KR101060582B1 - Repeater system and control method thereof - Google Patents

Abstract

PURPOSE: A repeater system and control method thereof are provided to steadily secure a transmission capacity corresponding to a MIMO(Multi Input Multi Output). CONSTITUTION: A dispersion hub unit(30) divides a twisted pair signal. The dispersion hub unit transmits the twisted pair signal by dividing the signal through at least one twisted pair cable. A remote division unit(40) is connected to the dispersion hub unit and at least one twisted pair cable. The remote distribution unit receives a signal which is divided from the dispersion unit. The remote distribution unit converts the received signal into an RF signal. The remote distribution unit relays the converted RF signal through an antenna.

Description

Repeater System And Control Method Thereof

The present invention relates to a repeater system and a control method for separating and transmitting a transmission signal of a repeater through a plurality of lines in order to secure a transmission capacity required for multi-band service.

Mobile communication network system is a device that performs switching for voice or data transmission.It is a wireless base station and each base station is divided into several sectors divided by several sectors. A base station controller is installed to manage several base stations individually.

The wireless base station of the mobile communication network system is installed in several areas in each area so that the subscribers can communicate smoothly in the coverage of the area covered by the mobile communication system, but if the area covered by the high-rise buildings or high-rise apartments Unable to communicate smoothly due to obstacles such as buildings.

Accordingly, a repeater system is used to reduce the shadows of radio waves appearing in the basement of a building or steel structure or to expand the coverage of a specific area. The repeater system is a system for relaying signals transmitted and received between the base station system and the mobile communication terminal by connecting a plurality of full-wave repeater devices to the base station system using an optical line or a coaxial cable.

On the other hand, multi-band services are becoming more common, and in recent years, it is required to secure transmission capacity in order to provide a service therefor. Accordingly, the capacity expansion or additional installation of the repeater is inevitable, and the situation requires a response to the cost and error problems that occur.

The repeater system according to an aspect of the present invention is to stably secure a transmission capacity corresponding to MIMO (Multi Input Multi Output) by distributing and transmitting communication signals through a plurality of lines.

In addition, communication is possible even if any one of a plurality of lines used to secure stable transmission capacity is disconnected.

The repeater control method according to another aspect of the present invention is intended to prevent a problem of incorrect wiring occurring when distributed transmission of communication signals over a plurality of lines.

In addition, any connection hub unit port and any remote distribution unit port can be connected when connecting between the distribution hub unit HU and the remote distribution unit RU.

In a repeater system according to an embodiment of the present invention, a repeater system for communicating with a mobile communication base station and relaying a communication signal, receiving an RF signal from the base station and converting the RF signal into a digital signal and converting the digital signal into an optical signal Main unit (MU); A distribution hub unit (HU) for receiving an optical signal from the main unit, converting the optical signal into a twisted pair signal, and separating and transmitting the twisted pair signal through one or more twisted pair cables; A remote distribution unit (RU) connected to the distribution hub unit by the one or more twisted pair cables, receiving a signal divided from the distribution hub unit, converting the received signal into an RF signal and relaying the signal through an antenna; do.

In addition, the twisted pair cable is two, in order to enable communication even when any one of the two twisted pair cable is not communicated,

When the converted twisted pair signal includes a pair signal corresponding to each other, the distributed hub unit divides the pair signal into two divided twisted pair cables and transmits the divided twisted pair signal, and the converted twisted pair signal is one If the signal is included, the twisted pair signal is copied and then divided into two twisted pair cables for transmission.

The twisted pair signal including the two couple signals may be a 1.5 Gigabyte Long Term Evolution (LTE) signal or an 800 Mega band LTE signal.

In addition, the twisted pair signal including the one signal may be a 2-gigaband CDMA signal or an 800-mega band CDMA signal.

In addition, the distributed hub unit lowers the rate of the divided couple signal or the radiated signal, and transmits the divided hub cable to the twisted pair cable through a multiplex method.

In addition, the mutually remote distribution unit combines each of the signals transmitted through the two twisted pair cable and relays through the antenna.

