KR100706082B1 - Method for installing repeater of mobile phone using air-conditioner pipeline - Google Patents

Abstract

The present invention relates to a repeater installation method of a mobile terminal using an air conditioner pipe, and in particular, the refrigerant piping of the air conditioner installed when the repeater of the mobile terminal is installed as a signal transmission path in order to solve the shadow area of the radio wave generated in the downtown area. By using the cable, there is no need for cable laying, thereby minimizing damage to buildings and aesthetics and in some cases, a single donor antenna and an RF repeater can serve a plurality of indoor spaces. As described above, the present invention provides a donor antenna in a direction of a base station for a mobile communication service in a shaded area in a building where the sensitivity of radio waves is weak or not reached at all, and a forward amplifier for amplifying a forward signal of a mobile terminal from a base station and a base station from a mobile terminal. An RF repeater including a reverse amplifier for amplifying a reverse signal, and a repeater for a mobile terminal comprising a service antenna in a mobile terminal direction, comprising: connecting the donor antenna, the RF repeater and the service antenna to an RF feed line, The feeder is connected to the RF repeater and the service antenna by using the refrigerant pipe of the air conditioner installed in the shaded area in the building to the area where the mobile communication service is intended.

Mobile terminal, repeater, antenna, amplifier, shaded area

Description

METHOOD FOR INSTALLING REPEATER OF MOBILE PHONE USING AIR-CONDITIONER PIPELINE}             

1 is a view showing a repeater installation method of a mobile terminal according to the prior art.

Figure 2 is a view showing a repeater installation method of a mobile terminal using an air conditioning pipe according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: base station 20: donor antenna

22: RF repeater 24: service antenna

26: RF feed line 28: filter

30: indoor unit 32: outdoor unit

34: refrigerant piping

The present invention relates to a repeater installation method of a mobile terminal using an air conditioner pipe, and more particularly, to signal a refrigerant pipe of an air conditioner installed when the repeater of the mobile terminal is installed in order to solve the shadow area of the radio wave that may occur in the downtown area. In order to minimize the damage to the building and aesthetics by using cable as a transmission path, it is possible to install a repeater of a mobile terminal using air conditioner piping to minimize the damage to buildings and aesthetics and to service a plurality of indoor spaces with a single donor antenna and an RF repeater. It is about.

In general, a mobile communication system divides an entire service area into a plurality of base station (BS) areas to form cells, which are small service areas, and converts these base stations into mobile switching centers (MSCs). Centralized control allows the subscriber to continue the call while moving from cell to cell.

In urban centers with high-rise buildings and complex road structures, small shades may be generated that were not expected in the actual design stage, and shaded regions may be generated by converting service areas according to traffic. Since these shaded areas are generated by the feature, even if the transmission power of the base station is increased, they are not eliminated. However, if the base station is installed in each shaded area, unnecessary cost is generated too much.

In mobile communication systems, repeaters are used to support mobile communication services in a shadow area where the sensitivity of radio waves is weak or not reached at all. Repeaters are used in conjunction with base stations. Within the urban environment, behind skyscrapers, the basement of the building, inside the subway, tunnels and some suburban areas.

On the other hand, the operator of the mobile communication system should properly adjust the direction and tilt of the repeater antenna (Antenna) installed in the shadow area, so that the repeater can effectively solve the shadow area.

However, when arbitrarily adjusting the direction or inclination of the antenna, this causes a problem that the propagation environment in the vicinity is changed and the optimization of the entire service area needs to be performed again. In the repeater installation method and optimization method according to the prior art operating as described above, if the direction and inclination of the repeater antennas installed in the shaded area cannot be properly adjusted, the optimization of the neighboring area must be performed again, and the neighboring cell area is There was a problem that a new shaded area could be reduced and reoccurred.

In addition, when the mobile terminal repeater is installed in a building in an urban environment, as shown in FIG. 1, since the construction is performed by damage / restoration of the building in order to install an RF cable, the construction is caused by the deterioration of aesthetics and the rise of aeration equipment. There are problems such as difficulty and backlash.

In addition, since only one repeater can be interlocked from one external donor antenna, only one space can be serviced by one small output RF repeater. As shown in FIG. There was a problem that the construction by the damage / restoration of the building to install the and install the RF cable.

