KR20000045126A - Apparatus for monitoring power feeding status of receiving antenna in wireless local loop - Google Patents

Abstract

The present invention relates to a power supply monitoring apparatus for a receiving antenna of a wireless subscriber network, which is capable of monitoring a feeding state of a receiving antenna using a RIU in a base station test unit. First, when the RXFU 64 is reached by wireless, When the RXFU 64 is reached wirelessly from the antenna of the side RIU 62 to the RXFU 64 via the receiving side antenna, the radiated power of the RIU 62 is transmitted to the transmission and reception power state monitoring unit 54 through the coupler of the RXFU 64. When the values checked by the transmission / reception power supply monitoring unit 54 are sent to the digital controller 60, the digital controller 60 receives the power radiated from the RIU 62 in real time and the antenna of the base station and then RXFU ( 64) and compares the values checked in real time in the transmission and reception state monitoring unit 54 to report to the RCP 68 of the base station controller when there is a certain amount or more errors, and secondly, the RXFU 64 is reached by wire. In this case, the RIU radiated power reaching the RXFU 64 through the test line providing unit 56 from the RIU 62 and the radiated power of the RIU 62 reaching wirelessly are compared in the RFC 66 to the RCP 68. Report).

Description

Feeding state monitoring device of wireless subscriber network receiving antenna

The present invention relates to a wireless subscriber network system, and more particularly, to a power supply monitoring apparatus for a wireless subscriber network receiving antenna capable of monitoring a feeding state of a receiving antenna using a RIU in a base station test unit.

In general, the construction of a WLL base station system requires a base station test unit that can test and test an unmanned WLL base station system alone.

The WLL base station testing unit requires a feed-in feed monitoring device that can receive the RF signal and verify the feed-in state of transmission and reception in real time.

1 is a block diagram of a base station 200 system of a WLL system, an interface unit 10 connected to a base station controller with E1 and HDSL and outputting a call and a control signal, and connected to the interface unit 10 to provide a timing signal. A digital processing unit which outputs a synchronization unit 20 and a timing signal from the synchronization unit 20, and performs a function of reporting a state of the base station to a higher system by a control signal of the interface unit 10; 30, an RF processor 40 operating by the timing signal of the synchronizer 20 and exchanging an interface signal with the digital processor 30 to control RF, and the RF processor 40 and the RF signal. It is composed of a base station test unit 50 to send and receive and exchange control signals with the interface unit 10.

In the drawings, reference numeral 100 denotes a subscriber access device, 300 a base station controller, and 400 a switch.

FIG. 2 is a detailed configuration of the base station test unit 50 of FIG. 1, which receives and processes signals of 2.37 to 2.40 GHz at an RF terminal, and reports processed data to an upper system.

As shown here, the RF signal is received from the RF control unit 40 and performs the RF signal processing function of the base station test unit 50, the presence or absence of the transmission and reception antenna, the measurement of the base station output, the RF signal path between the WLL terminal and the base station RF test unit 51 and RF test unit 51 for receiving a command from the digital control unit to turn on / off the signal path for each sector or attenuation that may occur in a wireless environment in a path composed of a wired line. The digital control unit 52, which tests power control induction function and TPTL function and receives information through communication with WLL terminal and reports the function of the current base station to a higher system as a main board of the RF test unit. It consists of a WLL terminal 53 connected between the 51 and the digital control unit 52.

In addition, the RF test unit 51 monitors and evaluates the quality of the transmission / reception power supply state in the operating state, and checks and notifies in real time whether there is a problem in the actual operation state, and transmits and receives the power supply state to enable rapid processing for maintenance. Monitoring unit 54, transmission power detection unit 55 to accurately detect the power supply output of the changing state of the CDMA system to ensure accurate control, and to provide a virtual line for the actual test to provide between the terminal unit and the central station A test line providing unit 56 for enabling a test, a status display unit 57 for displaying the contents of each piece of information for confirming the above items, and a request for transmission of request information from the digital control unit 52. It consists of an information transmitting and receiving unit 58.

3 shows a configuration of a conventional transmit / receive power supply monitoring unit 54, in which a signal from an RF terminal is transmitted through a 30 dB coupler 60 and a base station antenna. do.

In addition, the signal transmitted through the base station antenna is input to the 30dB coupler 61 through the receiving antenna and to the transmission and reception power supply status monitoring unit 54 at the same time.

Therefore, the transmission / reception power supply state monitoring unit 54 monitors the transmission / reception power supply state by comparing the transmission progress wave and the reception wave.

In this case, the monitoring of the transmission feed state can be monitored by comparing the traveling wave and the reflected wave radiated through the antenna, and the monitoring of the receiving feed state can be monitored by comparing the power radiated through the transmitting antenna with the power induced by the receiving antenna. have.

However, since the conventional reception power supply monitoring unit 54 monitors the reception power supply state using only the power induced from the transmitting antenna, it has a drawback that it is difficult to monitor the accurate reception power supply state because it is too sensitive to the surrounding radio wave environment.

