KR20030033434A - BTS Analysis and Diagnostic Assembly in a mobile communication system - Google Patents

Abstract

PURPOSE: A device for analyzing and diagnosing a base station in a mobile communication system is provided to eliminate a need to support a voice service, so as to enhance a data service transfer rate, and to allocate entire wireless resources during a specific time slot to a terminal subscriber by applying TDMA(Time Division Multiple Access), so as to minimize the influence due to interference rather than an IS-95C(Interim Standard-95C) system. CONSTITUTION: A synchronous mobile simulator(21a) has a built-in synchronous 1xEV-DO(1xEVolution-Data Only) terminal, and enables the transceiving of input/output data using an internal call setup function. An RF(Radio Frequency) matrix block(21b) connects the synchronous mobile simulator(21a) and a duplexer(22) that is a directional coupler. A BADA(Base station Analysis/Diagnosis Assembly) control decoder(21c) controls the BADA(21) using a control/state signal provided in a peripheral circuit(23) of a mobile system, to make the synchronous mobile simulator(21a) operated under an environment desired by a user through a path provided by the RF matrix block(21b). Also, the BADA control decoder(21c) notifies the state of the BADA(21) to a higher board(24).

Description

BTS Analysis and Diagnostic Assembly in a mobile communication system

The present invention relates to an apparatus for diagnosing and analyzing a base station in a mobile communication system, and in particular, a 1xEV-DO mobile simulator including a 1xEV-DO terminal for diagnosing and analyzing the status of a synchronous 1xEV-DO (data only) base station. And it relates to an analysis / diagnostic device for the 1xEV-DO base station consisting of a peripheral device.

More specifically, the present invention provides a synchronous mobile simulator that has a built-in synchronous terminal for diagnosing and analyzing a base station of a synchronous mobile communication system and that enables input / output data by using its own call setup function. And a plurality of SAW duplexers and a plurality of RF / IF Rx SAWs for space diversity.

Hereinafter, the prior art will be described.

1 is a block diagram of an apparatus and peripheral block for diagnosis / analysis of a conventional IS-95C base station.

As shown in the figure, it consists of a base station analysis / diagnostic assembly (BADA) 11, a duplexer 12, which is a directional coupler, a peripheral circuit 13, and an upper board 14 of a mobile system.

In addition, the BADA (11a) and the IS-95C mobile simulator that supports the voice and video built-in and IS / 95C mobile simulator to enable the transmission and reception of the input / output data using its own call setup function (11a), RF metric unit (11b) connecting the mobile simulator and the duplexer of the base station, and the control / status signal provided by the peripheral circuit of the mobile system to operate the mobile simulator in the environment desired by the user through the path provided by the RF matrix A BADA control decoder (BDCD) 11c is configured to control the BADA and inform the upper board of the mobile system of the BADA state.

However, the base station analysis / diagnostic apparatus configured and operated as described above can perform IS-95C base station analysis and diagnosis, but cannot perform synchronous 1xEV-DO base station diagnosis / analysis.

The present invention is to propose a base station analysis / diagnostic apparatus for 1xEV-DO instead of the conventional IS-95C base station analysis / diagnostic apparatus as described above.

1 is a block diagram of an apparatus and peripheral block for diagnosis / analysis of a conventional IS-95C base station.

2 is a block diagram of an apparatus and peripheral block for diagnosis / analysis of a 1xEV-DO base station of the present invention.

3 is a block diagram illustrating a terminal in which a plurality of SAW duplexers, a plurality of RF / IF Rx SAWs, and peripheral circuits are used for space diversity;

The base station analysis and diagnostic apparatus of the present invention comprises a base station analysis / diagnosis assembly (BADA) and a duplexer, which is a directional coupler, to incorporate a synchronous terminal, and to synchronize input / output data using its own call setup function. A mobile simulator; An RF metric unit connecting the mobile simulator and a duplexer of the base station; Through the path provided by the RF matrix, the mobile simulator controls the BADA using a control / status signal provided by a peripheral circuit of the mobile system so that the mobile simulator operates in an environment desired by the user, and the BADA state is controlled by an upper board of the mobile system. It is characterized in that it comprises a; BADA control decoder to inform.

