KR100546601B1 - apparatus of interfacing between base band frequency and radio band frequency - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an interface device between a base frequency band (hereinafter abbreviated as BB) and a radio frequency band (abbreviated as RF) in a base station system. A baseband frequency module for processing signals of a plurality of basebands, a plurality of transceivers for respectively processing signals of a radio frequency band, and a transmission / reception combiner for switching an interface between the plurality of baseband frequency modules and the plurality of transceivers In the present invention, the node between the BB and the RF in the base station system is significantly reduced.

Description

Interface device between base band frequency and radio frequency band {apparatus of interfacing between base band frequency and radio band frequency}

1 is a view showing an interface structure of a baseband frequency and a radio frequency band according to the prior art.

2 is a diagram illustrating an interface structure between a baseband frequency and a radio frequency band according to a first embodiment of the present invention;

3 is a diagram illustrating an interface structure between a baseband frequency and a radio frequency band according to a second embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

100: base frequency band module

200,400: interface combiner

300: radio frequency band module

The present invention relates to a base station system, and more particularly, to an interface device between a base band frequency (hereinafter abbreviated as BB) and a radio frequency band (hereinafter abbreviated as RF).

Generally, a base station system includes a BB module and an RF module.

1 is a view showing an interface structure of a BB module and an RF module according to the prior art.

Referring to FIG. 1, in the conventional base station system, the BB block 10 includes a plurality of BB modules, and processes the RF signal down-frequency into the BB signal or processes the BB signal up-frequency into the RF signal.

In addition, the TX RF block 20 includes a plurality of transmitting RF modules using different carriers, and the RX RF block 30 uses different carriers. A plurality of receiving RF modules are used. The transmitting RF module transmits the signal transmitted from the BB block 10 to the outside, and the receiving RF module transmits the received RF signal to the BB block 10.

Therefore, as shown in FIG. 1, a plurality of cables are used to interface each BB module provided in the BB block 10 with modules of the RF blocks 20 and 30 using different carriers. More specifically, (N * M) cables are required for the interface between the N BB modules and the M transmitting RF modules. In addition, (N * M) cables are also required for the interface between the N BB modules and the M receiving RF modules. As a result, a base station system that transmits and receives a signal using a plurality of different carriers has a considerable number of nodes. In addition, a total of 2 * (N * M) cables are required for the interface between BB and RF.

 Accordingly, an object of the present invention is to provide an interface device between a baseband frequency (BB) and a radio frequency band (RF) designed to have fewer nodes between the BB and RF in the base station system.

According to an aspect of the present invention, there is provided an interface device between a BB and an RF, comprising: a plurality of baseband frequency modules each processing a signal of a baseband frequency; A plurality of transceivers each processing a signal of a radio frequency band; A board is provided for switching an interface between the plurality of baseband frequency modules and the plurality of transceivers to distribute a signal input from each baseband frequency module to the plurality of transceivers or to input from each transceiver. Distributes the received signal to the plurality of baseband frequency modules, and combines the signals input from the plurality of baseband frequency modules to each transceiver or combines the signals input from the plurality of transceivers to each baseband frequency module. It is characterized by consisting of a transmission and reception combiner to transmit to.

More preferably, for the connection between the transmit and receive combiner and the plurality of baseband frequency modules, the number of bidirectional cables equal to the number of the baseband frequency modules, the transmit and receive combiner and the plurality of transceivers. For the connection therebetween, the number of bidirectional cables equal to the number of transceivers is further provided.

Each transceiver is a module in which a module for receiving a radio frequency signal and a module for transmitting a radio frequency signal are integrated.

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

 2 is a diagram illustrating an interface structure between a baseband frequency and a radio frequency band according to a first embodiment of the present invention.

2, the interface device between the BB and RF used in the base station system of the present invention is composed of a BB block 100, a transmit / receive combiner (RX / TX combiner) 200 and an RF block 300. .

The BB block 100 is composed of a plurality of BB modules 110 to 120 for down-frequency processing an RF signal into a BB signal or up-frequency processing a BB signal into an RF signal.

The RF block (TX / RF block) 300 is composed of a plurality of transceivers 310 to 320 using different carriers. The transceivers 310 to 320 are integrated into a single unit by integrating a conventional transmitting RF module and a receiving RF module.

Each of the transceivers 310 to 320 and the BB block 100 are interfaced through a transmit / receive combiner (RX / TX combiner) 200 according to the present invention to transmit and receive a transmission signal and a reception signal.

The connection between the transmission and reception combiner (RX / TX combiner) 200 and each of the transceivers 310 to 320 uses a bidirectional cable. In addition, a two-way cable is also used for the transceiver combiner (RX / TX Combiner) 200 and each BB module 110 to 120.

The TX / RX combiner 200 switches the transmission signals output from the respective BB modules 110 to 120 to a plurality of transceivers 310 to 320, and each transceiver 310 to 320. Switch the received signal output from the plurality of BB modules (110 ~ 120). As a result, the RX / TX combiner 200 has a function of distributing an input signal to a plurality of modules.

