KR100718392B1 - Wireless telecommunication system with rf split repeater - Google Patents

Abstract

The present invention relates to a mobile communication system having an RF distributed repeater, and more particularly, an RF repeater that receives an RF signal from / to a base station and amplifies it to a set level, a main repeater that receives and transmits an amplified signal from an RF repeater, It includes a plurality of sub repeaters for amplifying the RF signal transmitted from the main repeater to transmit to the mobile communication terminal or amplified RF signal received from the mobile communication terminal to the main repeater. Therefore, the present invention amplifies the RF signal to a predetermined level through the RF repeater and then transfers the RF signal to the mobile terminal at a constant output level through an RF distributed repeater consisting of a main repeater and a plurality of sub repeaters, thereby increasing the input level of the RF signal. Improve call quality in weak building areas, large building areas, or areas congested by many subscribers.

RF Repeater, MRU, SRU, RF Distributed Repeater

Description

Mobile communication system with RF distributed repeater {WIRELESS TELECOMMUNICATION SYSTEM WITH RF SPLIT REPEATER}

1 is a view schematically showing the structure of a mobile communication system having a general RF repeater,

2 is a diagram briefly showing a structure of a mobile communication system having an RF distributed repeater according to the present invention;

3 is a diagram illustrating an example of a mobile communication system having an RF distributed repeater according to an embodiment of the present invention;

4A and 4B are diagrams comparing signal-to-noise ratios (Ec / Io) when an RF distributed repeater is not applied to a mobile communication system and an RF distributed repeater according to the present invention.

<Description of the code | symbol about the principal part of drawing>

200, 250: antenna 210: RF repeater

220: main repeater (MRU) 230, 242: distributor

240: sub repeater (SRU)

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication system. In particular, the present invention relates to a mobile communication system having an RF distributed repeater capable of improving call quality in a shadow area by using an RF repeater for relaying radio signals between a base station and a mobile communication terminal and an RF distributed repeater connected thereto. It relates to a mobile communication system.

In general, a mobile communication system includes a mobile station (MS), a base station transceiver subsystem (BTS), a mobile switching center (MSC), and the like. Each base station has a constant call radius. Therefore, by dividing and arranging a plurality of base stations in a certain sector unit, the call radius of each base station overlaps each other, thereby expanding the area available for communication.

However, even when multiple base stations are overlapped, the radio waves transmitted from the base stations are difficult to reach the inside of a large building, behind a mountain or hill, in a tunnel, subway, etc. do. Therefore, there is a shadow area incapable of communication due to problems such as the location and the topography of the base station in the mobile communication system. In order to solve such shaded areas, a repeater is used to cover the shaded areas where calls cannot be made due to weak radio waves.

That is, the repeater improves the call quality in the area where the base station cannot reach the radio wave within the mobile communication system service or the radio blocking area due to the terrain, and is installed between the base station and the mobile communication terminal to expand the base station coverage. As a device, a weak signal of a base station is effectively amplified in a radio wave shadow area and relayed to a mobile communication terminal.

1 is a diagram schematically illustrating a structure of a mobile communication system having a general RF repeater.

Referring to FIG. 1, a mobile communication system includes a plurality of base stations (BTSs) 10 divided by sectors, and mobile communication terminals (not shown) exist within a range of the base station (BTS) 10. In addition, an RF repeater 20 is installed between the base station (BTS) 10 and the mobile communication terminal, and amplifies the weak signal of the base station (BTS) 10 received by the antenna 22 to a predetermined size, and the antenna ( It acts as a relay to the mobile communication terminal through 24).

In more detail, although not shown in the drawing, the RF repeater 20 includes, for example, a duplex receiving an RF signal received from an antenna, a first amplifier pre-amping a signal transmitted through the duplex, and a first amplifier. A filter for filtering the signal amplified by the first amplifier, a second amplifier for amplifying the signal filtered by the filter to a predetermined size, and another duplex for transmitting the signal amplified in the second amplifier to the antenna.

For example, the RF repeater amplifies the RF signal of the base station transmitted in the duplex according to the forward link to a serviceable level in the first to second amplifiers and transmits the RF signal to the mobile communication terminal through another duplex, or according to the reverse link. The RF signal of the mobile communication terminal transmitted from the other duplex is amplified by the gain adjusted to the forward gain through the second amplifier to the first amplifier and then transferred to the base station through the duplex.

However, if the RF repeater is installed in a large building separated by a main building or an annex in an area where the input signal level of the RF signal is weak, or the area is crowded by many subscribers, the forward or reverse link may be unstable and call quality may be degraded. There was a problem.

An object of the present invention is to amplify an RF signal to a predetermined level through the RF repeater to solve the problems of the prior art as described above, the mobile communication terminal at a constant output level through the RF distributed repeater consisting of a main repeater and a plurality of sub repeaters Provides a mobile communication system having an RF distributed repeater that can improve the call quality in a large building area where the input level of the RF signal is weak or the area being crowded by many subscribers by transmitting the RF signal to the It is.