In a repeater control method according to another embodiment of the present invention, a main unit for receiving an RF signal from a mobile communication base station and converting it into a digital signal and converting the digital signal into an optical signal, and receiving an optical signal from the main unit, the twisted pair A distributed hub unit which converts the twisted pair signal after converting the signal into a twisted pair signal and divides the divided twisted pair signal through at least one twisted pair cable, and is connected to the distributed hub unit and the at least one twisted pair cable and divided from the distributed hub unit. 12. A repeater system comprising one or more remote distribution units that receive a lost signal and convert the received signal into an RF signal for relaying through an antenna, wherein the distribution hub unit is configured for connection with the one or more remote distribution units. Twisted pair k The one or more connection ports (PORT) and wherein the one or more ports that comprises a respective identifier, to which the twisted-pair cable is determined that the fastening of the port where the distribution hub unit; Transmitting a frame including an identifier of the fastened port to a twisted pair cable connected to the fastened port; A remote distribution unit fastened at the other side of the twisted pair cable transmits a frame including its unique identifier and an identifier of the fastened port included in the transmitted signal to the distribution hub unit; A twisted pair cable misconnection between the distribution hub unit and the one or more remote distribution units is determined based on the frame transmitted to the distribution hub unit.

According to an aspect of the present invention, it is possible to stably provide a multi-service by distributing and transmitting communication signals to secure transmission capacity, and to enable communication even if any one of a plurality of lines is disconnected.

According to another aspect of the present invention, it is possible to solve the problem of incorrect wiring occurs when a plurality of communication lines are connected.

Further, when connecting between the distribution hub unit HU and the remote distribution unit RU, it is possible to connect any distribution hub unit port and any remote distribution unit port.

1 is a block diagram functionally showing a repeater system according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating a repeater system according to an embodiment of the present invention including two distribution hub units and two remote distribution units respectively connected thereto.
Figure 3 is a schematic diagram showing the configuration of the forward signal transmitted to the two twisted pair cable of the repeater system according to an embodiment of the present invention.
4 is a schematic diagram illustrating a connection between a distribution hub unit and a remote distribution unit according to another embodiment of the present invention.
FIG. 5 is a schematic diagram illustrating a process of preventing a miswiring that may occur between a distribution hub unit and a remote distribution unit according to another embodiment of the present invention.
6 is a schematic diagram showing that any connection between the distribution hub unit and the remote distribution unit is made according to another embodiment of the invention.
7 is a schematic diagram showing the configuration of the reverse signal transmitted to the two twisted pair cable of the repeater system according to an embodiment of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a block diagram functionally showing a repeater system according to an embodiment of the present invention.

The repeater system may include a base station 10, a main unit 20, MU, a distribution hub unit 30, HU, a remote distribution unit 30, RU, an antenna 50, ANT.

At least one base station 10 may be installed and communicate with the main unit 20 through a coaxial cable. The base station 10 uses a CDMA method, which is a digital mobile communication method using spread spectrum technology in a specific band, for example, 800Mhz or 2G band, or LTE (Long Term Evolution) method, which is a high-speed wireless data packet communication standard in a 800Mhz or 1.5G band. It may be a base transceiver station (BTS) for communicating.

The main unit 20 converts an RF (Radio Frequency) signal transmitted from the base station 10 into an IF (Intermediate Frequency) signal. The main unit 20 converts an IF signal, which is an analog signal, into a digital signal. The main unit 20 converts the converted digital signal into an optical signal. The main unit 20 transmits the optical signal to the decomposition hub unit 30 through the optical cable.

The distribution hub unit 30 converts the optical signal transmitted from the main unit 20 into a twisted pair signal. The distribution hub unit 30 may transmit the twisted pair signal to the remote distribution unit 40 via the twisted pair cable 70 using Ethernet.

There may be more than one twisted pair cable 70, and FIG. 1 shows two twisted pair cables 70, 71, 72.

The distribution hub unit 30 receives an optical signal from the main unit 20, converts the optical signal into a twisted pair signal, and separates the twisted pair signal through two twisted pair cables 71 and 72, respectively. send.

