KR200489935Y1 - Passive RF Relay For Coverage Extension - Google Patents

Abstract

에 따라 산출되는 것이다. 본 고안에 따르면, 수동형 중계기(Passive Relay)를 통해 디지털 처리 기술 없이 입사 신호에 대한 반사 신호의 각도를 변경하여 실내(In-building) T자형 복도나 외부(Outdoor) 건물의 이면지역 등 음영지역을 저비용(Low Cost)으로 해소할 수 있다.The present invention relates to a passive wireless repeater of 3.5 GHz or 28 GHz band suitable for clearing the invisible distance shadow area. Passive repeater of the present invention, the reflection plate for forming a unique reflection pattern to reflect the incident wave incident to the front left and right to solve the shadow area; A photograph for camouflage the reflector to improve aesthetics; And a picture frame for disguising the passive wireless repeater as a picture frame. The reflective pattern has an array shape in which a plurality of rectangular groove patterns having protruded upper corners are arranged, and the groove pattern includes a width (a) of the protrusion, a distance (b) between the protrusions, and a width (c) of the furrow. , The depth of the projection (slot_g1), the depth of the furrow (slot_g2), the groove length (Slot_h), the groove period (λ) of the maximum reception level from the signal of the predetermined center frequency band, the signal that the incident signal returns to the base station Is calculated as the optimal combination of parameters that are sufficiently suppressed, the width a of the projection

It is calculated according to. According to the present invention, a shaded area such as an in-building T-shaped corridor or the backside area of an outdoor building is changed by changing the angle of a reflected signal with respect to an incident signal without a digital processing technology through a passive relay. It can be eliminated at low cost.

Description

Passive RF Relay For Coverage Extension

The present invention relates to a repeater technology for mobile communication, and more particularly, when the position between the base station and the terminal is a non-line of sight (Passive RF Relay) the visible region between the base station and the terminal (Passive RF Relay) Line Of Sight) This technology relates to the creation of bypass routes to eliminate shadow areas due to path loss and to expand service coverage.

In general, a mobile communication repeater economically transmits a base station signal to a remote location or a shadow area without additionally constructing a base station, and is mainly used to solve a shadow area and to enlarge a cell size (coverage).

In the low frequency band below 6 GHz, which is mainly used in mobile communication, it is already saturated or fragmented by existing systems such as mobile communication, broadcasting, and satellite communication, so it is difficult to secure ultra-wide bandwidth frequency for large data transmission.

Therefore, in the next generation (5G) mobile communication, the millimeter wave (mmwave) of the 28 GHz band along with the 3.5 GHz band is registered as a standard candidate frequency band, and the research and development of the millimeter wave antenna is actively progressing.

However, in the case of the 28 GHz band, there is an advantage of using a wide band frequency compared to the current cellular band, but there is a high possibility of the shadow area due to the increased path loss, high straightness, and low diffraction characteristic of the high frequency band. There is this. In other words, the millimeter wave (mmWave) band has very strong straightness but weak diffraction, so in a non line of sight (NLOS) environment, if the base station and the terminal do not operate the appropriate transmit / receive beams according to the position change of the terminal, communication is not possible. It won't work. In particular, in urban environments, it is important to minimize the possible invisible distance communication area because the ratio of the invisible distance communication environment increases according to the distribution of roads, surrounding buildings, roadside trees, and vehicles.

KR 10-2017-0025422 A KR 10-1156993 B1

The present invention has been proposed to meet the necessity of the above, and is easy to install without harming the aesthetics of the indoor environment and passive radio in the 3.5 GHz band or the 28 GHz band, which is suitable for eliminating the invisible shadow areas such as the T-shaped corridor. To provide a repeater.

In order to achieve the above object, the passive repeater of the present invention includes a reflection plate for resolving the shadow area by reflecting the incident wave incident to the left and right to form a unique reflection pattern; A photograph for camouflage the reflector to improve aesthetics; And a picture frame for disguising the passive wireless repeater as a picture frame.

