CN101752659A - Ultrabroad band double-faced transition groove wire antenna using coplanar waveguide feed - Google Patents

Abstract

The present invention relates to an ultrabroad band double-faced transition groove wire antenna using coplanar waveguide feed, which is an antenna having the advantages of simple structure, low cost, easy mass production, ultrabroad band working property and high gain. The ultrabroad band double-faced transition groove wire antenna comprises a double-faced transition groove wire plate (1) and a back plate (2) which are mutually connected vertically, wherein the double-faced transition groove wire plates (1) is vertically inserted from a side groove (23) of the back plate (2) with a single-side metal layer (22); a welding location sheet (13) and a back plate metal (222) are welded to be fixed; a transition groove wire (11) of the upper half part of the double-faced transition groove wire plate (1) is welded with the back plate metal (222) to be fixed, and the transition groove wire (11) of the lower half part of the double-faced transition groove wire plate (1) is welded with a central conduction band (221) of a coplanar waveguide. Thus electric contact is ensured. An anharmonicity feed structure can effectively widen the working frequency band of the ultrabroad band double-faced transition groove wire antenna on the basis that the radiance of the ultrabroad band double-faced transition groove wire antenna is ensured.

Description

Use the two-sided tapered slot antenna of ultrabroad band of coplanar wave guide feedback

Technical field

The present invention relates to a kind of organization plan that improves the tapered slot antenna frequency bandwidth characteristics, especially be operated in the tapered slot antenna of microwave frequency band.

Background technology

At present, the tapered slot antenna that is used for microwave frequency band is the direction leading of broadening and radiated electromagnetic wave gradually forward along the groove crack, has characteristics such as broad frequency band, medium gain.Its impedance matching frequency band mainly is subjected to the restriction of resonant mode feed structure.Want further widening frequency band, should use the feed structure of disresonance type instead.The external report once scheme to Plantar shape tapered slot of strip line feed, although the impedance frequency band of energy broadening antenna, the frequency band of its directional pattern and gain is still wide inadequately.

Summary of the invention

Technical problem: the present invention proposes a kind of two-sided tapered slot antenna of ultrabroad band that uses coplanar wave guide feedback, makes the impedance band spread of antenna become a plurality of octaves (upper frequency limit/lower-frequency limit 〉=4), keeps that simultaneously good radiation characteristic is arranged in the frequency band.Present technique also helps in batches and makes, can reduce cost.

Technical scheme: the two-sided tapered slot antenna of the ultrabroad band of use coplanar wave guide feedback of the present invention comprises two blocks of mutual two-sided tapered slot plates connected vertically and backboard; Wherein, tapered slot that is provided with on the two-sided tapered slot plate and welding spacer symmetry are printed in the tow sides of dielectric-slab, dig on the backboard slot is arranged, backboard is provided with one-sided metal level with the side that two-sided tapered slot plate is connected, etching has two coplanar waveguide feeder line structures that are parallel to each other on one-sided metal level, one-sided metal level is divided into inboard metal, two parts of outside metal, and outside metal is as the ground plate of co-planar waveguide, and inboard metal is the center conduction band of co-planar waveguide; Two-sided tapered slot plate vertically inserts from groove from the side that one-sided metal level is arranged of backboard, welding spacer and backboard metal solder are fixed, the tapered slot and the outside metal solder of two-sided tapered slot plate the first half are fixed, the center conduction band welding of tapered slot of two-sided tapered slot plate the latter half and co-planar waveguide is fixing, guarantees to electrically contact.Co-planar waveguide is etched in backboard, and co-planar waveguide is formed by connecting with horizontal linkage section by vertical section.

Beneficial effect: owing to adopted technique scheme, the present invention has following advantage compared with prior art: the impedance frequency band of (1) antenna has clear improvement the sound interval but broadening quadruples than the tapered slot that uses the resonant mode feeding classification.(2) antenna keeps radiance preferably in this frequency band, and directional pattern is distortion not, and it is higher to gain.(3) antenna belongs to all print structure, is convenient to produce and assembling.

Description of drawings

Fig. 1 is a general structure schematic diagram of the present invention,

Fig. 2 is the test curve of antenna echo loss frequency response among the present invention,

Fig. 3 is the test curve of antenna gain frequency response among the present invention,

Fig. 4 is that antenna is tested xoy face directional pattern the typical case of 10GHz among the present invention,

Fig. 5 is that antenna is tested xoz face directional pattern the typical case of 10GHz among the present invention.

Embodiment

The present invention is made of the tapered slot and the rearmounted backboard of printed on both sides.Its two-sided tapered slot is made of dielectric-slab and the metal level that is printed in the dielectric-slab both sides; Its rearmounted backboard is made of dielectric-slab and the metal level that is positioned at the dielectric-slab inboard.Rearmounted backboard central authorities dig slot, is provided with across slot central authorities on metal level and is the ∏ type symmetry line of rabbet joint that extends at 90 ° of turnings downwards; This line of rabbet joint is divided into two parts with the metal level on the backboard, and the metal of ∏ type line of rabbet joint inboard becomes the center conduction band of co-planar waveguide, and the metal in the ∏ type line of rabbet joint outside becomes the ground plate of co-planar waveguide.After one end of two-sided tapered slot vertically inserted the slit of rearmounted backboard, the ground plate of its upside metal and co-planar waveguide kept electrically contacting, and its downside metal then keeps electrically contacting with the center conduction band layer of co-planar waveguide.