In detail, the distribution hub unit 30 divides the pair signal by dividing each pair signal when the converted twisted pair signal includes a pair signal corresponding to each other (1.5G band LTE signal and 800M band LTE signal in FIG. 1). If the divided twisted pair signal includes one signal (the 2G band CDMA signal and the 800M band CDMA signal in FIG. 1), the Twisted pair cable 71 and 72 are transmitted. The transmission is divided into two twisted pair cables (71, 72).

The main unit 20 or the distribution hub unit 30 or the remote distribution unit 40 may transmit by lowering the data rate of the signal to be transmitted. In particular, the distribution hub unit 30 lowers the rate of the divided couple signal or the radiated signal and transmits the two divided twisted pair cables 71 and 72 through the multiplex method.

In the multiplex method, a signal is transmitted by using a multiplexer, which is a data selector that outputs multiple input data into a single output.

By dividing the signal and transmitting the two twisted pair cables 71 and 72, respectively, even if one twisted pair cable (for example, 71) is disconnected, the signal is transmitted to the other Hannan twisted pair cable 72, so that communication is performed. It becomes possible.

Here, the signal transmitted to the twisted pair cable 72 capable of communication is a couple signal or a duplicate signal of the original signal, and the quantity and quality of the signal may be degraded, but the signal including the main content of the original signal.

Twisted pair cable 70 is classified into UTP (Unshielded Twisted Pair Cable) and STP (Shielded Twisted Pair Cable). UTP is used for standard Ethernet such as 10Base-T, 100Base-T, 1000Base-T, and STP It is used for standard Ethernet such as 10Base-T, 100Base-TX, and 1000Base-CX.

The remote distribution unit 40 may be installed in plural in the shaded area. For example, remote distribution unit 40 may be installed on each floor of a building. The remote distribution unit 40 converts the UTP signal transmitted from the distribution hub unit 30 into an IF signal. The remote distribution unit 40 converts the IF signal into an RF signal. The remote distribution unit 40 relays the RF signal wirelessly through the antenna 50.

The remote distribution unit 40 is connected to the distribution hub unit 30 by two twisted pair cables 71 and 72, receives a signal divided from the distribution hub unit 40 in a multiplex manner, and receives the received signal. It converts into RF signal and relays through antenna.

FIG. 2 is a block diagram illustrating a repeater system according to an embodiment of the present invention including two distribution hub units and two remote distribution units respectively connected thereto.

The repeater system according to one embodiment of the present invention may include one or more distribution hub units 30 and one or more remote distribution units 40. In FIG. 2, there are two distribution hub units 30, 31, 35 and two remote distribution units 40 connected to each distribution hub unit 31, 35, respectively (41, 43, 45, 47). )

Figure 3 is a schematic diagram showing the configuration of the signal transmitted to the two twisted pair cable of the repeater system according to an embodiment of the present invention.

FIG. 3 shows transmission of CDMA / DO signals in 800Mhz and 2G bands and LTE signals in 800Mhz and 1.5G bands through two twisted pair cables 71 and 72. One twisted pair cable 71 transmits an LTE0 signal in an 800Mhz band, an LTE0 signal in a 1.5G band, a CDMA / DO signal in an 800Mhz band, and a CDMA / DO signal in a 2G band. The other twisted pair cable 72 transmits the LTE1 signal of 800Mhz band, the LTE1 signal of 1.5G band, the CDMA / DO signal of 800Mhz band, and the CDMA / DO signal of 2G band.

The LTE0 signal in the 800Mhz band and the LTE1 signal in the 800Mhz band transmitted to the twisted pair cables 71 and 72 are a couple signal, and the LTE0 signal in the 1.5G band and the LTE1 signal in the 1.5G band are also a couple signal.

The CDMA / DO signals in the 800 MHz band and the CDMA / DO signals in the 2 G band transmitted to the twisted pair cables 71 and 72 are original signals and COPY radiation signals.