에 따라 산출되는 것이다.The reflective pattern has an array shape in which a plurality of rectangular groove patterns protruding from upper corners are arranged, and the groove pattern includes a width (a) of the protrusion, a space (b) between the protrusions, and a width of the furrow (c). ), The depth of the projection (slot_g1), the depth of the furrow (slot_g2), the groove length (Slot_h), the groove period (λ), the maximum reception level from the signal of the predetermined center frequency band, and the incident signal is returned to the base station. When calculating the optimal combination of parameters whose signals are sufficiently suppressed, the width a of the projection is

It is calculated according to.

According to the present invention, even when the location between the base station and the terminal is in the non-line of Sight, the generation of a line of sight bypass path between the base station and the terminal is generated through a passive RF relay of 28 GHz or 3.5 GHz band. Through this, the coverage area can be extended by eliminating the shadow area caused by the 28GHz or 3.5GHz path loss.

In addition, the present invention changes the angle of the reflected signal with respect to the incident signal without the digital processing technology through the passive relay, thereby shading the interior area of the T-shaped corridor or the back of the outdoor building. The advantage is that the area can be resolved at low cost.

1 is an exploded perspective view of parts of a manual repeater according to the present invention;
2 is an assembled perspective view of a passive repeater according to the present invention,
3 is a rear view of the passive repeater according to the present invention,
4 is a view showing a reflection array pattern of the passive repeater according to the present invention,
5 is a view for explaining a design parameter of the reflection pattern shown in FIG.
Figure 6 is a schematic installation diagram of a passive repeater according to the present invention,
7 is a bidirectional branching pattern of the planar reflection array according to the present invention.

The technical problem achieved by the present invention and the implementation of the present invention will be more clearly understood by the preferred embodiments of the present invention described below. The following examples are merely illustrated to illustrate the present invention and are not intended to limit the scope of the present invention.

1 is an exploded perspective view of parts of a passive repeater according to the present invention, Figure 2 is an assembled perspective view of the passive repeater according to the present invention, Figure 3 is a rear view of the passive repeater according to the present invention.

The passive wireless repeater 100 of the 28 GHz band for eliminating the indoor shadow area according to the present invention is a reflection plate 110, a photo 120, a transparent cover 130, a frame frame ( 140 is sequentially laminated and assembled to form a flat picture frame (picture frame) fastened by screws 102, so that it can be installed as a fixing frame 104 on the wall surface of the indoor corridor and the like.

1 to 3, the reflector 110 has a plurality of groove-shaped reflection patterns arranged to reflect the incident wave incident to the front at an angle of about 80 to 90 ° to the left and the right. The shadow area can be eliminated in the T-shaped corridor of In-Building or in the back area of an outdoor building.

Photo 120 is to camouflage the reflecting plate 110 to improve the aesthetics, the transparent cover 130 is to implement the transparent plastic or glass to protect the front of the photo, the frame frame 140 is made of plastic It is implemented as a tree to disguise a passive wireless repeater as a picture frame.

4 is a view showing a reflection array of the reflection plate of the passive repeater according to the present invention, Figure 5 is a view for explaining the design parameters of the reflection pattern shown in FIG.

As shown in FIG. 4, the reflective array of the reflector according to the present invention has a shape in which a plurality of rectangular groove patterns 112 having protrusions 114 formed on both upper corners thereof are arranged in a row.

4 and 5, the array of groove patterns 112 of the reflector according to the present invention is as shown in FIG. 5, the width (a) of the protrusions 114, the spacing (b) between the protrusions, and the width of the furrows. (c) Designed with parameters of the depth of the protrusion slot_g1, the depth of the furrow slot_g2, the groove length Slot_h, the number of grooves, and the groove period?. This parameter value was calculated as the optimal combination of the maximum reception level and the parameter that the signal from which the incident signal returns to the base station is sufficiently suppressed. In the embodiment of the present invention, the parameter value (units optimized for the mobile communication characteristics of the 28 GHz band) mm) is shown in Table 1 below.