The present invention was devised to solve the problems of the prior art as described above, and utilizes a refrigerant pipe of a pre-installed air conditioner as a signal transmission path when installing a repeater of a mobile terminal to solve a shadow area of radio waves that may occur in a downtown area. It provides a method of installing a repeater for a mobile terminal using air conditioner piping that minimizes damage to buildings and impairs aesthetics by eliminating cables, and in some cases serves a single donor antenna and an RF repeater. There is this.

In order to achieve the above object, the present invention provides a donor antenna in a direction of a base station for a mobile communication service in a shaded area in a building in which radio waves have low or no sensitivity and a forward signal for amplifying a forward signal of a mobile terminal from a base station. An RF repeater comprising an amplifier and a reverse amplifier for amplifying a reverse signal of a base station from a mobile terminal, and a repeater of the mobile terminal comprising one or more service antennas having a mobile terminal direction, the donor antenna and the RF repeater and one Connecting the above-mentioned service antenna to an RF feed line, connecting the RF repeater to at least one service antenna using a refrigerant pipe of an air conditioner installed in a shaded area within a building to a region where a mobile communication service is to be provided; Installing a filter to prevent noise and surge in the place where the RF feed line is first connected to the refrigerant pipe of the air conditioner; Connecting the RF feeder to a refrigerant pipe of an air conditioner connected to a plurality of indoor units to connect an RF repeater and at least one service antenna; Optimizing the amplifier gain and operation of the RF repeater after adjusting a donor antenna toward the base station and at least one service antenna having a mobile terminal direction; Adjusting the direction and inclination of the donor antenna and one or more service antennas; And narrowing the horizontal beam width of the one or more service antennas to reduce interference to neighboring base stations.

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The adjusting of the gain of the RF repeater may include setting a gain of the forward amplifier to a maximum value in consideration of characteristics of the forward amplifier; Setting a gain value having an optimal amplification state through stepwise gain adjustment of the amplifier; And setting the gain of the reverse amplifier to a value equal to the gain of the forward amplifier.

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As such, the present invention does not require the cable installation by utilizing the refrigerant pipe of the air conditioner installed as a signal transmission path when installing the repeater of the mobile terminal in order to solve the shadow area of the radio wave that may occur in the downtown area, thereby preventing building damage and aesthetics. Minimize the number of cases and service multiple indoor spaces with one donor antenna and RF repeater.

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

2 is a view showing a repeater installation method of a mobile terminal using an air conditioning pipe according to the present invention.

As shown in FIG. 2, the present invention moves from the base station 10 and the donor antenna 20 toward the base station 10 for the mobile communication service in the shaded area in the building where the sensitivity of the radio wave is weak or not reached at all. RF repeater 22 including a forward amplifier (not shown) for amplifying the forward signal of the terminal and a reverse amplifier (not shown) for amplifying the reverse signal of the base station 10 from the mobile terminal, and a service antenna for the mobile terminal ( In the repeater installation method of the mobile terminal consisting of 24, the donor antenna 20 and the RF repeater 22 and the service antenna 24 is connected to the RF feed line 26, the RF feed line 26 is a building The RF repeater 22 and the service antenna 24 are connected to each other by using the refrigerant pipe 34 of the air conditioner installed in the shaded area to the area where the mobile communication service is intended.

In particular, when the RF repeater 22 and the service antenna 24 are connected to the RF feed line 26 using the refrigerant pipe 34 of the air conditioner installed in the building, the RF feed line ( Further, a filter 28 for preventing noise and surge is further provided at the place where 26 is first connected.

In addition, in the present invention, when the air conditioner is a multi-air conditioner, as shown in FIG. 2, one donor antenna 20 and an RF repeater 22 are connected to an RF feed line 26, and the RF repeater 22 is provided. And a plurality of service antennas 24 connected to the RF power supply line 26, and the RF power supply line 26 is connected to the refrigerant pipe 34 of the air conditioner connected to the plurality of indoor units 30 to one RF repeater 22. And a plurality of service antennas 24 are installed.

The RF repeater 22 amplifies the forward signal from the base station and transmits the signal to a shaded area where normal service cannot be performed due to a low level of received radio waves, or conversely, a reverse signal received from a mobile terminal in the shaded area. Amplifies and transmits the signal to the base station 10 to amplify the radio link between the base station 10 and the terminal.

Therefore, the present invention properly selects the position of the repeater so that the RF repeater 22 can receive and transmit the correct signal, and properly adjusts the donor antenna, the service antenna and the amplifier operation of the RF repeater so that the repeater shades. Effectively resolve the area.