Twisted pair cable 70 usually transmits signals with limited capacity since the transmission capacity is within 1 Gbps. As shown in FIG. 3, by transmitting a couple signal or a copied signal through two twisted pair cables 71 and 72, transmission capacity can be secured in response to MIMO, and two twisted pair cables 71 and 72 are transmitted. Communication can be made even if any one of the

4 is a schematic diagram illustrating a connection between a distribution hub unit and a remote distribution unit according to another embodiment of the present invention.

One distribution hub unit 30 may be connected to the remote distribution unit 40 via one or more twisted pair cable 70. When so many remote distribution units 40 are connected to the distribution hub unit 30, the connection of one or more twisted pair cables 70 connecting them becomes important. In other words, if the connection is twisted or incorrectly connected, communication will be interrupted.

4 shows that two remote dispensing units 40 are connected to one dispensing hub unit 30.

The distribution hub unit 30 includes one or more ports PORT to which the twisted pair cable 70 is connected.

The remote distribution unit 40 also includes one or more ports PORT to which the twisted pair cable 70 is connected.

The twisted pair cable 70 is connected around each port included in the distribution hub unit 30 and the remote distribution unit 40, and a process of connecting the twisted pair cable 70 to ensure proper operation will be described with reference to FIGS. 5 to 6. do.

5 is a schematic diagram illustrating a process of preventing a wiring defect that may occur between a distribution hub unit and a remote distribution unit according to another embodiment of the present invention.

First, when the twisted pair cable 70 is fastened to the distribution hub unit 30, the distribution hub unit 30 recognizes that the twisted pair cable 70 is connected through a link (LINK) state.

Next, the distribution hub unit 30 carries the identifier of the corresponding port in a frame on the signal and transmits the signal to the twisted pair carelable 70.

Next, the remote distribution unit 40 which has received the signal including the identifier through the twisted pair carelable 70 again includes its own unique identifier in the signal frame and transmits it to the distribution hub unit 30.

Finally, the distribution hub unit 30 determines whether there is a miswiring and adjusts the path based on the identifier included in the signal transmitted from the remote distribution unit 40.

6 is a schematic diagram showing that any connection between the distribution hub unit and the remote distribution unit is made according to another embodiment of the invention.

As shown in FIG. 6, one or more remote distribution units 40 may be connected to the distribution hub unit 30.

For example, one distribution hub unit 30 may have a structure in which up to eight remote distribution units 40 are interlocked, and one remote distribution unit 40 and two LAN ports are connected to one distribution hub. The hub unit 30 provides a total of 16 LAN ports. When HU and RU are connected by LAN cable, it provides the function to connect any LAN port and RU LAN port of HU for ease of installation.

For this function, data should be switched to each port.

As shown in FIG. 6, the port mapper 32 is responsible for the switching function. The Port Mapper 32 maps 16 ports with data to be transmitted to the remote distribution unit 40 through Digital IF Processing. At this time, the port mapper (32) obtains port mapping information from the CPU (34) that controls the distribution hub unit (30).

The CPU 34 may obtain information on the connection between the 16 ports included in the distribution hub unit 30 and the remote distribution unit 40 port in the following manner.

Sixteen ports of the distribution hub unit 30 are assigned unique identifiers. In the transmission frame, there is a field for port identifier information. The distribution hub unit 30 sets port identifier information in the Port identifier field of the frame and transmits the port identifier information to the remote distribution unit 40.

The remote distribution unit 40 obtains a port identifier of the distribution hub unit 30 connected from the received frame. The remote distribution unit 40 transmits this identifier information to the CPU of the distribution hub unit 30 using the C & M channel of the frame.

Meanwhile, according to the above-described embodiment, the main unit, the distribution hub unit, and the remote bonsai unit have been described as connecting at least one of an optical cable, a coaxial cable, or a twisted pair cable. It is a matter of course that the cable for the present invention can be changed to a different type from the embodiment shown in the drawings.