Parameter Optimal value Optimal range  Remarks a 0.85 0.5-1.5 Width of the projections (obtained from Equation 1) b 4 2 ~ 6 Spacing between protrusions 114 c 5 3 ~ 8 Width of furrow factor 28 25-30 Number of grooves (the higher the value, the better the directivity characteristic) λ 10.7 8-12 Groove period (28 GHz as the center frequency) Slot_g1 One 0.8 ~ 1.2 Depth of protrusion Slot_g2 6 4 ~ 8 Depth of furrow Slot_H 200 180-220 Groove length (the higher the value, the better the directivity characteristic)

Width (a) of the projection in Table 1 can be obtained by the following equation (1).

And the passive repeater 100 according to the present invention implemented with such a parameter value shows a propagation characteristic as shown in FIG. 7 is a bidirectional branching pattern diagram using a planar reflective array according to the present invention. Referring to FIG. 7, the RF signal incident at the 0 degree point includes the width (a) of the protrusion of the groove pattern, the distance between the protrusions (b), the width of the furrow (c), the depth of the protrusion (slot_g1), and the depth of the furrow ( slot_g2), the length of the groove (Slot_h), etc., can be seen to be reflected in both directions of −90 degrees and +90 degrees as shown in the pattern graph of FIG. 7.

6 is a schematic installation diagram of a passive repeater according to the present invention.

The passive repeater 100 according to the present invention is installed in the T-shaped corridor as shown in FIG. 6, and reflects the incident beam Si transmitted from the base station 10 or the active repeater approximately 80 to 90 ° in the left direction. The reflection beam So_L is formed, and the right reflection beam So_R is formed by reflecting approximately 80 to 90 degrees in the right direction.

That is, in the case of the T-shaped corridor structure, the mobile communication radio waves in the 28 GHz band are straight and can reach only the visible distance region of the central corridor, so that the left corridor and the right corridor are hidden to form a shaded region. If the center 100 is installed at the central position, the incident beam Si transmitted from the base station 10 is reflected to the left and right sides by the reflector 100 of the present invention, and the reflection beams So_L and So_R are formed in the shaded area to shade the shadows. Enables local terminals 20-1, 20-2 to communicate.

Therefore, according to the present invention, even when the location between the base station and the terminal is a non-line of sight (Non-Line of Sight), the generation of a line of sight bypass path between the base station and the terminal through a 28 GHz passive RF relay Through this, service coverage can be extended by eliminating shadow area caused by 28GHz path loss.

The present invention has been described with reference to one embodiment shown in the drawings with reference to the 28 GHz band, but those skilled in the art can be modified to various other center frequencies and equivalent other embodiments therefrom. Will understand.

10: base station 20-1,20-2: mobile terminal
100: passive repeater 102: screw
104: wall fixing frame 110: reflector
112: groove pattern 114: protrusion
120: Photo 130: Transparent Cover
140: frame frame

Claims (3)

Reflective plate to form a unique reflection pattern to reflect the incident wave incident to the front left and right, to solve the shadow area, to improve the aesthetics by camouflage the reflecting plate, the passive wireless repeater as a picture frame In the passive wireless repeater for eliminating the indoor shadow area including a picture frame for camouflage,
The reflection pattern is,
The rectangular groove pattern with the upper both corners protruding is arranged in an array shape,
The groove pattern is,
The width of the protrusions (a), the distance between the protrusions (b), the width of the grooves (c), the depth of the protrusions (slot_g1), the depth of the grooves (slot_g2), the groove length (Slot_h), the groove period (λ) In the case of calculating the optimum combination of the maximum reception level of the signal in the center frequency band and the parameter in which the incident signal is returned to the base station sufficiently, the width of the projection (a) is expressed by the following equation.

Passive wireless repeater for solving the indoor shadow area, characterized in that calculated according to. delete delete

Images