As described above, the present invention adjusts the donor antenna 20 toward the base station 10 and the service antenna 24 toward the mobile terminal when the mobile telephone repeater is installed so that the repeater can effectively solve the shadow area. It adjusts the amplifier gain of and has a process of optimizing the operation of the RF repeater (22).

Here, in the antenna adjustment, the donor antenna 20 adjusts the direction and inclination of the donor antenna 20 in order to receive the signals of the neighboring base station antennas well, and the shadow area in which the service antenna 24 intends to perform a mobile communication service. Adjust the direction and inclination of the service antenna 24 to face the direction of.

The service antenna 24 in the direction of the mobile terminal should be installed in the direction to be serviced, that is, in the direction of the shaded area. For this purpose, the shaded area must be accurately identified through sufficient field test in advance. In order to accurately identify the shaded area, it is necessary to collect data on narrow roads, and to collect both idle and call data, so that it can be compared before and after repeater operation.

When installing the service antenna 24 should be installed in consideration of the isolation (Isolation) with the donor antenna (20). Two antennas are insulated, preferably via vertical isolation. The level at the time of insulation is 15dB higher than the gain of the repeater.

Since shaded areas generally occur in urban areas with complex buildings and road structures, repeaters are also installed in the shaded areas of downtown areas. In the city center, the radius of a cell served by each base station is generally about 1 km. In the city center, since the cell is small, the height of the building in the cell is high, and the density is high, the repeater receives a plurality of base station signals through multipath. . As described above, in the downtown area, the service area is severely changed by a plurality of propagation paths. Therefore, repeaters should be installed in areas that can respond to changes in service areas.

In a cellular system, each base station transmits a unique pilot signal, so that the mobile terminal can distinguish each base station. If the repeater receives two or more pilot signals and amplifies them, the two signals may interfere with each other, thereby reducing the pilot signal enhancement effect.

Therefore, the repeater is installed for the purpose of eliminating the shadow area, and therefore, the repeater is installed inside the cell rather than the cell boundary. In addition, when the shadow area is generated by gathering a specific part, the antenna toward the mobile terminal of the repeater uses an antenna having a narrow horizontal beam width so that the signal of the repeater does not interfere with neighboring base stations.

And, the amplifier gain control of the RF repeater 22 sets the gain of the forward amplifier to the maximum value in consideration of the characteristics of the forward amplifier, and sets the gain value of the optimum amplification state through the stepwise gain adjustment of the amplifier. The gain of the reverse amplifier is set to the same value as the gain of the forward amplifier.

In other words, the operator adjusts the gain of the repeater amplifier as appropriate. When the repeater is installed inside a cell in a downtown area, the strength of the signal received at the base station signal input terminal of the repeater may exceed the repeater specification. These signals cause supersaturation in the amplifier of the repeater, causing the amplifier to fail and disrupt the normal service of the repeater.

To this end, the operator installs an attenuator at the base station signal input of the repeater to appropriately reduce the strength of the signal received at the base station signal input. Therefore, the amplifier gain of the repeater can be set to the maximum gain in consideration of the operation of the attenuator. The operator adjusts the gain according to the adjustment unit of the amplifier gain, thereby setting the gain with the best characteristics of the amplifier.

Further, the operation optimization of the RF repeater 22 reduces the overall gain of the repeater when the signal of the RF repeater 22 interferes with neighboring base stations, and the service antenna 24 when the shadow area is generated by gathering a specific portion. By narrowing the horizontal beam width of the N-M), interference to neighboring base stations is minimized.

In other words, the repeater has a forward amplifier and a reverse amplifier. When one amplifier gain is adjusted, the gain of the other amplifier must be adjusted as well. The gain of the reverse amplifier is generally set equal to the gain of the forward amplifier. The base station direction donor antenna 20 of the repeater should adjust its direction and inclination so that the repeater can receive only one pilot signal. When the repeater receives and amplifies a plurality of base station signals, the plurality of signals may act as interference in the service area.

After adjusting the direction and tilt of the antenna, set the gain of the forward amplifier. When setting the gain, first disregard the service area and set only the characteristics of the amplifier. After setting the maximum gain in consideration of the characteristics of the amplifier, the gain is changed by a certain unit to find the operating point, and based on this, the optimum gain is set. The gain of the reverse amplifier is set equal to the gain of the forward amplifier.

After setting the gains of the forward and reverse amplifiers, the frame error rate (FER) is collected while the repeater is operating to check the quality in the service area. Tests are conducted at all points in the service area and are conducted to verify the elimination of shaded areas in urban areas.

