KR20020093308A - Device and method for instituting transceive in 3g micro bts system - Google Patents

Abstract

PURPOSE: A transmitting and receiving apparatus in a 3G micro base station system and a setting method therefor are provided to flexibly operate a base station according to the change of traffic capacity and embody the base station at a low cost by flexibly embodying the 3G micro base station to be suitable for traffic capacity. CONSTITUTION: A base station control processor judges whether base station configuration information using a 3FA/3 sector, an 1FA/3 sector, or a 3FA/omni is inputted from an operator(S10). If base station configuration information using the 3FA/3 sector is inputted, the base station control processor transmits a slot ID and system ID corresponding to base station configuration information to 3 channel cards for setting the 3 channel cards as the 3FA/3 sector(S20). The base station control processor transmits the system ID to a logic switch, and controls the 3 channel cards and the first baseband interface card as the 3FA/3 sector, the 1FA/3 sector, or the 3FA/omni(S30). If base station configuration information using the 3FA/omni is inputted, the base station control processor transmits a slot ID and system ID corresponding to base station configuration information to each channel card for setting the first channel card as the 3FA/omni(S40). If base station configuration information using the 1FA/3 sector is inputted, the base station control processor transmits a slot ID and system ID corresponding to base station configuration information to each channel card for setting the first channel card as the 1FA/3 sector(S50).

Description

Transceiver and setting method for 3 Ｇ small base station system {DEVICE AND METHOD FOR INSTITUTING TRANSCEIVE IN 3G MICRO BTS SYSTEM}

The present invention relates to a transmission and reception apparatus in a 3G small base station system and a method for setting the same. More particularly, the base station configuration information is received from a base state management (BSM) using a plurality of high capacity channel cards capable of adjusting traffic bands. The present invention relates to a transmission and reception apparatus and a method of setting the same in a 3G small base station system flexibly implementing a micro base station.

The transmission / reception processing apparatus of the conventional base station system is implemented with nine channel cards and three baseband interface cards, and each channel card implements 3FA / 3 sectors through one channel CSM (Cell Site Modem).

However, since the transmission and reception processing apparatus in the conventional base station system is based on nine channel cards, the system usage efficiency is not only lowered in an area where there is not much traffic, but also the installation location is narrower as the configuration is increased. In one place, the system implementation was difficult.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to flexibly implement a 3G micro base station in accordance with traffic capacity so that the base station can be flexibly operated according to the change in traffic capacity. The present invention provides a transceiver and a method for setting the same in a 3G small base station system that enables a base station to be implemented at a low cost.

In order to achieve the above object, a transmission and reception apparatus of a 3G small base station system according to the present invention includes: a base station control processor configured to transmit corresponding slot ID and system ID, respectively, when 3G base station configuration data is input from an upper block;

When receiving the slot ID and the system ID from the base station control processor, it is determined whether the system ID is assigned to the user using the slot ID, and if assigned to the user, 1FA / 3 sectors, 3FA / omni, or the like according to the system ID. A plurality of channel cards configured to 3FA / 3 sectors;

A plurality of base band interface cards each transmitting an RF signal input from the plurality of channel cards for each sector; And

When receiving the slot ID and the system ID set to 3FA / 3 sectors from the base station control processor, the α sectors of the second channel card and the third channel card are switched to be connected to the first baseband interface card, and the 1FA / 3 And a logic switch configured to connect only the sector and the sector of the first channel card to the first baseband interface card when the slot and the system ID set to the sector and the 3FA / omni are input.

In order to achieve the above object, a method of setting a transmitting / receiving device in a 3G small base station system according to the present invention is to determine which 3FA / 3 sectors, 1FA / 3 sectors, or 3FA / omni base station shape information is input from an operator by a base station control processor. Determining a tenth step;

When base station shape information using 3FA / 3 sectors is input in step 10, the base station control processor transmits corresponding slot IDs and system IDs to the plurality of channel cards to transfer the plurality of channel cards to 3FA / 3. A twentieth step of setting up a sector; And

The base station control processor transmits a system ID to the logic switch and then switches 3FA / 3 sectors, 3FA / omni or 1FA / 3 through switching the plurality of channel cards and the first baseband interface card corresponding to the system ID. And a thirtieth step of controlling by sector.

1 is a functional block diagram showing the configuration of a transmission and reception apparatus in a 3G small base station system according to an embodiment of the present invention;

2 is an operation flowchart showing a method of setting a transmitting and receiving device in a 3G small base station system according to an embodiment of the present invention;

3 is an operation flowchart showing a detailed operation of the twentieth step (S20) of the method of setting the transceiver in the 3G small base station system according to FIG.

