KR20110062828A - Dual polarization dipole antenna for improving feed structure - Google Patents

Abstract

PURPOSE: A dual polarization dipole antenna for improving a power supply structure is provided to integrate a power supply unit with a printed circuit board, thereby simplifying a power supply structure. CONSTITUTION: A dual polarization dipole antenna comprises a radiation element(110) and a power supply unit(200). The radiation element is made of plurality of dipole elements. The radiation element is formed on a printed circuit board(100). The power supply unit is integrated with the printed circuit board. The power supply unit includes via holes which penetrate the printed circuit board to supply a power supply signal to the radiation element.

Description

Dual Polarization Dipole Antenna for improving feed structure}

The present invention relates to a dual polarized dipole antenna having an improved feed structure, and more particularly, a radiating element formed of a plurality of dipole elements is formed on an upper surface of a printed circuit board, and to supply a feed signal to the radiating element twice. The present invention relates to a dual polarized dipole antenna having a feed structure having a plurality of via holes penetrating the printed circuit board integrally formed on the printed circuit board to improve a feed structure.

1 is a schematic configuration diagram of a conventional dual polarized dipole antenna.

As shown in FIG. 1, in the conventional dual polarized wave dipole antenna, a radiating element 1 formed of a plurality of dipole elements is formed on an upper surface of a printed circuit board 2 and inserted into and connected to the printed circuit board 2. And a plurality of feed cables (3) for transmitting a feed signal, a plurality of baluns (4) which act as a balun in pairs with the plurality of feed cables (3), and the radiating element (1) A power supply PCB 5 having a power supply structure for feeding signals to generate double polarizations perpendicular to each other was provided.

In this case, the power supply PCB 5 is formed in the form of the two feed lines that cross each other perpendicular to each other on both the upper surface and the lower surface of the power supply PCB (5).

As described above, the conventional dual polarized dipole antenna uses a separate feeder PCB so that two feed lines which are orthogonal to each other are not connected to each other, so that the number of parts increases and the manufacturing process accordingly increases production efficiency. There is a problem, and at the same time, the soldering process of the radiating element formed on the upper surface of the printed circuit board and the PCB for feeding increases, thereby causing a problem of mutual modulation distortion.

Therefore, in order to double feed the signal to the dual polarized dipole antenna, the feed structure including the feeder PCB is improved to reduce the number of parts and simplify the manufacturing process, thereby increasing production efficiency and preventing intermodulation distortion. High technology is desperately required.

Accordingly, the present invention has been made to solve the above problems, the present invention is formed with a radiating element consisting of a plurality of dipole elements on the upper surface of the printed circuit board, to supply the feed signal to the radiating element in a double It is an object of the present invention to provide a dual polarized dipole antenna having a plurality of via holes penetrating through a printed circuit board integrally formed on the printed circuit board to simplify a feeding structure.

In addition, by feeding the signal to the radiating element formed on the upper surface of the printed circuit board without a separate feeder board and consisting of a plurality of dipole elements, the number of parts and manufacturing process is reduced, and the manufacturing cost is reduced accordingly. At the same time, it is an object to provide a dual polarized dipole antenna that prevents intermodulation distortion.

In order to achieve the above object, a dual polarized dipole antenna having an improved feeding structure according to an embodiment of the present invention includes a radiating element formed of a plurality of dipole elements and formed on an upper surface of a printed circuit board; And a feeding part including a plurality of via holes penetrating through the printed circuit board to supply a feed signal to the radiating element in a double manner and integrally formed with the printed circuit board.

As described above, according to the present invention, a plurality of via holes are formed on a top surface of a printed circuit board, and a plurality of via holes penetrate the printed circuit board to supply a feed signal to the radiating device. The provided feeder is integrally formed on the printed circuit board, thereby providing a dual polarized dipole antenna with a simplified feeding structure.

In addition, by feeding the signal to the radiating element formed on the upper surface of the printed circuit board and consisting of a plurality of dipole elements without using a separate power feeding substrate, it reduces the number of parts and the manufacturing process, thereby reducing the manufacturing cost. At the same time, there is an effect of providing a dual polarized dipole antenna that prevents intermodulation distortion.

A dual polarized dipole antenna having an improved feeding structure according to the present invention comprises a radiating element formed of a plurality of dipole elements and formed on an upper surface of a printed circuit board; And a feeding part including a plurality of via holes penetrating through the printed circuit board to supply the feed signal to the radiating element in a double manner and integrally formed with the printed circuit board.

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

2 is an overall configuration diagram of a dual polarized dipole antenna having an improved power supply structure according to an embodiment of the present invention.

