KR101799690B1 - Tapered slot antenna for array with the taper of curved surface and simple feeding structure - Google Patents

Abstract

The present invention relates to a tapered slot antenna for an array and, more specifically, to a tapered slot antenna for an array having a curved surface taper and a simple feeding structure which can adjust a width of a tapered slot unit for forming tapering in accordance with a height, is configured to have curvature, not a plane, and configures a coaxial feeding line in a straight line shape, thereby facilitating impedance matching and reducing transmission loss.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a tapered slot antenna for an array having a curved surface taper and a simple feeding structure,

More particularly, the present invention relates to a tapered slot antenna for arraying, more specifically, a tapered slot antenna that can adjust a width of a tapered slot portion according to a height and has a curvature not a plane, The present invention relates to a tapered slot antenna having a curved surface taper and a simple feeding structure for facilitating impedance matching and reducing transmission loss.

In general, a tapered slot antenna is one of the most widely used antenna types for a wide-band, small-sized, and light-weight array antenna, and various methods such as etching a PCB substrate or processing a metal material are also available.

1 shows a first conceptual view of a conventional tapered slot antenna. Figure 1 shows an antenna of a typical tapered slot structure 2 in which the feeding lines 4 and 6 of the form of a slot short circuit 8 are connected to the connector 12.

When the feed line 6 is a coaxial line, it is short. When the feed line 6 is a microstrip line, it is composed of a? / 4 open line.

When the electromagnetic field distribution of the two lines is set to be orthogonal to each other, the electromagnetic wave transitions are most preferably generated, so that the two lines are vertically arranged as indicated by the dotted line 10.

Therefore, when the substrate is composed of a PCB substrate, the substrate has a slot structure on one side and a coaxial feed line on the other side.

However, in the case of the above configuration, there is a disadvantage in that it is difficult to implement a wide band in terms of impedance matching and a transmission loss is large.

FIG. 2 is a second conceptual diagram of a conventional tapered slot antenna.

The cavity 14 is disposed not to be disposed in the middle portion of the antenna but intentionally deviated to one side. Accordingly, a structure in which the transmission line feed structure 16 having a relatively short length and a linear shape is arranged perpendicular to the slot 18 becomes possible.

This structure can improve the disadvantages of the electrical performance that can occur in the long and bending coaxial feed line as shown in Fig. 1, but it is possible to achieve precise hole processing for coaxial implementation in the thin antenna thickness (x) It is difficult to process the slot in the shape of an oblique line 20 for impedance matching.

Korean Patent Registration No. 10-0833174

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a tapered slot portion which has a curvature not in a plane, The present invention provides a tapered slot antenna for optimizing characteristics of an antenna, such as impedance matching and transmission loss.

In order to achieve the above object, the present invention provides a tapered slot antenna for an array having a curved surface taper and a simple feed structure,

The antenna unit has a body portion and a flange fixing portion formed at a lower end of the body portion. Both side surfaces of the body portion are tapered in shape as the area decreases toward the upper end. The width of the tapered slot portion, And is formed to have a curvature.

A plate-shaped flange to be assembled to the lower surface of the flange fixing portion;

A connector to be assembled to the lower surface of the flange;

The other end of the coaxial pin passing through the flange includes a straight-shaped coaxial fin short-circuited in the shorting groove of the antenna section, and a coaxial feed line of a straight line shape is formed due to the shape of the coaxial fin do.

A groove having a predetermined depth across both side surfaces of the antenna unit is formed at the central portion of the lower surface of the body portion and the upper surface of the upper portion of the flange fixing unit and the antenna unit has a rectangular through hole.

The upper surface of the flange fixing part is formed in a shape having a size such that the rim of the lower surface of the body part excluding the wall part of the through hole is increased by a certain width from the lower surface of the body part.

And a contact portion protruding by a predetermined length is formed on the front central portion of the flange fixing portion.

And a contact surface which is a front surface of the contact portion is characterized in that a curvature is formed concavely inward between both sides of the contact surface.

The bottom face of the body portion and the upper face of the flange fixing portion are attached to the rear face of the antenna portion with the center of the through hole and the wall face of the through hole is opened at a predetermined height across the both side faces at the front face of the antenna portion, Spaced apart from each other.

And a flange fixing screw groove to which an antenna fixing screw penetrating the antenna fixing screw hole of the flange is coupled is formed on the lower surface of the flange fixing portion at a position spaced apart from the through hole by a predetermined distance from the rear face side of the antenna.

And a feed hole penetrating the lower surface and the upper surface of the flange fixing portion is formed in the flange fixing portion at a position spaced apart from the through hole by a predetermined distance from the front side of the antenna.