4 is an operation flowchart showing the detailed operation of the thirtieth step (S30) of the method of setting the transceiver in the 3G small base station system according to FIG.

5 is an operation flowchart showing the detailed operation of the 40th step (S40) of the setting method of the transceiver in the 3G small base station system according to FIG.

FIG. 6 is an operation flowchart illustrating a detailed operation of step 50 (S50) of a method of setting a transceiver in the 3G small base station system according to FIG.

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

100: base station control processor 200: channel card

300: baseband interface card

400: logic switch 410: first switch

420: second switch

Hereinafter, a transmission and reception apparatus and a setting method thereof in a 3G small base station system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a functional block diagram of a transmission and reception apparatus in a 3G small base station system according to an embodiment of the present invention, the transmission and reception apparatus in the 3G small base station system according to an embodiment of the present invention is a base station control processor 100, three It consists of the channel card (210, 220, 230), three baseband interface card (310, 320, 330) and the logic switch 400.

When the base station control processor 100 receives 3G base station configuration data from an upper block, the base station control processor 100 transmits corresponding slot IDs and system IDs to the three channel cards 210, 220, and 230, and the logic switch 400, respectively. It plays a role.

When the three channel cards 210, 220, and 230 receive the slot ID and the system ID from the base station control processor 100, the three channel cards 210 determine whether the system ID is assigned to the user using the slot ID. If is assigned to, it is set to 1FA / 3 sector, 3FA / omni, or 3FA / 3 sector according to the system ID. At this time, the three channel cards (210, 220, 230) is composed of a first channel card 210, a second channel card 220 and a third channel card 230, each channel card is Forward 64, A CSM having a channel capacity of reverse 32 is used, and three CSMs are provided, and not only can be divided into α sector, β sector and γ sector, but also the configuration of 3FA.

The three baseband interface cards 310, 320, and 330 transmit RF signals inputted from the three channel cards 210, 220, and 230 for each sector.

In addition, when the logic switch 400 receives a slot ID and a system ID set to 3FA / 3 sectors from the base station control processor 100, the logic switch 400 of the second channel card 220 and the third channel card 230 is input. Switch the sector to connect to the first baseband interface card 310, while receiving a slot ID and a system ID set to 1FA / 3 sectors and 3FA / omni, only sectors of the first channel card 210 are received. The switch serves to connect to the first base band interface card 310, and is composed of a first switch 410 and a second switch 420.

When the first switch 410 receives a slot ID and a system ID set to 3FA / 3 sectors from the base station control processor 100, the sector S of the second channel card 220 and the first baseband interface card are received. Connect the 310 and, when receiving the slot ID and the system ID set to 1FA / 3 sectors and 3FA / omni, input the β sector of the first channel card 210 and the first base band interface card 310. It serves to connect.

Also, the second switch 420 receives a slot ID and a system ID set to 3FA / 3 sectors from the base station control processor 100, and the sector S and the first base band of the third channel card 230 are received. When the interface card 310 is connected and the slot ID and system ID set to 1FA / 3 sectors and 3FA / omni are input, the sector sector of the first channel card 210 and the first baseband interface card 310 are received. ) In conjunction with.

Next, a method of setting a transceiver in the 3G small base station system having the above configuration will be described with reference to FIG. 2.

First, the base station control processor 100 determines whether 3FA / 3 sectors, 1FA / 3 sectors, or 3FA / omni base station shape information is input from an operator (S10).

At this time, when the base station shape information using 3FA / 3 sectors is input in the tenth step (S10), the base station control processor 100 transmits the corresponding slot ID and system ID to the three channel cards 210, The three channel cards 210, 220, and 230 are set to 3FA / 3 sectors by transmitting to 220 and 230 (S20).

Hereinafter, a detailed operation process of the above-described twentieth step S20 will be described in more detail with reference to FIG. 3.

First, the base station control processor 100 transmits a slot ID "00" to the first channel card 210 to determine whether the first channel card 210 exists (S21).

At this time, if the first channel card 210 does not exist (NO) in the twenty-first step (S21), if the first channel card 210 exists (YES), the base station control processor 100 ) Transmits a system ID " 10 " to the first channel card 210 and then receives a response signal indicating that it is set to α sector of 3FA / 1 sector from the first channel card 210 (S22).

Subsequently, the base station control processor 100 transmits a slot ID "01" to the second channel card 220 to determine whether the first channel card exists (S23).

At this time, if the second channel card 220 does not exist (NO) in the twenty-third step (S23), if the second channel card 220 exists (YES), the base station control processor 100 ) Transmits a system ID " 10 " to the second channel card 220 and then receives a response signal indicating that it is set to β sector of 3FA / 1 sector from the second channel card 220 (S24).