As shown in the figure, the dual polarized dipole antenna with improved feeding structure according to an embodiment of the present invention, the radiation element 110 is formed of a plurality of dipole elements formed on the upper surface of the printed circuit board 100 And a feed part 200 including a plurality of via holes penetrating through the printed circuit board 100 to supply a feed signal to the radiating element 110 in a double manner and integrally formed with the printed circuit board 100. It is made, including.

In addition, the dual polarized dipole antenna having improved feeding structure according to an embodiment of the present invention, the first feed cable 101, the second feed cable 102, the first balun portion 103, the second balun portion ( 104, a support 105, and a reflector 106.

In more detail, the radiating element 110 is formed on the upper surface of the printed circuit board 100 and supplies a feed signal to the radiating element 110 by using a via hole penetrating through the printed circuit board 100. The power feeding unit 200 is formed integrally with the printed circuit board 100 and is located at a height apart from the reflecting plate 106 by a quarter wavelength λ.

Here, the plurality of dipole elements are formed of first to fourth folded dipole elements 111, 112, 113, and 114 each having a radiating part and a parallel feed line part, and the first to fourth folded dipole elements 111, 112, 113, and 114 are continuously connected to each other. To form a square structure, thereby generating a double polarized wave having + 45 ° and -45 ° by a signal fed double in the feed part 200.

On the other hand, according to an embodiment of the present invention, the first feed cable 101 is formed by being inserted into the printed circuit board 100 in order to transfer the first feed signal to the feed unit 200, the first The balun part 103 is formed in a pair in a one-to-one correspondence with the first feed cable 100 and is inserted and connected to the printed circuit board 100, and the second feed cable 102 is the feed part 200. In order to transmit a second feed signal to the printed circuit board 100 is inserted and connected, the second balun portion 104 corresponds to the second feed cable 102 in a pair to form the printing The support part 105 is formed to be inserted into and connected to the circuit board 100, and the support part 105 includes the first feed cable 101, the first balun part 103, the second feed cable 102, and the second balun part. It is formed to support and secure the 104.

In this case, the first feed cable 101, the first balun part 103, the second feed cable 102, and the second balun part 104 are fixed to the support part 105 by soldering or the like. do.

Due to its symmetrical structure, the dipole antenna requires an additional structure called a balun to balance impedance between the positive feed signal and the negative feed signal when feeding the coaxial line. Accordingly, the first feed cable 101, the first balun portion 103, the second feed cable 102, and the second balun portion 104 are fixed to the support portion 105 made of a metallic material by soldering so as to be parallel to each other. The balun structure is achieved by installing grounding while maintaining.

In one embodiment of the present invention, the first feed cable 101 and the second feed cable 102 are each implemented as a coaxial cable including an inner conductor serving as a signal line and an outer conductor serving as a grounding line. The support part 105 is bolted in a state where the first feed cable 101, the first balun part 103, the second feed cable 102, and the second balun part 104 connected to the printed circuit board are fixed by soldering. -It is stably fastened to the reflective plate 106 of the conductive material using a nut structure.

In addition, the support portion 105 such that the first feed cable 101 and the first balloon portion 103 are parallel to each other, and the second feed cable 102 and the second balloon portion 104 are parallel to each other. It is fixed to).

3 to 4 are views showing the configuration and the power supply structure of the upper and lower surfaces of the printed circuit board according to an embodiment of the present invention.

The lower surface of the printed circuit board 100 shown in FIG. 4 rotates the upper surface of the printed circuit board 100 shown in FIG.

As shown in the figure, the radiating element 110 is formed on the upper surface of the printed circuit board 100 and the first to fourth folded dipole elements (111, 112, 113, 114) are connected in series to have a square structure, and And a feed part 200 which supplies a feed signal to the radiating element 110 using a via hole penetrating the printed circuit board 100 and is integrally formed with the printed circuit board 100.

In more detail, the first to fourth folded dipole elements 111, 112, 113, and 114 include first to fourth radiating parts 121, 122, 123, and 124, and first to fourth parallel feed line parts 131, 132, 133, and 134, and the feed part A feed signal is induced to the first to fourth radiating parts 121, 122, 123, and 124 via the first to fourth parallel feed line parts 131, 132, 133, and 134 by the signal fed by the dual feed.

The first to fourth radiators 121, 122, 123, and 124 have a length of 1/2 wavelength λ, respectively, and the first to fourth radiators 121, 122, 123, and 124 have 1/4 wavelengths from the feed part 200. The first to fourth parallel feed line portions 131, 132, 133, and 134 have a length of ¼ wavelength, respectively, because they are spaced apart by λ.