As a result of the test, when the gain of the repeater is set too large to reduce the service area of the neighboring base station, the operator reduces the gain of the repeater by using an attenuator installed at the base station direction input terminal of the repeater.

Referring back to FIG. 2, the present invention will be described in more detail. In the installation of a repeater of a mobile terminal for a mobile communication service in a shaded area in a building where radio wave sensitivity is weak or not reached at all, the donor antenna 20 of the base station direction 20 ) And the RF repeater 22 and the service antenna 24 in the direction of the mobile terminal are connected to the RF feeder line 26, and the air conditioner refrigerant pipes installed in the building to the area where the RF feeder line 26 is intended for mobile communication service ( 34) to connect the RF repeater 22 and the service antenna 24. In addition, when the RF repeater 22 and the service antenna 24 are connected to the RF feed line 26, the RF feed line 26 may prevent noise and surge in place where the RF feed line 26 is initially connected to the refrigerant pipe 34 of the air conditioner. It is possible to install by connecting more filters 28 that can be.

In addition, the present invention, as shown in Figure 2, in the case of a multi-type air conditioner driving a plurality of indoor units 30 with one outdoor unit 32, the sensitivity of the radio wave to one donor antenna 20 and the RF repeater 22 The mobile communication service can be provided to various shaded areas in the building that are weak or never reach, thereby reducing the facility investment cost for the RF repeater 22.

As such, the present invention does not require the cable installation by utilizing the refrigerant pipe of the air conditioner installed as a signal transmission path when installing the repeater of the mobile terminal in order to solve the shadow area of the radio wave that may occur in the downtown area, thereby preventing building damage and aesthetics. Minimize the number of cases and service multiple indoor spaces with one donor antenna and RF repeater.

As described above, the present invention does not require cable installation by utilizing the air conditioner refrigerant pipe installed as a signal transmission path when installing the repeater of the mobile terminal to solve the shadow area of the radio wave that may be generated in the downtown area, and thus does not require building damage. Minimize the interference and in some cases, it is possible to service a plurality of indoor spaces with one donor antenna and an RF repeater.

In addition, in the case of a multi-air conditioner, a single donor antenna and an RF repeater can provide a mobile communication service to a plurality of indoor spaces, thereby reducing the facility investment cost for the RF repeater.

Claims (9)

A donor antenna toward the base station for a mobile communication service in a shaded area in a building where the sensitivity of the radio wave is weak or never reached, a forward amplifier for amplifying the forward signal of the mobile terminal from the base station, and an amplifying reverse signal of the base station from the mobile terminal. In the repeater installation method of a mobile terminal comprising an RF repeater including a reverse amplifier and at least one service antenna having a mobile terminal direction, As the donor antenna, the RF repeater, and one or more service antennas are connected to the RF feeder, the RF feeder and one or more RF repeaters may be connected to the RF feeder by using a refrigerant pipe of an air conditioner installed in a shaded area of a building to a mobile communication service. Connecting a service antenna; Installing a filter to prevent noise and surge in the place where the RF feed line is first connected to the refrigerant pipe of the air conditioner; Connecting the RF feeder to a refrigerant pipe of an air conditioner connected to a plurality of indoor units to connect an RF repeater and at least one service antenna; Optimizing the amplifier gain and operation of the RF repeater after adjusting a donor antenna toward the base station and at least one service antenna having a mobile terminal direction; Adjusting the direction and inclination of the donor antenna and one or more service antennas; And And narrowing the horizontal beam width of the at least one service antenna to reduce interference to neighboring base stations. delete delete delete delete The method of claim 1, wherein the step of adjusting the amplifier gain of the RF repeater, Setting a gain of the forward amplifier to a maximum value in consideration of characteristics of the forward amplifier; Setting a gain value having an optimal amplification state through stepwise gain adjustment of the amplifier; And And setting the gain of the reverse amplifier to the same value as the gain of the forward amplifier. delete The method of claim 1, The at least one service antenna is a repeater installation method of a mobile terminal using an air conditioner pipe further comprises the step of maintaining the vertical insulation state 15 dB or more than the gain of the donor antenna and the RF repeater amplifier. The method of claim 8, The RF repeater is a method of installing a repeater of a mobile terminal using an air conditioner pipe further comprises the step of optimizing the amplifier gain of the RF repeater by adjusting the signal strength transmitted from the outside by installing a predetermined attenuator in the pre-installed signal input terminal. .

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