In order to achieve the above object, the present invention provides a mobile communication system having a base station and a mobile communication terminal, receiving an RF signal to and from the base station and amplifying the RF signal to a predetermined level, and receiving the amplified signal from the RF repeater. It includes a main repeater for transmitting and a plurality of sub repeaters for amplifying the RF signal transmitted from the main repeater to transmit to the mobile communication terminal or amplified RF signal received from the mobile communication terminal to the main repeater.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

2 is a diagram schematically illustrating a structure of a mobile communication system having an RF distributed repeater according to the present invention.

Referring to FIG. 2, in the mobile communication system to which the present invention is applied, a plurality of base stations (BTSs) 100 divided by sector units are included, and mobile communication terminals (not shown) within the range of the base station (BTS) 100 are provided. An RF repeater 210 is installed between the base station (BTS) 100 and the mobile communication terminal, and a main repeater unit (MRU) 220 and a plurality of sub repeaters (SRUs). RF distributed repeater is installed.

The RF repeater 210 receives the RF signal from the base station (BTS) 100 through the antenna 200, amplifies it to a set level, and transmits the RF signal to the main repeater (MRU) 220, and the main repeater (MRU) 220. Receives an RF signal from a) and amplifies it to a set level and transmits it to a base station (BTS) 100 through an antenna 200. Although not shown, the RF repeater 210 may include, for example, a duplex receiving an RF signal received from an antenna, a first amplifier pre-amping a signal transmitted through the duplex, and a first amplifier. A filter for filtering the signal amplified by the amplifier, a second amplifier for amplifying the signal filtered by the filter to a predetermined size, and another duplex for transmitting the signal amplified in the second amplifier to the antenna.

The main repeater (MRU) 220 transfers the RF signals of the RF repeater 210 to the plurality of sub repeaters (SRUs) 240 or transmits the RF signals of the plurality of sub repeaters (SRUs) 240 to the RF repeater 210. To pass). In this case, the main repeater (MRU) 220 includes an automatic gain controller (AGC) to maintain the RF output at a predetermined level.

In addition, the plurality of sub repeaters (SRU) 240 amplifies an RF signal transmitted from the main repeater (MRU) 220 and transmits the RF signal to the mobile communication terminal through the antenna 250 or the mobile communication through the antenna 250. The RF signal received from the terminal is amplified and transmitted to the main repeater (MRU) 220. At this time, each sub repeater (SRU) 240 includes an automatic gain control device (AGC) and automatic gain setup device (AGS: Auto Gain Setting). Here, the automatic gain setup device (AGS) automatically sets up the reverse gain according to the forward RF input level of the sub repeater (SRU) 240. And the automatic gain control device (AGC) of the sub repeater (SRU) 240 is the RF signal transmitted to the mobile communication terminal through each sub repeater (SRU) 240 is the same RF for the input level of the RF repeater 210 Adjust the gain to be an output level, for example 4dBm / FA.

On the other hand, a mobile communication system having an RF distributed repeater according to the present invention is a splitter (spliter) for distributing RF signals in a forward or reverse direction between a main repeater (MRU) 220 and a plurality of sub repeaters (SRU) 240 ( 230).

In addition, in the mobile communication system having the RF distributed repeater according to the present invention, the main repeater (MRU) 220 of the RF distributed repeater is installed in the main building of the building in at least two or more separate buildings and a plurality of sub repeaters (SRU) 240 is installed at any location in the building.

On the other hand, in general, the RF repeater has a wide range of input signals and the service range is narrower than that of the RF distributed repeater, whereas the RF distributed repeater has a wide range of service and a limit of the input signal, so Service is available only when a separate antenna is installed.

Accordingly, in the mobile communication system of the present invention, both the RF repeater and the RF distributed repeater are used, so that the input signal is poor, for example, in a large building or an area requiring a large number of subscribers, a low level input to the RF repeater 210 is required. After receiving and amplifying the RF signal to a set level, the RF relay repeats the amplified RF signal through the main repeater (MRU) 220, and through the divider 230, a plurality of sub repeaters (SRU) in the building or another annex. The RF signal is transmitted to the 240 and the antenna is adjusted to the same RF output level and then transmitted to the antenna of each layer.

Therefore, the mobile communication system according to the present invention amplifies the RF signal received from the base station (BTS) 100 to the level set by the RF repeater 210, and RF dispersion consisting of a main repeater (MRU) and a sub repeater (SRU) The repeater automatically adjusts the gain to be the same RF output level, for example 4 dBm / FA, with respect to the input level of the RF repeater 210 to large building areas or many subscribers where the input level of the RF signal is weak. This can improve the call quality in the area where it is concentrated.

3 is a diagram illustrating an example of a mobile communication system having an RF distributed repeater according to an embodiment of the present invention. Referring to FIG. 3, a mobile communication system having an RF distributed repeater according to an embodiment of the present invention is as follows.

