeder panel in Fig. 4, in feeder panel, the length of the first sub-feeder panel and the 3rd sub-feeder panel is 27.2mm.Sub-feeder panel is by rectangle and trapezoidal composition, and trapezoidal length of the long end is 18mm.

Adopt the radiating element of the broadband dual polarized antenna of this size design to there is better impedance matching, wider bandwidth, stable directional diagram.

The above embodiment has only expressed several execution mode of the present utility model, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection range of the present utility model.Therefore, the protection range of the utility model patent should be as the criterion with claims.

Claims (9)

1. the radiating element of a broadband dual polarized antenna, it is characterized in that, comprise: feeder panel, dielectric-slab, radiant panel, described radiant panel comprises orthogonal+45 ° polarization oscillator and-45 ° of polarization oscillators, each polarization oscillator comprises two sub-radiant panels, described feeder panel comprises the first sub-feeder panel and the second sub-feeder panel

Feeder panel is printed on the upper strata of dielectric-slab, radiant panel is printed on the lower floor of dielectric-slab, the sub-feeder panel of feeder panel is connected with the inner wire of coaxial feeder respectively, the first sub-feeder panel and the sub-radiant panels of+45 ° of polarization in the oscillators feed of aiming at and be coupled, the second sub-feeder panel and the sub-radiant panels of-45 ° of polarization in the oscillators feed of aiming at and be coupled, the outer conductor of described coaxial feeder is connected and carries out feed with another sub-radiant panel of+45 ° of polarization oscillators and another sub-radiant panel of-45 ° of polarization oscillators respectively

Described feeder panel is used for controlling high-frequency resonant point, and described radiant panel is used for controlling low-frequency resonant point.

2. the radiating element of broadband dual polarized antenna according to claim 1, it is characterized in that, + 45 ° of polarization oscillators comprise the first sub-radiant panel and the 3rd sub-radiant panel, a described-45 ° polarization oscillator comprises the second sub-radiant panel and the 4th sub-radiant panel, every sub-radiant panel is equipped with two hypotenuses, the hypotenuse of adjacent sub-radiant panel matches and adjacent hypotenuse exists gap, and the extended line of every two hypotenuses of sub-radiant panel is mutually vertical.

3. the radiating element of broadband dual polarized antenna according to claim 2, it is characterized in that, described feeder panel also comprises the 3rd sub-feeder panel and the 4th sub-feeder panel, every sub-feeder panel is equipped with two hypotenuses, the hypotenuse of adjacent sub-feeder panel matches and adjacent hypotenuse exists gap, and the outside of every sub-feeder panel is equipped with at least two brachyplast joints.

4. the radiating element of broadband dual polarized antenna according to claim 3, it is characterized in that, also comprise the first transmission line, the second transmission line, coaxial feeder comprises the first coaxial feeder and the second coaxial feeder, every sub-feeder panel is equipped with inside portion and outside portion, every sub-radiant panel is equipped with inside portion and outside portion

The inside portion of the first sub-feeder panel is provided with long transmission line, long transmission line is provided with the first metal throuth hole away from the first sub-feeder panel end, the inside portion of the second sub-feeder panel is provided with short transmission line, short transmission line is provided with the second metal throuth hole, the inside portion of the 3rd sub-feeder panel and the 4th sub-feeder panel is equipped with recess, and long transmission line inserts in the recess of the 3rd sub-feeder panel, and the first transmission line is located in the recess of the 4th sub-feeder panel inner side, the first transmission line is provided with the 3rd metal throuth hole and the 4th metal throuth hole

The inside portion of the 3rd sub-radiant panel is provided with the 5th metal throuth hole, and the inside portion of the 4th sub-radiant panel is provided with the 6th metal throuth hole, and described the second transmission line is located between the second sub-radiant panel and the 4th sub-radiant panel,

On the corresponding each metal throuth hole of dielectric-slab position, be provided with metal throuth hole, wherein the first metal throuth hole and the 5th metal throuth hole overlap, and the 3rd metal throuth hole overlaps with the 6th metal throuth hole,

The outer conductor of described the first coaxial feeder is welded on the 3rd sub-radiant panel by the 5th metal throuth hole, and the inner wire of the first coaxial feeder is connected with the long transmission line of the first feeder panel with the first metal throuth hole by the 5th metal throuth hole,

The outer conductor of the second coaxial feeder is welded on the 4th sub-radiant panel by the 6th metal throuth hole, the inner wire of the second coaxial feeder is connected the first transmission line by the 6th metal throuth hole with the 3rd metal throuth hole, the first transmission line connects the second transmission line by the 4th metal throuth hole, and the second transmission line connects the second feeder panel by the second metal throuth hole.

5. the radiating element of broadband dual polarized antenna according to claim 4, it is characterized in that, described the first sub-feeder panel is the metallic plate that is provided with long transmission line in the inside portion of U-shaped plate, described the second sub-feeder panel is the metallic plate that is provided with short transmission line in the inside portion of U-shaped plate, described the 3rd sub-feeder panel and the 4th sub-feeder panel are to establish reeded metallic plate in the inside portion of U-shaped plate, wherein, U-shaped plate is trapezoidal by one, the first rectangle, the second rectangle and the 3rd rectangle composition, the trapezoidal long end and the short end of comprising, the inside portion of U-shaped plate is trapezoidal short bottom, a wherein long limit of described the first rectangle and the trapezoidal long end, coincide, the second rectangle and the 3rd rectangle are located at another long limit of the first rectangle.

6. according to the radiating element of the broadband dual polarized antenna described in claim 2 to 5 any one, it is characterized in that, described the first sub-radiant panel, the second sub-radiant panel, the 3rd sub-radiant panel and the 4th sub-radiant panel rectangle trapezoidal by and middle hollow out forms, wherein, two hypotenuses that two trapezoidal hypotenuses are sub-radiant panel.

7. the radiating element of broadband dual polarized antenna according to claim 6, is characterized in that, the height of described the first radiant panel, the second radiant panel, the 3rd radiant panel and the 4th radiant panel is quarter-wave.

8. according to the radiating element of the broadband dual polarized antenna described in claim 1 to 5 any one, it is characterized in that, also comprise the cross director that is arranged on feeder panel top, described cross for controlling high frequency radiation directional diagram.

9. according to the radiating element of the broadband dual polarized antenna described in claim 1 to 5 any one, it is characterized in that, the dielectric constant of described dielectric-slab is 4.4.

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