A shorting groove is formed at a position where the feed hole is formed at the lower end of the body portion at a position where the end of the coaxial fin passing through the feed hole is inserted at a certain depth.

The two connector fixing screw holes formed in the flange are formed to be symmetrical with respect to both sides of the antenna portion when the antenna portion is assembled to the flange.

And a coaxial pin insertion hole through which the coaxial pin passes is formed at a central portion between the two connector fixing screw holes in the flange.

And one antenna fixing screw hole is formed in the flange in the direction of 90 degrees from the extension of the connector fixing screw hole toward the rear side of the antenna portion with the coaxial pin insertion hole as the center.

And one antenna unit is periodically arranged to implement an array antenna.

According to the present invention, the tapered slot portion forming the tapered portion is configured to have a curvature, not a plane, and the width of the tapered slot portion can be adjusted according to the height, and the coaxial feed line can be configured in a linear shape having a relatively short length, Thus, it is possible to easily optimize the characteristics of the antenna, such as reducing the transmission loss.

In the prior art, at least one or more antenna structures are periodically arranged to form an array antenna. However, in the present invention, an array antenna can be implemented by periodically arranging one antenna structure, thereby reducing the number of antennas used as a dummy It is effective.

1 is a first conceptual view of a conventional tapered slot antenna;
2 is a second conceptual view of a conventional tapered slot antenna;
3 is an exploded perspective view of the antenna of the present invention.
4 is a view showing the configuration of an antenna of the present invention.
5 is a view illustrating a single antenna assembly example of the present invention.
Fig. 6 is a schematic diagram of an antenna assembly according to the present invention. Fig.
7 is an antenna array configuration of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings, It will be possible. The present invention is capable of various modifications and various forms, and specific embodiments are illustrated in the drawings and described in detail in the text. It is to be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but on the contrary, is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

A tapered slot portion forming a tapered portion is formed to have a curvature instead of a flat surface, and a width of the tapered slot portion can be adjusted according to a height. A coaxial feed line is formed in a linear shape having a relatively short length, The present invention is directed to a tapered slot antenna for an array that can easily optimize characteristics of an antenna.

FIG. 3 shows an exploded perspective view of the antenna according to the present invention, FIG. 4 shows a view of the antenna part of the present invention, FIG. 5 shows an example of a single antenna assembly of the present invention, And FIG. 7 shows a configuration of an antenna arrangement according to the present invention.

The tapered slot antenna of the present invention includes an antenna portion 30 including a body portion 32 and a flange fixing portion 38 formed at the lower end of the body portion 32, A flange 48 in the form of a plate to be assembled and a connector 58 to be assembled to a lower surface of the flange 48. One end of the flange 48 is connected to the center pin of the connector 58, And a coaxial pin (56) of a linear shape short-circuited in the shorting groove (36) of the antenna section (30).

The above-described configuration is included in one tapered slot antenna structure. In the related art, at least one or more antenna structures are periodically arranged to implement an array antenna. However, in the present invention, one antenna structure having the above- It is possible to reduce the number of antennas applied to the dummy antenna.

The front and rear surfaces of the body portion 32 are tapered so that the front and rear surfaces of the body portion 32 are tapered. And a tapered slot portion 34 for forming a tapered portion.

The upper and lower ends of the tapered slot portion 34 may be formed to have different widths because the width of the tapered slot portion 34 is adjustable in accordance with the height. For example, as shown in FIG. 3, The width of the upper end may be formed to be narrower.

In addition, the tapered slot portion 34 is formed to have a curvature, and the curvature of the tapered slot portion 34 is formed to be a convex curved surface outwardly between the both sides, .

A groove having a predetermined depth across both side surfaces of the antenna unit 30 is formed at the center of the lower surface of the body 32 and the center of the upper surface of the flange fixing unit 38, A through hole 66 is formed.

The upper surface of the flange fixing portion 38 is formed on the lower surface of the body portion 32 so that the flange fixing portion 38 is formed on the upper surface of the body portion 32 excluding the wall portion of the through hole 66. [ The lower surface of the portion 32 is formed in a shape of a size having a certain width.

The body portion 32 and the flange fixing portion 38 may be formed on the bottom surface of the body portion 32 and the flange fixing portion 38 on the rear surface of the antenna portion 30, And a wall surface of the through hole 66 is opened at a predetermined height across both side surfaces at the front surface of the antenna unit 30 so that the lower surface of the body 32 and the flange fixing unit 38, Are spaced apart from each other by a predetermined distance.

When a plurality of antennas are periodically arranged at the center of the front surface of the flange fixing part 38 to form an array antenna, a contact part 44 protruding by a predetermined length is formed to join with the other tapered slot antenna.