Concrete structure is: this antenna comprises two blocks of mutual two-sided tapered slot plates 1 connected vertically and backboard 2; Wherein, tapered slot 11 that is provided with on the two-sided tapered slot plate 1 and welding spacer 13 symmetries are printed in the tow sides of dielectric-slab 12, dig on the backboard 2 slot 23 is arranged, the side that backboard 2 is connected with two-sided tapered slot plate 1 is provided with one-sided metal level 22, etching has two coplanar waveguide feeder line structures 24 that are parallel to each other on one-sided metal level 22, one-sided metal level 22 is divided into inboard metal 221,222 two parts of outside metal, outside metal 222 is as the ground plate of co-planar waveguide, and inboard metal 221 is the center conduction band of co-planar waveguide; Two-sided tapered slot plate 1 vertically inserts from groove 23 from a side of the one-sided metal level 22 of having of backboard 2, welding spacer 13 is fixing with 222 welding of backboard metal, the tapered slot 11 of two-sided tapered slot plate 1 the first half is fixing with 222 welding of outside metal, the tapered slot 11 of tapered slot 1 the latter half is fixing with 221 welding of the center conduction band of co-planar waveguide, guarantees to electrically contact.

Now the specific embodiment of the present invention is described in further detail in conjunction with following embodiment and accompanying drawing thereof.

Two-sided tapered slot plate 1 is selected the medium (ε of thick 0.5mm for use _r=2.2) dielectric-slab 12, the length 93mm of this substrate, and width 60mm, the two sides symmetry is printed with identical tapered slot 11 metal levels and welding spacer 13.The left side curve shape of tapered slot 11 is 1/4th elliptic arcs, and long axis of ellipse and minor axis length are respectively 54mm and 40mm; The inside curve of tapered slot 11 be shaped as exponential type curve gradually broadening to dielectric-slab 12 edges, by equation y (χ)=± [0.156exp (0.06 χ)-0.106] describe.Welding spacer 13 is rectangular metal pasters of long 10mm, wide 2mm.Rearmounted backboard 2 is selected the medium (ε of thick 1.6mm for use _r=4.4) substrate, the area of this backboard are 100mm * 40mm, and digging along center line has slot 23, wherein goes up the long 5mm of slot, wide 1mm, are used for inserting the welding spacer; The long 10mm of following slot, wide 1mm are used to insert two-sided tapered slot plate 1.Etching coplanar waveguide feeder line structure 24 on one-sided metal level 22, vertical section 241 long 50.175mm of coplanar waveguide feeder line structure 24, wide 0.35mm; Horizontal linkage section 242 long 3.7mm, wide 0.35mm.The inboard metal 221 of co-planar waveguide is the long 19.825mm of central conduction band, wide 3mm.The upside metal of two-sided tapered slot plate 1 and 222 welding of the outside metal of backboard keep electrically contacting, and the inboard metal solder of the downside metal of two-sided tapered slot plate 1 and backboard keeps electrically contacting, and welding spacer 13 is used for fixing with 222 welding of outside metal.

Utilize 2008 pairs of antenna structures of CST MICROWAVE STUDIO of CST company to carry out the all-wave simulation analysis, optimize the physical dimension that meets the antenna requirement, and be processed into sample, test.Test result show this antenna in the frequency range of 3～20GHz S11 less than-10dB, the only slightly lifting of 0.5dB about 10.45GHz.On the frequency range of 4～16GHz, gain is 10 ± 3.5dB, and antenna can be realized effective directed radiation.

Claims (2)

1. two-sided tapered slot antenna of ultrabroad band that uses coplanar wave guide feedback, it is characterized in that: this antenna comprises two blocks of mutual two-sided tapered slot plates connected vertically (1) and backboard (2); Wherein, two-sided tapered slot plate (1) is gone up the tapered slot (11) that is provided with and is welded the tow sides that spacer (13) symmetry is printed in dielectric-slab (12), backboard (2) is gone up to dig slot (23), the side that backboard (2) is connected with two-sided tapered slot plate (1) is provided with one-sided metal level (22), go up etching at one-sided metal level (22) two coplanar waveguide feeder line structures (24) that are parallel to each other are arranged, one-sided metal level (22) is divided into inboard metal (221), (222) two parts of outside metal, outside metal (222) is as the ground plate of co-planar waveguide, and inboard metal (221) is the center conduction band of co-planar waveguide; Two-sided tapered slot plate (1) inserts from groove (23) is vertical from the side that one-sided metal level (22) is arranged of backboard (2), welding spacer (13) is fixing with backboard metal (222) welding, the tapered slot (11) of two-sided tapered slot plate (1) the first half is fixing with outside metal (222) welding, the tapered slot (11) of two-sided tapered slot plate (1) the latter half is fixing with the welding of the center conduction band (221) of co-planar waveguide, guarantees to electrically contact.

2. the two-sided tapered slot antenna of the ultrabroad band of use coplanar wave guide feedback according to claim 1 is characterized in that co-planar waveguide (24) is etched in backboard (2), and co-planar waveguide (24) is formed by connecting by vertical section (241) and horizontal linkage section (242).

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