KR101372704B1 - Antenna assembly for updating isolation degree - Google Patents

Abstract

The present invention relates to an antenna assembly for improving antenna isolation, and more particularly, to minimize lobes of signal interference between antennas used in a communication service repeater, and in particular, to reduce the front to back ratio (FTBR) characteristics. The present invention relates to an antenna assembly having improved antenna isolation by using a reflector as a PCB substrate to minimize back-lobes, which are radiation patterns.
An antenna assembly for improving the antenna isolation of the present invention includes a grounded housing, a radio wave radiator circuitally connected to an antenna circuit portion protected by the housing and radiating or absorbing a predetermined radio wave, in a radio wave radiation direction of the radio wave radiator. An antenna assembly composed of at least one reflector formed of sidewalls extending obliquely, said antenna assembly comprising: a reflector plate comprising a PCB plate having a different frequency isolation structure and comprising at least one layer; The substrate is characterized by improving the back and side lobes for each frequency even in the multi-antenna over one frequency through the substrate using a multi-layer layer (layer) and a specific type of pattern laminated at least one or more layers.

Description

Antenna assembly for updating isolation degree

The present invention relates to an antenna assembly for improving antenna isolation, and more particularly, to minimize lobes of signal interference between antennas used in a communication service repeater, and in particular, to reduce the front to back ratio (FTBR) characteristics. The present invention relates to an antenna assembly having improved antenna isolation by using a reflector as a PCB substrate to minimize back-lobes, which are radiation patterns.

Due to the development of communication technology, various wireless communication services through wireless are provided.

Recently, as the number of subscribers of the wireless communication service increases, the number of base stations has increased significantly for smooth operation of the service.

However, because the environment of the wireless communication service is very unstable, there are still shaded areas where radio waves cannot reach.

The success of wireless communication service providers is determined by removing the shadow area more effectively at low cost.

On the other hand, the most efficient way to remove the shadow area is to use a repeater that can relay the signal between the network and the user.

Conventional service providers have maximized service by placing various types of repeaters in areas that are considered to be shadowed areas.

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On the other hand, the conventional repeater is composed of a receiving antenna (donner) and a transmission antenna (coverage).

The repeater antenna consists of a radio copier that radiates or converges radio waves and a reflector that reflects radio waves.

The reflecting plate is attached to the rear of the radio copy machine and reflects the radio wave radiated from the radio copy machine or reflects the absorbed radio wave.

Meanwhile, Korean Patent Publication No. 2006-0087800, which is a prior art, is an antenna assembly, in which an antenna assembly, in particular, minimizes side-lobes and backlobes acting as interference of an antenna for a communication service. The present invention relates to minimizing side-lobes and back-lobes that interfere with each other in antennas used in communication service repeaters, and in particular, radiation patterns having FTBR characteristics. The present invention relates to an antenna assembly using a reflector having a structure that minimizes back-lobes.

Also, Korean Laid-Open Patent Publication No. 2008-0031099 relates to an integrated communication repeater which wirelessly relays a signal wirelessly between a network and a communication terminal, in particular, and accurately and stably prevents oscillation occurring during signal relay in both directions. The present invention relates to an integrated communication repeater having a structure that minimizes radiation patterns acting as signal interference between a receiving antenna and a transmitting antenna for bidirectional signal relaying.

However, the above-described conventional inventions not only have the disadvantage of making the reflector plate made of metal, but also having a weight, bulkiness, and cost, and have a fatal problem that only one band can be selectively used.

In order to solve the above problems, an object of the present invention is to provide an antenna assembly for improving antenna isolation that can isolate several bands at once through a reflector using a PCB.

In addition, an object of the present invention is to provide an antenna assembly for improving the antenna isolation can be isolated at a time in the future by selecting a different frequency isolation structure for each LAYER using a PCB.

An antenna assembly for improving the antenna isolation of the present invention includes a grounded housing, a radio wave radiator circuitally connected to an antenna circuit portion protected by the housing and radiating or absorbing a predetermined radio wave, in a radio wave radiation direction of the radio wave radiator. An antenna assembly composed of at least one reflector formed of sidewalls extending obliquely, the antenna assembly comprising a reflector comprising a substrate (or PCB board) having different frequency isolation structures and comprising at least one layer, The substrate is characterized by improving the back and side lobes for each frequency even in a multi-antenna or more than one frequency through a substrate using a multi-layer layer (layer) and a specific type of pattern laminated at least one or more layers.

The reflector has a layer attached to one side of a housing located rearward with respect to the radio wave radiation direction of the radio wave radiator, and a sidewall extending inclined in the radio wave radiation direction of the radio wave radiator along the side of the base. It comprises at least one plate (reflector) formed by (side-wall), the bottom surface is characterized in that the polyhedron or square.

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The substrate is printed with one or more lines, either straight lines, inclined 45 degrees, or meander lines.

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According to the present invention, the antenna assembly for improving the antenna isolation improves the lobes of signal interference between antennas used in a communication service repeater and the like, and is particularly a radiation pattern having a front-to-back ratio (FTBR) characteristic. In order to minimize back-lobes, the reflector is used as a PCB substrate, and an antenna assembly having improved antenna isolation has an advantage of separating multiple bands at once.

In addition, according to the present invention, the weight and volume of the antenna assembly for reducing antenna isolation can be reduced, and the unit price can be produced at low cost.

 According to the present invention, the reflector, which is ultimately made of pcb, has an advantage of implementing various patterns for each layer.