SUMMARY OF THE INVENTION The present invention has been made to solve such a conventional problem, and an object of the present invention is to monitor the power supply state of a wireless subscriber network receiving antenna capable of monitoring a power supply state of a receiving antenna using a RIU in a base station test unit. The purpose is to provide.

1 is a block diagram of a base station system of a WLL system;

2 is a detailed configuration diagram of the base station test unit of FIG.

3 is a block diagram of a conventional transmission and reception state monitoring unit

4 is a block diagram of the transmission and reception state monitoring unit according to the present invention

<Explanation of symbols for main parts of drawing>

54: transmission and reception power supply monitoring unit 56: test line providing unit

60: RIU 62: RIU

64: RXFU 66: RFC

68: RCP

The present invention for achieving the above object is that when the power radiated from the RIU by a digital controller is controlled in real time, the radiated power is wirelessly through the divider to the RXFU of the receiving side wirelessly through the antenna of the RIU which is a WLL terminal And the other side is configured to reach the RXFU of the receiving side by wire through the test line providing unit, that is, to monitor the receiving power supply state by wire as well as wirelessly using the RIU.

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

4 is a detailed configuration of the receiving power supply status monitor using the RIU in accordance with the present invention, by providing a virtual line for the actual test, the test line providing unit 56 to enable the test between the terminal unit and the central station, and operation Transmitting and receiving power supply status monitoring unit 54 and the RIU 62 to monitor and evaluate the quality of the transmission and reception power supply status in real time to check and notify in real time whether there is an abnormal operation status, so that the maintenance can be quickly processed. In comparison with the digital controller 60 for receiving power through the antenna of the base station and the value checked in real time in the transmission and reception state monitoring unit 54 after receiving through the antenna of the base station in real time at a certain amount or more error, RXFU 64 for wirelessly receiving the signal from the RIU 62 and receiving the signal input through the test line providing unit 56 by wire. The RFC 66 compares the radiated power of the RIU 62 reaching wirelessly with the RIU radiated from the RIU 62 through the test line providing unit 56, and the RFC ( 66) and the RCP 68 which reports an abnormal signal from the digital controller 60.

Referring to the operation of the present invention configured as described above is as follows.

First, the power radiated from the RIU 62 is controlled in real time by the digital controller 60. The power radiated from the RIU 62 is wirelessly through the divider through an antenna of the RIU 62, which is a WLL terminal. The RXFU 64 of the receiving side is reached, and the other side reaches the RXFU 64 of the receiving side by wire through the test line providing unit 56.

First, the case where the RXFU 64 is reached wirelessly will be described.

That is, when the RXFU 64 is reached wirelessly from the antenna of the transmitting RIU 62 through the receiving antenna, the radiated power of the RIU 62 is transmitted / received by the coupler of the RXFU 64. ), And the values checked by the transmission / reception power supply monitoring unit 54 are sent to the digital controller 60.

Therefore, the digital controller 60 compares the power radiated from the RIU 62 in real time with the value checked in real time by the transmission / reception power supply monitoring unit 54 via the RXFU 64 after being received through the antenna of the base station. .

If the value compared by the digital controller 60 has a certain amount or more of error, it is determined that there is an error in the receiving antenna and immediately reports it to the RCP 68 of the base station controller.

Second, the case where the RXFU 64 is reached by wire is described.

That is, in determining the abnormality of the reception antenna, when the RXFU 64 on the receiving side is reached by wire, the RIU radiation reaching the RXFU 64 from the RIU 62 through the test line providing unit 56. The power and the radiated power of the RIU 62 reached wirelessly are compared to the RFC 66 and reported to the RCP 68.

Therefore, according to the present invention, the RIU 62 can monitor the reception power supply state by wire or wirelessly. In the RCP 68, the signal input from the digital controller 60 and the signal input from the RFC 66 can be monitored. In this case, the test line providing unit 56 and the transmission / reception feeding state monitoring unit 54 are not necessary.

As described above, the present invention has an effect of easily monitoring the power supply state of the receiving antenna without being greatly influenced by the surrounding radio wave environment by using the WLL terminal antenna and the receiving antenna.

Claims (1)

A test line providing unit 56 for providing a virtual line for the actual test to enable a test between the terminal unit and the central station; A transmission and reception power status monitoring unit 54 for monitoring and evaluating the quality of the transmission and reception power supply status in a running state to inspect and notify in real time whether there is a problem in the actual operation state, thereby enabling rapid processing for maintenance; Compared with the power radiated by the RIU 62 in real time and the value checked in real time in the transmission and reception state monitoring unit 54 through the RXFU after receiving through the antenna of the base station to report to the RCP when a certain amount or more error Controller 60, An RXFU 64 for wirelessly receiving a signal from the RIU 62 and receiving a signal input through a test line providing unit 56 by wire; An RFC 66 comparing the radiated power of the RIU 62 reaching wirelessly with the RIU radiated from the RIU 62 through the test line providing unit 56; And an RCP (68) for receiving an abnormal signal from the RFC (66) and the digital controller (60).