Of course, considering the bidirectional interface, the RX / TX combiner 200 switches the signals output from the plurality of BB modules 110 to 120 to each of the transceivers 310 to 320, and the plurality of transceivers ( The signals output from 310 to 320 are switched to the respective BB modules 110 to 120. As a result, the RX / TX combiner 200 also has a function of combining signals input from a plurality of modules.

In summary, the apparatus according to the present invention is designed to interface the BB and RF used in the base station system as a single board.

In the apparatus of the present invention, the same number of bidirectional cables as the number of the BB modules 110 to 120 are used for the connection between the transmission and reception combiner 200 and the plurality of BB modules 110 to 120.

In addition, the apparatus of the present invention uses the same number of bidirectional cables as the number of transceivers 310 to 320 for the connection between the transmission and reception combiner 200 and the plurality of transceivers 310 to 320.

3 is a diagram illustrating an interface structure between a baseband frequency and a radio frequency band according to a second embodiment of the present invention.

3 shows the same effect as the interface structure of FIG. 2 described above. In FIG. 2, only one combiner is designed to be separated into a TX combiner 410 and a RX combiner 420.

That is, the BB modules 110 to 120 provided in the BB block 100 and the transceivers 310 to 320 provided in the RF block 300 are the same as in FIG. 2.

The TX combiner 410 switches the transmission signals output from the respective BB modules 110 to 120 to a plurality of transceivers 310 to 320.

The RX combiner 420 switches the received signals output from the transceivers 310 to 320 to the plurality of BB modules 110 to 120.

As a result, the TX combiner 410 and the RX combiner 420 are respective boards having a function of distributing an input signal to a plurality of modules.

Of course, considering the bidirectional interface, the TX combiner 410 switches the signals output from the plurality of BB modules 110 to 120 to each of the transceivers 310 to 320, and the receive combiner RX. Combiner 420 switches the signals output from the plurality of transceivers 310 to 320 to the respective BB modules 110 to 120. As a result, each of the TX Combiner 410 and the RX Combiner 420 also has a function of combining signals input from a plurality of modules.

In the embodiment of FIG. 3, the same number of bidirectional cables as the number of the BB modules 110 to 120 are used for the connection between the transmission combiner 410 and the plurality of BB modules 110 to 120. . In addition, for the connection between the reception combiner 420 and the plurality of BB modules 110 to 120, the same number of bidirectional cables as the number of the BB modules 110 to 120 are used.

Meanwhile, for the connection between the transmission combiner 410 and the plurality of transceivers 310 to 320, the same number of bidirectional cables as the number of the plurality of transceivers 310 to 320 are used. Also, for the connection between the reception combiner 420 and the plurality of transceivers 310 to 320, the same number of bidirectional cables as the number of the plurality of transceivers 310 to 320 are used.

By using the interface device of the present invention which implements the interface between the BB and RF described above as one board in a base station system, the node between the BB and RF in the base station system is considerably reduced. The reduction of such nodes has the effect of significantly reducing the number of cables used for the interface between the BB and RF. Incidentally, reducing the number of cables used in the base station system can reduce the cost of building the entire system.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (6)

A plurality of baseband frequency modules each processing a signal of the baseband frequency; A plurality of transceivers each processing a signal of a radio frequency band; A board is provided for switching an interface between the plurality of baseband frequency modules and the plurality of transceivers to distribute a signal input from each baseband frequency module to the plurality of transceivers or to input from each transceiver. Distributes the received signal to the plurality of baseband frequency modules, and combines the signals input from the plurality of baseband frequency modules to each transceiver or combines the signals input from the plurality of transceivers to each baseband frequency module. An interface device between a baseband frequency and a radio frequency band, characterized in that composed of a transmission and reception combiner to transmit to. The method of claim 1, wherein the number of bidirectional cables equal to the number of baseband frequency modules for the connection between the transmit / receive combiner and the plurality of baseband frequency modules; And a two-way cable having the same number of two-way cables as the number of transceivers for the connection between the transmission / reception combiner and the plurality of transceivers. The method of claim 1, wherein each transceiver is: An interface device between a baseband frequency and a radio frequency band, characterized in that a module for receiving a radio frequency signal and a module for transmitting a radio frequency signal are integrated. delete delete First bidirectional cables connected to a plurality of baseband frequency modules, each processing a signal of a baseband frequency; Second bidirectional cables connected to a plurality of transceivers for processing a signal of a radio frequency band, respectively; Distributing the signal input from each baseband frequency module to the plurality of transceivers or distributing the signal input from each transceiver to the plurality of baseband frequency modules, and the signals input from the plurality of baseband frequency modules And a board configured to combine the signals transmitted from each of the transceivers or combine the signals inputted from the multiple transceivers and transmit the signals to each baseband frequency module.

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