In the case of a large building separated into a main building (A) and annex (B), an RF repeater 210 connected to the antenna 210 is installed in the basement B1. In addition, a main repeater (MRU) 220 of an RF distributed repeater connected to the RF repeater 210 is installed on the same layer B1, and the main repeater (MRU) 220 of the RF distributed repeater through the distributor 230. A plurality of sub repeaters 240 are connected. In addition, different sub-dividers 242 are installed in the sub repeaters (SRUs) 240 to transmit RF signals to the antenna 250. At this time, the distributor 242 and the antenna 250 connected to the sub repeater (SRU) 240 are separately installed for each floor (2F, 1F, B1, etc.) of the main building, and thus the RF repeater 210 and the RF distributed repeater (MRU, SRU). RF signals of the (220, 240) to a mobile communication terminal.

Moreover, the distributor 230 provided in the basement B1 is connected with the other distributor 230 provided in the other floor of the annex B, for example, 3rd floor 3F. A plurality of sub repeaters (SRUs) 240 are also connected to the distributor 230 installed in the annex B, and a distributor 242 or an antenna 250 is connected to each of the sub repeaters (SRUs) 240. At this time, the distributor 242 and the transmitter / receiver 250 connected to the sub repeater (SRU) 240 installed in the annex B transmit an RF signal to the mobile communication terminal for each floor (3F, 2F, 1F, etc.) of the annex. do.

Meanwhile, in the present invention, only the forward link between the base station (BTS) and the mobile communication terminal has been described, but those skilled in the art will appreciate that the signal of the mobile communication terminal is transmitted to the base station (BTS) via the RF distributed repeaters (MRU, SRU) and the RF repeater. Since it is well known for the description, it will be omitted.

4A and 4B are diagrams comparing signal-to-noise ratios (Ec / Io) when an RF distributed repeater is not applied to a mobile communication system and when an RF distributed repeater is applied according to the present invention.

Referring to FIG. 4A, when only an RF repeater is used in a mobile communication system without using an RF distributed repeater, the RF average reception (Rx) level is measured at -93 dBm and the signal-to-noise ratio (Ec / Io) is -13 dB. Is measured. Accordingly, it can be seen that the RF reception (Rx) signal is disconnected from the sports ground to the mobile communication terminal moving from the main building to the main building.

However, referring to FIG. 4B, when the RF repeater and the RF distributed repeater divided into the main repeater (MRU) and the sub repeater (SRU) are installed in the mobile communication system according to the present invention, the RF average reception (Rx) level is -72 dBm. The signal-to-noise ratio (Ec / Io) is measured at -6dB. Accordingly, it can be seen that the RF signal is continuously received from the sports ground to the mobile communication terminal moving from the playground to the main building and the entrance.

As described above, in the mobile communication system, the present invention amplifies an RF signal received from an antenna through an RF repeater, and outputs an RF signal through the main repeater (MRU) and the sub repeater (SRU), which are RF distributed repeaters, at the same output level. By adjusting the gain to the mobile communication terminal, it is possible to improve the mobile communication call quality in a large building or an area congested by a large number of subscribers with a weak input level of the RF signal.                     

On the other hand, the present invention is not limited to the above-described embodiment, various modifications are possible by those skilled in the art within the spirit and scope of the present invention described in the claims to be described later.

Claims (6)

delete A mobile communication system having a base station and a mobile communication terminal, An RF repeater which receives an RF signal to / from the base station and amplifies it to a set level; A main repeater for receiving and transmitting an amplified signal from the RF repeater; A plurality of sub-relay to amplify the RF signal transmitted from the main repeater to transmit to the mobile communication terminal or to amplify the RF signal received from the mobile communication terminal to the main repeater Including; The main repeater includes an automatic gain control device for a mobile communication system having an RF distributed repeater, characterized in that to maintain a certain level of RF output. The method of claim 2, And the sub repeater includes an automatic gain control device and an automatic gain setup device. The method of claim 3, wherein The automatic gain setup device of the sub repeater is a mobile communication system having an RF distributed repeater, characterized in that for automatically setting up the reverse gain in accordance with the forward RF input level of the sub repeater. The method of claim 3, wherein And the plurality of sub repeaters each adjusts gain to generate the same RF output level with respect to the RF input level of the RF repeater through an automatic gain control device. A mobile communication system having a base station and a mobile communication terminal, An RF repeater which receives an RF signal to / from the base station and amplifies it to a set level; A main repeater for receiving and transmitting an amplified signal from the RF repeater; A plurality of sub-relay to amplify the RF signal transmitted from the main repeater to transmit to the mobile communication terminal or to amplify the RF signal received from the mobile communication terminal to the main repeater Including; And the main repeater is installed in a main building of a building in at least two separate buildings, and the plurality of sub repeaters are installed at an arbitrary position of the building.

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