A curvature is formed concavely inward between the opposite sides of the contact surface 46 on the contact surface 46 of the contact portion 44. A curvature is formed on the rear surface of the flange fixing portion 38, .

The curvature of the contact surface 46 and the curvature of the back surface of the flange fixing portion 38 are equal to each other. When a plurality of antennas are periodically arranged, the contact surface 46 of one of the tapered slot antennas is tapered So that the rear surface of the flange fixing part (38) of the slot antenna is arranged without a space to be closely spaced.

A flange 48 is formed on the bottom surface of the flange fixing portion 38 at a position spaced apart from the through hole 66 by a predetermined distance from the rear surface of the antenna portion 30, A fixing screw groove 42 is formed.

The flange fixing portion 38 at a position spaced apart from the through hole 66 by a predetermined distance from the front side of the antenna portion 30 is provided with the flange fixing portion 38 and a feed hole 40 penetrating the upper surface thereof.

The end of the coaxial pin (56) passing through the feed hole (40) is inserted at a predetermined depth to be short-circuited at a position where the feed hole (40) is formed at the lower end of the body portion (32) The shorting groove 36 is formed.

The antenna unit 30 is screwed on the upper surface of the flange 48 and the connector 58 is screwed on the lower surface of the flange 48.

Two connector fixing screw holes 52 are formed in the flange 48 so that the flange 48 and the connector 58 are screwed together. 30 are symmetrically formed with respect to both sides of the antenna unit 30 when the antenna unit 30 is assembled to the flange 48.

The flange 48 and the connector 58 are connected to each other by a connector fixing screw 64 passing through a connector hole 60 formed at an angle of 180 degrees with respect to the upper surface of the connector 58, And screwed into the connector fixing screw hole 52 to be engaged. When the screw is engaged, the head portion of the connector fixing screw 64 is coupled so as to face downward.

A coaxial pin insertion hole 54 through which the coaxial pin 56 passes is formed at a central portion between the two connector fixing screw holes 52 in the flange 48.

One end of the coaxial pin 56 passing through the coaxial pin insertion hole 54 is connected to the center pin of the connector 58 and the other end is connected to the flange fixing portion 38 Is short-circuited in the shorting groove (36) formed in the body portion (32) through the feeding hole (40).

The shorting groove 36, the feed hole 40, and the coaxial pin insertion hole 54 are formed to have the same axis to form a coaxial feed line having a relatively short straight line shape, thereby facilitating proper characterization of the antenna, .

One antenna fixing screw hole 50 is formed in the flange 48 for screwing the flange 48 and the antenna portion 30.

The antenna fixing screw hole 50 extends from the flange 48 toward the rear side of the antenna unit 30 with respect to the coaxial pin insertion hole 54 and an extension line of the connector fixing screw hole 52 and 90 Direction.

The flange 48 and the antenna unit 30 are connected to the flange fixing screw groove 42 by an antenna fixing screw 62 passing through the antenna fixing screw hole 50 of the flange 48 Lt; / RTI > The head portion of the connector fixing screw 64 is coupled to the lower surface of the flange 48 when the screw is engaged.

The assembling procedure of the tapered slot antenna having the above-described structure will be described with reference to FIGS. 3 and 6. FIG. In the figure, only numerals are used as reference numerals related to the antenna unit shown on the left side of the drawing. In the reference numerals related to the antenna unit shown on the right side of the drawing, prime ' Respectively.

The antenna fixing screw 62 penetrating the flange 48 is inserted into the flange fixing screw groove 42 of the flange fixing portion 38 so that the head portion is on the bottom surface of the flange 48, 48 and the antenna unit 30 are combined.

The upper end of the coaxial pin 56 passing through the coaxial pin insertion hole 54 of the flange 48 is inserted into the feed hole 40 of the flange fixing portion 38, Is inserted into the shorting groove (36) of the body portion (32).

The coaxial pin 56 is not bent at the time of inserting the coaxial pin 56 without touching the wall surface of the coaxial pin insertion hole 54, the feed hole 40, and the shorting groove 36.

The connector fixing screw 64 passing through the connector hole 60 is inserted into the connector fixing screw hole 52 of the flange 48 so that the head portion faces the lower end of the connector 58, 48) and the connector (58).

FIG. 4 is a view showing one antenna unit having the above-described configuration, and FIG. 6 is a view showing two antenna units having the above-described configuration coupled to one flange.

Only one antenna unit 30, one coaxial pin 56, and one connector 58 may be coupled to the flange 48 when used as a single antenna.