In the present invention, the synchronous mobile simulator is characterized in that the terminal includes a plurality of SAW duplexers and a plurality of RF / IF Rx SAW for space diversity (space diversity).

Other objects and features of the present invention will become apparent from the detailed description of the embodiments with reference to the accompanying drawings.

Hereinafter, a base station analysis / diagnostic apparatus according to the present invention will be described with reference to the accompanying drawings.

2 is a block diagram and apparatus for diagnosis / analysis of a 1xEV-DO base station of the present invention.

As shown in the figure, it consists of a base station analysis / diagnostic assembly (BADA) 21, a duplexer 22, which is a directional coupler, a peripheral circuit 23, and an upper board 24 of the mobile system.

In addition, the BADA (21) has a built-in synchronous 1xEV-DO terminal that supports only voice, and the synchronous mobile simulator (21a) to enable the transmission and reception of input and output data using its own call setup function, and the mobile simulator An RF metric unit 21b for connecting a duplexer of a base station and a control / status signal provided by the peripheral circuit 23 of the mobile system so that the mobile simulator operates in a desired environment through a path provided by the RF matrix. And a BADA control decoder 21C for controlling the BADA and informing the upper board 24 of the mobile system.

In addition, as shown in FIG. 3, the synchronous mobile simulator 21a includes a plurality of SAW duplexers, a plurality of RF / IF Rx SAWs 21a1, and a peripheral circuit 21a2 for a space diversity of a terminal. have.

Hereinafter, operations or features of the present invention will be described.

As described above, the present invention is to perform the synchronous 1xEV-DO base station diagnosis and analysis using the mobile simulator for 1xEV-DO instead of the mobile simulator for IS-95C with the IS-95C terminal.

Therefore, the status check of the 1xEV-DO base station transceiver stage, the voltage standing wave ratio (VSWR) measurement function of the transmit and receive antenna, and the 1xEV-DO base station channel element function test part are the same as those of the conventional IS-95C. , 1xEV-DO (data only) mobile simulator of the present invention does not support voice, so it is not necessary to perform the function of voice loop-back function test.

In addition, in the present invention, since the 1xEV-DO terminal uses two antennas for space diversity, each parameter of the two receiving antennas needs to be measured.

In addition, the 1xEV-DO system of the present invention does not support a separate voice service, thereby increasing the transmission rate of the data service, and applying the TDMA scheme to the subscriber to allocate the entire radio resource for a specific time slot, compared to the IS-95C system. The influence of interference can be minimized.

As described above, the present invention includes a synchronous terminal for diagnosing and analyzing a base station of a synchronous mobile communication system, and the terminal includes a synchronous mobile simulator capable of transmitting / receiving input / output data using its own call setup function. A plurality of SAW duplexers and a plurality of RF / IF Rx SAWs for space diversity are provided.

Although the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments.

Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

The present invention is a new configuration of a BADA equipped with a 1xEV-DO mobile simulator for the 1xEV-DO base station analysis / diagnosis, since the 1xEV-DO system of the present invention does not support a separate voice service, it is possible to increase the transmission rate of the data service. .

In addition, by applying the TDMA scheme to the terminal subscribers to allocate the entire radio resources for a specific time slot, the impact of interference can be minimized than the IS-95C system.

Claims (2)

A mobile communication system having a base station analysis / diagnostic assembly (BADA) and a duplexer as a directional coupler, A synchronous mobile simulator having a built-in synchronous terminal and allowing input / output data to be transmitted / received using its own call setup function; An RF metric unit connecting the mobile simulator and a duplexer of the base station; Through the path provided by the RF matrix, the mobile simulator controls the BADA using a control / status signal provided by a peripheral circuit of the mobile system so that the mobile simulator operates in an environment desired by the user, and the BADA state is controlled by an upper board of the mobile system. A base station analysis diagnostic apparatus comprising a; BADA control decoder to inform. The apparatus of claim 1, wherein the synchronous mobile simulator comprises a plurality of SAW duplexers and a plurality of RF / IF Rx SAWs for space diversity.