In addition, according to an embodiment of the present invention, a signal transmission direction (downlink) that starts with a base station and ends with an antenna is described, but the present invention is not limited thereto. According to one skilled in the art will be able to easily implement. However, when the signal transmission direction is the downlink, the transmitted data signal frame structure may be formed differently from the uplink. A reverse signal transmission process in the opposite direction will be described below with reference to FIG.

7 is a schematic diagram showing the configuration of the reverse signal transmitted to the two twisted pair cable of the repeater system according to an embodiment of the present invention.

FIG. 7 illustrates transmission of CDMA / DO signals in 800Mhz and 2G bands and LTE signals in 800Mhz and 1.5G bands through two twisted pair cables 71 and 72. One twisted pair cable 71 transmits the LTE0 signal of the 800Mhz band, the LTE0 signal of the 1.5G band, the CDMA / DO MAIN signal of the 800Mhz band, and the CDMA / DO MAIN signal of the 2G band. The other twisted pair cable 72 transmits the LTE1 signal of the 800Mhz band, the LTE1 signal of the 1.5G band, the CDMA / DO DIV signal of the 800Mhz band, and the CDMA / DO DIV signal of the 2G band.

10: base station 20: main unit
30: distribution hub unit 32: port mapper
34: CPU 40: remote distribution unit
50: antenna 70: twisted pair cable

Claims (7)

A repeater system for communicating with a mobile communication base station and relaying a communication signal,
A main unit (MU) receiving the RF signal from the base station and converting the RF signal into a digital signal and converting the digital signal into an optical signal;
A distribution hub unit (HU) for receiving an optical signal from the main unit, converting the optical signal into a twisted pair signal, and separating and transmitting the twisted pair signal through one or more twisted pair cables;
A remote distribution unit (RU) connected to the distribution hub unit by the one or more twisted pair cables, receiving a signal divided from the distribution hub unit, converting the received signal into an RF signal and relaying the signal through an antenna; and,
The distributed hub unit may be configured to allow two twisted pair cables to communicate even when one of the two twisted pair cables is not in communication, and the distributed hub unit may have a couple of the converted twisted pair signals corresponding to each other. If the signal is included, the pair signal is divided into two twisted pair cables for transmission, and if the converted twisted pair signal includes one signal, the twisted pair signal is copied and then each divided into two Repeater system that transmits divided by twisted pair cable. delete The method of claim 1,
And a twisted pair signal including the two couple signals is a 1.5 gigabyte Long Term Evolution (LTE) signal or an 800 mega band LTE signal. The method of claim 3,
And a twisted pair signal including the one signal is a 2-gigaband CDMA signal or an 800-megaband CDMA signal. The method of claim 4, wherein
And the distribution hub unit lowers the rate of the divided couple signal or the radiated signal and transmits the divided hub signal to the twisted pair cable through a multiplex method. The method of claim 5,
A repeating remote distribution unit is a repeater system for combining the respective signals transmitted through the two twisted pair cable to relay through the antenna. A main unit receiving an RF signal from a mobile communication base station and converting the digital signal into an optical signal and converting the digital signal into an optical signal, receiving the optical signal from the main unit, converting the optical signal into a twisted pair signal, and then converting the twisted pair signal A splitting hub unit for separating and transmitting the split hub cable through at least one twisted pair cable, and receiving the split signal connected to the at least one twisted pair cable and being divided from the split hub unit, and converting the received signal into an RF signal. A repeater system comprising one or more remote distribution units that convert and relay through an antenna,
The distribution hub unit includes one or more ports to which the twisted pair cable is connected for connection with the one or more remote distribution units,
Each of the one or more ports includes an identifier,
Determine which of the ports of the distribution hub unit the twisted pair cable is fastened;
Transmitting a frame including an identifier of the fastened port to a twisted pair cable connected to the fastened port;
A remote distribution unit fastened at the other side of the twisted pair cable transmits a frame including its unique identifier and an identifier of the fastened port included in the transmitted signal to the distribution hub unit;
A repeater control method for determining a twisted pair cable erroneous connection between the distribution hub unit and the one or more remote distribution units based on a frame transmitted to the distribution hub unit.

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