1 is a view showing the configuration of an antenna assembly for improving antenna isolation in accordance with the present invention.
Figure 2 is a perspective view of Figure 1;
Figure 3 is a simulation showing that the implementation of the PCB in accordance with the present invention can improve the back lobe and side lobe in a variety of patterns.
Figure 4 is a measure of isolation with both antenna assemblies in accordance with the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a configuration and an operation of an embodiment of the present invention will be described with reference to the accompanying drawings, and the configuration and operation of the present invention shown in and described by the drawings will be described as at least one embodiment, The technical idea of the present invention and its essential structure and action are not limited.

In the present invention, a reflector 30 of the structure shown in FIG. 2 or the like is used to minimize lobes, in particular backlobes.

To this end, the present invention is formed with a radio wave radiator 20 for radiating or absorbing a predetermined radio wave as shown in FIGS. 1 and 2, and a side-wall extending inclined in a radio wave radiation direction of the radio wave radiator 20. At least one reflector 30 is composed of.

The present invention also provides the effects described below, including a reflector plate 30 made of a substrate (e.g., PCB board) having another frequency isolation structure and comprising at least one layer.

In detail, the reflector 30 has a layer attached to one side of a housing 10 positioned rearward with respect to the radio wave radiation direction of the radio wave radiator 20, and a side of the bottom surface. Therefore, it is configured to include at least one or more (reflector) formed by the side wall (side-wall) extending inclined in the radio wave radiation direction of the radio wave radiator 20. Here, the bottom may be a polyhedron or a rectangle.

The substrate is a multi-stage substrate laminated at least one or more layers, and one or more lines of a straight line, a 45-degree inclined line, or a meander line are printed.

The reflector plate 30 is composed of a bottom surface that is entirely attached to one side of the grounded housing 10, sidewall pieces that are inclined in a radio wave radiation direction from each side of the bottom surface, and sides that connect the sidewall pieces. . As an example, the housing 10 is an enclosure surrounding the main body of the mobile communication repeater, and is located at the rear of the radio wave radiating direction of the radio copy machine 20.

The bottom surface is entirely attached to one side of the housing 10.

1 is a side view showing the configuration of an antenna assembly for improving antenna isolation used in a communication service repeater and the like according to the present invention, and shows an example in which the antenna assembly of the present invention is applied.

1 and 2, the antenna assembly includes an antenna circuit portion. Preferably, the antenna circuit portion is a main body of a mobile communication repeater, and the antenna circuit portion is protected by a grounded housing 10.

After all, the main configuration of the antenna assembly according to the present invention is a grounded housing 10, a radio wave radiator 20 circuitry connected to the antenna circuit portion protected by the housing 10, and one side of the housing 10 It is a concave reflection plate 30 attached to the.

The radio copier 20 radiates or absorbs a predetermined radio wave.

The housing 10 is located rearward with respect to the radio wave radiation direction of the radio wave radiator 20.

In addition, the reflecting plate 30 is mounted between the housing 10 and the radio wave copier 20 while being located rearward with respect to the radio wave radiation direction of the radio wave copier 20.

The reflector plate 30, which is the core of the present invention, has a front surface attached to one side of the housing 10 (the surface on which the radio copy machine is mounted) and a radio wave of the radio copy machine 20 along the side of the bottom surface thereof. It is formed as a side-wall extending obliquely in the radial direction.

The side wall is composed of at least one side wall piece that extends obliquely to a predetermined length from the side of the bottom surface, and further side wall pieces that connect between the side walls formed by being inclinedly extended.

Meanwhile, as shown in FIGS. 1 and 2, the antenna assembly of the present invention has a structure in which a reflector formed of the bottom and sidewalls described above is stacked in one or more layers. This is a structure for manufacturing convenience of the reflecting plate.

As shown in FIG. 3, for example, a meander line has a yellow part A in the center of the antenna radiation pattern, a gray part B in the center is a ground part, and a green part C is the present invention. This is the part to be implemented as a PCB according to the reflector.

For example, the substrate may improve the back and side lobes for each frequency even in a multi-antenna having one or more frequencies through a substrate using a plurality of layers and a specific pattern of layers stacked at least one layer. .

As shown in FIG. 4, the isolation measurement diagram with both sides of the antenna assembly includes various application possibilities, and thus, various patterns for each layer can be realized by using a reflector made of a substrate.

On the other hand, as another embodiment according to the present invention, as shown in Figure 5, the front and back of the substrate 32 in a straight line to tangled the printed circuit line 34 to be able to isolate several bands at once.

In addition, as shown in FIG. 6, the printed circuit may be formed to have the same length but lower height by tilting 45 degrees to the substrate 32 of the antenna assembly for improving antenna isolation.

In this case, the two walls are soldered so that the line continues and the reverse side is crossed in the opposite direction.

In particular, in order to create a useful effect of the present invention 5 and 6 in the various patterns can be changed.

The present invention can isolate several bands at once, reduce the weight and volume of the antenna assembly, and can be produced inexpensively, thereby contributing to the communication industry of several bands to be developed in the future.

The present invention ultimately has the potential to be developed under the contribution and influence of the PCB industry by using a reflector made of pcb.

10: Housing
20: radio copier
30: reflector

Claims (5)

At least formed of a grounded housing, a radio wave radiator circuitally connected to an antenna circuit portion protected by the housing, and radiating or absorbing a predetermined radio wave, and a side wall extending inclined in the direction of radio wave radiation of the radio wave radiator; An antenna assembly consisting of one or more reflectors,
A reflector comprising a substrate having another frequency isolation structure and comprising one or more layers,
The substrate is characterized in that the back lobe and side lobe for each frequency is improved even in a multi-antenna of one or more frequencies through a substrate using at least one or more layers and a specific type of pattern. Antenna assembly for improved isolation. delete delete The method of claim 1,
Wherein:
An antenna assembly for improving antenna isolation, characterized in that at least one of a straight line, a 45 degree slanted line, or a meander line is printed. delete

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