In addition, the feeder 200 includes a first feed hole 211 to which the inner conductor of the first feed cable 101 is inserted and connected; A second feed hole 221 to which an inner conductor of the second feed cable 102 is inserted and connected; A first ground via hole 212 through which an outer conductor of the first feed cable 101 penetrates the printed circuit board 100 from the bottom to an upper vertical direction; A second ground via hole 222 through which an outer conductor of the second feed cable 102 penetrates the printed circuit board 100 from the bottom to an upper vertical direction; A first balun hole 213 connected to the first balun part 103 and paired one-to-one with the first feed hole 211; A second balun hole 223 connected to the second balun part 104 and paired one-to-one with the second feed hole 221; A first connection via hole 224 formed to be spaced apart from the second feed hole 221 by a predetermined distance to connect the inner conductor of the second feed cable 102 and the second balun hole 223 to each other; And the first connection via hole 224 and the first conductor via hole 224 and are formed to be spaced apart from the second balun hole 223 to connect the inner conductor of the second feed cable 102 and the second balun hole 223 to each other. And a second connection via hole 225 paired in a one-to-one correspondence.

Here, the feed unit 200, the first feed hole 211 and the first balun hole 213 are connected to each other and formed in a predetermined shape on the upper surface of the printed circuit board 100 1 printed circuit pattern 230; A first connection pattern 241 connecting the second feed hole 221 and the first connection via hole 224 to each other and formed in a predetermined shape on an upper surface of the printed circuit board 100; A second connection pattern 242 connecting the second balun hole 223 and the second connection via hole 225 to each other and formed in a predetermined shape on an upper surface of the printed circuit board 100; And a third connection pattern 243 connecting the first connection via hole 224 and the second connection via hole 225 to each other and formed in a predetermined shape on the lower surface of the printed circuit board 100. Include.

At this time, on the lower surface of the printed circuit board 100, the first circular circuit pattern 251 surrounding the first balun hole 213 in a circular shape and spaced apart a predetermined distance from the first feed hole 211 A second circular circuit pattern 252 including the first ground via hole 212 and encircling in a circle, a third circular circuit pattern 253 enclosing the second balun hole 223 in a circle, and the first A third circular circuit pattern 254 including the second ground via hole 222 and being enclosed in a circular shape and spaced apart from the second power supply hole 222 by a predetermined distance is spaced apart from the third connection pattern 243 by a predetermined distance. Is formed.

In addition, the first balun hole 213 and the second balun hole 223 are connected in pairs to the first parallel feed line part 131 constituting the first folded dipole element 111, respectively.

In this case, when a signal is supplied to the feeder 200 in a double manner, the first balun hole 213 and the second balun hole 223 constitute the first to fourth folded dipole elements 111, 112, 113, and 114, respectively. It is electrically connected to the parallel feed line part.

Therefore, when a first feed signal is applied to the first feed cable 101, the first feed signal is transmitted from the first feed hole 111 to the first balun hole through the first printed circuit pattern 230. The second feed signal is transmitted to the radiating element 110 via 113 and the second feed signal is connected to the first feed hole from the second feed hole 221 when the second feed signal is applied to the second feed cable 102. The pattern 241, the second connection pattern 242, and the third connection pattern 243 are transferred to the radiating element 110 via the second balun hole 223.

Referring to FIGS. 5 to 6, the operation of the dual polarized dipole antenna having an improved power supply structure according to an embodiment of the present invention will be described.

FIG. 5 is a diagram illustrating a current flow when a first feed signal is applied to a first feed cable 101 of a dual polarized dipole antenna having an improved feed structure according to an embodiment of the present invention. Similarly, a positive current is applied to the first feed hole 111 and a negative current is applied to the first ground via hole 112, and the first to fourth folded dipole elements 111, 112, 113, and 114 are applied by the applied current. The direction of the current is formed, and the direction of the electric field of each part is formed by the direction of the current, and the electric field of each of the formed parts is formed with the polarization direction at + 45 ° by vector synthesis.

FIG. 6 is a diagram illustrating a current flow when a second feed signal is applied to a second feed cable of a dual polarized dipole antenna having an improved feed structure according to an embodiment of the present invention. A positive current is applied to the power supply hole 221 and a negative current is applied to the second ground via hole 222, and a current direction is formed in the first to fourth folded dipole elements by the applied current. The direction of the electric field of each part is formed by the direction of the current, and the electric field of each of the formed parts has a polarization direction at −45 ° by vector synthesis.

As described above, in the dual polarization dipole antenna having improved feeding structure according to an embodiment of the present invention, the plurality of dipole elements are continuously connected and have a single pattern and are formed by the flow of current supplied from the feeding part. Polarization is formed by vector synthesis of an electric field, and polarization directions of + 45 ° and -45 ° are formed by a double-feeding signal to form a double polarization.