7, the area of the flange is increased in the longitudinal direction according to the number of the antenna parts arranged, and the antenna fixing screw hole 50?, The connector 50? A fixing screw hole 52 and a coaxial pin insertion hole 54. The coaxial pin 54 and the connector may be coupled to the antenna unit 30 according to the number of the coaxial pin insertion holes 54. [

As described above, the flanges 48, to which the plurality of antenna units 30 are coupled, can be arranged in a plane or linear arrangement, and can be extended to have a repetitive structure corresponding to the required number of arrangements.

The tapered slot antenna according to the present invention is configured such that the tapered slot portion 34 is formed to have a curvature instead of a flat surface and the width can be adjusted according to the height, So that the impedance matching can be adjusted, thereby achieving a broadband implementation.

Further, the coaxial feed line can be formed in a linear shape with a relatively short length, thereby reducing the transmission loss and facilitating proper characterization of the antenna.

While the present invention has been described in connection with what is presently considered to be practical and exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

2: Conventional tapered slot structure
4 and 6: Conventional feed line
8: Conventional slot short
12: Conventional connector
14: Conventional cavity
16: Conventional feeding structure
18: Conventional slot
20: Conventional oblique shape
30:
32:
34: Tapered slot part
36: Short-circuit groove
38: flange fixing portion
40: feeding hole
42: Flange fixing screw groove
44:
46: contact surface
48: Flange
50: Antenna fixing screw hole
52: Connector fixing screw hole
54: coaxial pin insertion hole
56: coaxial pin
58: Connector
60: Connector hole
62: Antenna fixing screw
64: Connector fixing screw
66: Through hole

Claims (14)

The antenna unit includes a body portion and a flange fixing portion formed at a lower end of the body portion,
The tapered shape is a tapered shape in which both sides of the body part are reduced in size toward the upper end. The tapered slot part, which is a front surface and a rear surface of the body part,
A plate-shaped flange to be assembled to a lower surface of the flange fixing portion;
A connector assembled to the lower surface of the flange;
Wherein one end of the coaxial pin passes through the flange and is connected to the center pin of the connector, and the other end includes a coaxial pin of a linear shape short-circuited in the short-
A coaxial feed line of a linear shape is formed due to the shape of the coaxial fin,
Wherein a groove having a predetermined depth across both side surfaces of the antenna portion is formed at a central portion of a lower surface of the body portion and a center portion of an upper surface of the flange fixing portion,
The flange fixing portion has a shape of an upper surface extending to a predetermined height,
The upper surface of the flange fixing portion is formed in a shape such that the rim of the lower surface of the body except for the wall portion of the through hole in the lower surface of the body portion is increased by a certain width,
And a contact portion protruding by a predetermined length is formed in the front central portion of the flange fixing portion
Wherein the tapered slot antenna is a tapered slot antenna. delete delete delete delete The method according to claim 1,
Wherein a contact surface, which is a front surface of the contact portion, is curved inwardly between both sides of the contact surface. The method according to claim 1,
Wherein a bottom surface of the body portion and an upper surface of the flange fixing portion are attached to a rear surface of the antenna portion at the center of the through hole and a wall surface of the through hole is opened at a predetermined height across both side surfaces of the antenna portion, And the upper surfaces of the flange fixing portions are spaced apart from each other by a predetermined distance. 8. The method of claim 7,
Wherein a flange fixing screw groove is formed in a bottom surface of the flange fixing portion at a position spaced apart from the through hole by a predetermined distance from the rear surface of the antenna, the flange fixing screw groove being engaged with an antenna fixing screw passing through the antenna fixing screw hole of the flange. Slot antenna. 9. The method of claim 8,
And a feed hole penetrating the lower surface and the upper surface of the flange fixing portion is formed on the flange fixing portion at a position spaced from the through hole by a predetermined distance from the front surface of the antenna. 10. The method of claim 9,
Wherein a shorting groove is formed at a position where the feed hole is formed in a lower side of a lower surface of the body so that an end of the coaxial fin passing through the feed hole is inserted at a certain depth. The method according to claim 1,
Wherein the two connector fixing screw holes formed in the flange are formed to be symmetrical with respect to both sides of the antenna unit when the antenna unit is assembled to the flange. 12. The method of claim 11,
And a coaxial pin insertion hole through which the coaxial pin passes is formed at a central portion between the two connector fixing screw holes in the flange. 13. The method of claim 12,
And one antenna fixing screw hole is formed in the flange at an angle of 90 degrees with an extension of the connector fixing screw hole toward the rear surface side of the antenna portion with the coaxial pin insertion hole as a center. The method according to claim 1,
Wherein one antenna unit is periodically arranged to implement an array antenna.

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