Subsequently, the base station control processor 100 determines whether or not the third channel card 230 exists by transmitting a slot ID "10" to the third channel card 230 (S25).

At this time, if the third channel card 230 does not exist (NO) in the 25th step (S25), if the third channel card 230 exists (YES), the base station control processor 100 ) Transmits a system ID " 10 " to the third channel card 230 and then receives a response signal indicating that it is set to the γ sector of 3FA / 1 sector from the third channel card 230 (S26).

Then, the base station control processor 100 transmits a system ID to the logic switch 400 and then the three channel cards (210, 220, 230) and the first baseband interface card (corresponding to the system ID). 310 is controlled to 3FA / 3 sectors, 3FA / omni or 1FA / 3 sectors through switching (S30).

Hereinafter, a detailed operation process of the thirtieth step S30 will be described in more detail with reference to FIG. 4.

First, the base station control processor 100 determines whether any base station type information is input from an operator (S31).

At this time, when receiving the base station type information of 3FA / 3 sectors from the operator in the 31st step (S31), the base station control processor 100 receives the β and γ sectors of the first channel card 210 in the first base. Blocking the band interface card 310 and at the same time the α sector of the second channel card 220 and the third channel card 230 is connected to the first base band interface card 310 (S32).

On the other hand, when receiving the base station type information of 1FA / 3 sectors from the operator in the 31st step (S31), the base station control processor 100 receives the β and γ sectors of the first channel card 210 in the first base The sectors of the second channel card 220 and the third channel card 230 are blocked from the first base band interface card 310 while being connected to the band interface card 310 (S33).

Meanwhile, when the base station type information of 3FA / omni is received from the operator in step 31 (S31), the base station control processor 100 receives the β and γ sectors of the first channel card 210 in the first baseband interface. The S sector of the second channel card 220 and the third channel card 230 is blocked from the first base band interface card 310 while being connected to the card 310 (S34).

On the other hand, when the base station shape information using 3FA / Omni is input in the tenth step (S10), the base station control processor 100 transmits the corresponding slot ID and system ID to each channel card so as to transmit the first information. Channel card 210 is set to 3FA / Omni (S40).

Hereinafter, a detailed operation process of the above-described 40th step S40 will be described in more detail with reference to FIG. 5.

First, the base station control processor 100 transmits a slot ID "01" to each channel card to determine whether the first channel card 210 exists (S41).

At this time, if the first channel card 210 does not exist (NO) in the 41st step (S41), if the first channel card 210 exists (YES), the base station control processor 100 ) Transmits a system ID "01" to the first channel card 210 (S42).

Subsequently, the base station control processor 100 receives a response signal indicating that 3FA / omni is set from the first channel card 210 (S43).

Meanwhile, when base station shape information using 1FA / 3 sectors is input in the tenth step (S10), the base station control processor 100 transmits a corresponding slot ID and system ID to the channel card to transmit the first card. The channel card 210 is set to 1FA / 3 sectors (S50).

Hereinafter, a detailed operation process of the above-described fifty step S50 will be described in more detail with reference to FIG. 6.

First, the base station control processor 100 transmits a slot ID "00" to each channel card to determine whether the first channel card 210 exists (S51).

At this time, if the first channel card 210 does not exist (NO) in the 51st step (S51), if the first channel card 210 exists (YES), the base station control processor 100 ) Transmits a system ID "00" to the first channel card 210 (S52).

Subsequently, the base station control processor 100 receives a response signal indicating that 1FA / 3 sectors is set from the first channel card 210 (S53).

As described above, according to the transmission and reception apparatus and the setting method of the 3G small base station system according to the present invention, not only can the base station be flexibly operated in accordance with the change in traffic capacity, but also in a specific area, that is, the area with low traffic capacity. There is an outstanding effect that enables the base station to be implemented without waste.

Claims (11)