As described above, in the present invention, a radiating element formed of a plurality of dipole elements is formed on an upper surface of a printed circuit board, and has a plurality of via holes penetrating the printed circuit board to supply a feed signal to the radiating element twice. The feeder is integrated with the printed circuit board to provide a dual polarized dipole antenna with a simplified feeding structure.

In addition, by feeding the signal to the radiation element consisting of a plurality of dipole elements formed on the upper surface of the printed circuit board without using a separate power supply board, the number of parts and manufacturing process is reduced, and the manufacturing cost is reduced accordingly. At the same time, there is an effect of providing a dual polarized dipole antenna that prevents intermodulation distortion.

The present invention has been described in detail so far, but the embodiments mentioned in the process are only illustrative and are not intended to be limiting, and the present invention is provided by the following claims and the technical spirit and field of the present invention. Within the scope not departing from the scope of the present invention, changes in the components that can be coped evenly will fall within the scope of the present invention.

1 is a schematic configuration diagram of a conventional dual polarized dipole antenna

2 is an overall configuration diagram of a dual polarized dipole antenna having an improved power supply structure according to an embodiment of the present invention.

3 is a view showing the configuration and the feeding structure of the upper surface of the printed circuit board according to an embodiment of the present invention

4 is a view showing a configuration and a feeding structure of a lower surface of a printed circuit board according to an embodiment of the present invention;

5 is a diagram illustrating a current flow when a first feed signal is applied to a first feed cable of a dual polarized dipole antenna having an improved feed structure according to an embodiment of the present invention.

6 is a diagram illustrating a current flow when a second feed signal is applied to a second feed cable of a dual polarized dipole antenna having an improved feed structure according to an embodiment of the present invention.

* Description of the main drawing codes *

1: radiating element 2: printed circuit board

3: feed cable 4: balun part

5: PCB for power supply 100: printed circuit board

101: first feed cable 102: second feed cable

103: first balloon portion 104: second balloon portion

105: ground portion 106: reflector

110: radiating element

111 to 114: first to fourth folded dipole elements

121 to 124: first to fourth radiating parts

131 to 134: first to fourth parallel feed line portions

200: feeder 211: first feed hole

212: first ground via hole 213: first balun hole

221: second feed hole 222: second ground via hole

223: second balun hole 224: first connecting via hole

225: second connection via hole 230: first printed circuit pattern

241: first connection pattern 242: second connection pattern

243: third connection pattern 251: first circular circuit pattern

252: second circular circuit pattern 253: third circular circuit pattern

254: fourth circular circuit pattern

Claims (4)

A radiation element formed of a plurality of dipole elements and formed on an upper surface of the printed circuit board; And Improving a power supply structure comprising a; feeder which is formed integrally with the printed circuit board and a plurality of via holes penetrating the printed circuit board to supply the feed signal to the radiating element double Dual polarized dipole antenna. The method according to claim 1, wherein the power supply unit, A first feeding hole to which an inner conductor of the first feeding cable which transmits the first feeding signal is inserted and connected; A second feeding hole to which an inner conductor of a second feeding cable which transmits a second feeding signal is inserted and connected; A first ground via hole through which the outer conductor of the first feed cable penetrates the printed circuit board from the lower portion to the upper vertical direction; A second ground via hole through which the outer conductor of the second feed cable penetrates the printed circuit board from the lower portion to the upper vertical direction; A first balun hole paired one-to-one with the first feed hole and paired with the first feed hole; A second balun hole paired one-to-one with the second feed hole; A first connection via hole formed to be spaced apart from the second feed hole by a predetermined distance to connect the inner conductor of the second feed cable and the second balun hole to each other; And And a second connecting via hole formed to be spaced apart from the second balun hole by a predetermined distance to connect the inner conductor of the second feed cable and the second balun hole to each other, and paired one-to-one with the first connecting via hole. The dual polarized dipole antenna with improved feed structure, characterized in that consisting of. The method according to claim 2, The power supply unit, A first printed circuit pattern connecting the first feed hole and the first balun hole to each other and formed in a predetermined shape on an upper surface of the printed circuit board; A first connection pattern connecting the second feed hole and the first connection via hole to each other and formed in a predetermined shape on an upper surface of the printed circuit board; A second connection pattern connecting the second balun hole and the second connection via hole to each other and formed in a predetermined shape on an upper surface of the printed circuit board; And And a third connection pattern connecting the first connection via hole and the second connection via hole to each other and formed in a predetermined shape on a lower surface of the printed circuit board. Dipole Antenna. The method according to claim 1, wherein the plurality of dipole elements, A dual polarized dipole antenna having a single polar pattern which is continuously connected and forms a double polarized wave by vector synthesis of an electric field formed by a flow of current supplied from the feed portion.

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