A base station control processor configured to transmit slot IDs and system IDs corresponding to the 3G base station configuration data from an upper block; When receiving the slot ID and the system ID from the base station control processor, it is determined whether the system ID is assigned to the user using the slot ID, and if assigned to the user, 1FA / 3 sectors, 3FA / omni, or the like according to the system ID. A plurality of channel cards configured to 3FA / 3 sectors; A plurality of base band interface cards each transmitting an RF signal input from the plurality of channel cards for each sector; And When receiving a slot ID and a system ID set to 3FA / 3 sectors from the base station control processor, α sectors of the second channel card and the third channel card are switched to be connected to the first base band interface card, and 1FA / 3 is used. 3G small base station system comprising a logic switch which switches only the β sector and the γ sector of the first channel card to the first base band interface card when receiving a slot ID and a system ID set to sector and 3FA / omni. Transceiver at. The method of claim 1, The logic switch connects the α sector of the second channel card to the first base band interface card when receiving the slot ID and system ID set to 3FA / 3 sectors from the base station control processor, and the 1FA / 3 sector. And a first switch connecting the β sector of the first channel card to the first base band interface card when receiving a slot ID and a system ID set to 3FA / omni. And When receiving a slot ID and a system ID set to 3FA / 3 sectors from the base station control processor, the α sector of the third channel card is connected to the first baseband interface card, while 1FA / 3 sectors and 3FA / omni And a second switch configured to connect the gamma sector of the first channel card and the first baseband interface card by interworking when the slot ID and the system ID are set. A tenth step of the base station control processor determining whether 3FA / 3 sectors, 1FA / 3 sectors, or base station shape information using 3FA / omni has been input from the operator; When base station shape information using 3FA / 3 sectors is input in step 10, the base station control processor transmits corresponding slot IDs and system IDs to the plurality of channel cards to transfer the plurality of channel cards to 3FA / 3. A twentieth step of setting up a sector; And The base station control processor transmits a system ID to the logic switch and then switches 3FA / 3 sectors, 3FA / omni or 1FA / 3 through switching the plurality of channel cards and the first baseband interface card corresponding to the system ID. And a thirty-stage step of controlling with sectors. The method of claim 3, wherein The twenty-first step may include: a twenty-first step of determining, by the base station control processor, whether the first channel card exists by transmitting a slot ID "00" to a first channel card; If the first channel card does not exist in the twenty-first step, and terminates, if the first channel card exists, the base station control processor transmits a system ID "10" to the first channel card and then the first channel A twenty-second step of receiving a response signal notifying that the card is set to 3 sectors / 1 sector by the card; A twenty-third step, wherein the base station control processor transmits a slot ID " 01 " to a second channel card to determine whether a second channel card exists; If the second channel card does not exist in the twenty-third step, the operation is terminated. If the second channel card exists, the base station control processor transmits a system ID "10" to the second channel card. A twenty-fourth step of receiving a response signal indicating that the channel is set to be? Sector of 3FA / 1 sector from the 2 channel card; A twenty-fifth step that the base station control processor transmits a slot ID "10" to a third channel card to determine whether the third channel card exists; And In step 25, if the third channel card does not exist, the process is terminated. If the third channel card exists, the base station control processor transmits a system ID " 10 " And a twenty-sixth step of receiving a response signal from the three-channel card indicating that the signal is set to the γ sector of the 3FA / 1 sector. The method of claim 3, wherein The thirty-third step may include: a thirty-first step of determining, by the base station control processor, which base station type information is input from an operator; And When the base station type information of 3FA / 3 sectors is input in step 31, the β and γ sectors of the first channel card are blocked from the first base band interface card, and the second channel card and the third channel card are blocked. And a thirty-second step of connecting the [alpha] sector with the first baseband interface card. The method of claim 5, In step 31, when the base station type information of 1FA / 3 sectors is received from the operator, the base station control processor connects the β and γ sectors of the first channel card with the first base band interface card and simultaneously the second channel card. And a thirty-third step of blocking the [alpha] sector of the third channel card with the first baseband interface card. The method of claim 5, In step 31, when the base station type information of 3FA / omni is received from the operator, the base station control processor connects the β and γ sectors of the first channel card with the first base band interface card and simultaneously the second channel card and And a thirty-fourth step of blocking the [alpha] sector of the third channel card with the first baseband interface card. The method of claim 3, wherein When the base station shape information using 3FA / omni is input in step 10, the base station control processor transmits the corresponding slot ID and system ID to each channel card to set the first channel card to 3FA / omni. And setting a transmitting / receiving device in the 3G small base station system, further comprising the 40 step. The method of claim 8, The forty-seventh step may include: the base station control processor transmitting a slot ID "01" to each channel card to determine whether the first channel card exists; In step 41, if the first channel card does not exist, and terminates, and if the first channel card exists, the base station control processor transmitting a system ID "01" to the first channel card; And And a 43rd step of receiving a response signal indicating that the base station control processor is set to 3FA / omni from the first channel card. The method of claim 3, wherein When base station shape information using 1FA / 3 sectors is input in step 10, the base station control processor transmits the corresponding slot ID and system ID to each channel card to transfer the first channel card to 1FA / 3 sectors. And a fifty-stage step of setting. The method of claim 10, The fifty-seventh step includes: the base station control processor transmitting a slot ID " 00 " to each channel card to determine whether the first channel card exists; A step 52 if the first channel card does not exist in step 51, and the base station control processor transmits a system ID "00" to the first channel card if the first channel card exists; And And a 53 th step of receiving a response signal indicating that the base station control processor is set to 1FA / 3 sectors from the first channel card.