KR20010077402A - Apparatus for automatic testing of base station terminal - Google Patents

Abstract

PURPOSE: An apparatus for testing automatically the capacity of a base station is provided to check automatically a state of a transmitting signal by monitoring continuously the transmitting signal. CONSTITUTION: A communication system is composed of a base station(303) and an antenna(302). A coupler(304) extracts a part of signals transmitted from the base station(303) through the antenna(302). A state measuring portion(301) analyzes a signal extracted by the coupler(304). The state measuring portion(301) outputs an abnormal state signal when the state measuring portion(301) senses an abnormal state of the base station on the basis of the analyzed result. A decision/execution portion(300) generates a control signal to measure a VSWR(Voltage Standing Wave Ratio) of the antenna(302) according to the abnormal state signal of the state measuring portion(301). A VSWR measuring portion(305) displays the measured VSWR to a manager.

Description

Apparatus for automatic testing of base station terminal

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication system, and more particularly, to a base station automatic test apparatus for automatically testing the performance of a base station.

Currently, code division multiple access (CDMA) mobile communication systems measure the voltage standing wave ratio (VSWR) of an antenna in order to test the performance of a base station, and a base station performance measuring apparatus is used for this purpose.

1 is a diagram illustrating a connection between a base station performance test apparatus and an antenna in a conventional mobile communication system.

Referring to FIG. 1, the base station includes an antenna for each sector. In addition, each antenna is composed of two. Each antenna performs a transmitting function and a receiving function separately, and is called a simplex antenna, and one antenna performs transmitting and receiving functions simultaneously and the other antenna A type that performs a reception-only function is called a duplex antenna.

In this case, in the base station having a duplex antenna, a bidirectional coupler 101, 104 is provided between the transmit / receive antenna 100 or the receive-only antenna 103 and the antenna connection terminals 102 and 105 of the base station. Each is provided. The two-way coupler (101, 104) is a device for extracting and outputting a signal of a predetermined size from the transmission signal or the reception signal transmitted through each antenna, one signal in the incident path and the reflection path of the transmission signal or reception signal Output to transmit to the base station performance measurement device.

FIG. 2 is a block diagram illustrating a base station performance test apparatus shown in FIG. 1.

Referring to FIG. 2, signals extracted and output from the bidirectional couplers 101 and 104 shown in FIG. 1 are connected to path selection switches 200 and 201, respectively, and path selection switches 200 and 201 are input signals. Select one path between the incident path and the reflective path of.

Subsequently, the pass switches 202 and 203 select whether to pass an input signal and separate the transmission signal and the reception signal by the duplex filter 204 and 205, respectively.

In this case, the transmission signals separated by the duplex filters 204 and 205 are combined in the combiner 2 (2-SPL2) 209 and input to the Attenuator 211, and the adder 2 211 is inputted. Adjust the size of the signal.

Meanwhile, the received signals separated by the duplex filters 204 and 205 are input to the receiving pass switches 206 and 207, and the receiving pass switches 206 and 207 determine whether the received signals pass. The combiner 1 208 then combines the received signals that have passed through the receive path switches 206 and 207, and the combined received signals are input to the modulator 1 210 and scaled.

The transmission signal and the reception signal output by this process are again transmitted to the mobile terminal connection terminal 213 through the duplex filter 212.

The conventional method of measuring voltage standing wave ratio (VSWR) of a base station antenna through such a path is performed using a closed loop power control function between a base station and a mobile terminal. That is, in closed loop power control, the transmission output of the mobile station by the base station is adjusted as in Equation 1 below.

Transmit Power of Mobile Terminal = -73n + P _RX + GS

Here, P _RX denotes a reception power of the mobile terminal, and G _ADJ denotes a transmission adjustment value of the mobile terminal.

Therefore, the voltage standing wave ratio (VSWR) measurement of the conventional base station antenna is performed as follows.

First, bidirectional couplers are connected to the main signal path between the base station and the transmit / receive antenna to create ports for the incident path and the reflected path.

Subsequently, the path selection switch 2 201 in which the incidence path and the reflection path of the reception-only antenna are connected is transferred to the incidence path of the coupler, and then a Markov call is set. At this time, the transmission power of the mobile terminal is measured.

Subsequently, the path selector switch 201 measures the transmission power of the mobile terminal after switching the reception path to the reflection path.

Next, the voltage standing wave ratio (VSWR) is measured by calculating Equation 2 below.

P _d = P _dBRVS -P _dBFWD

Here, P _dBRVS is the output power of a mobile terminal for a reflection path of the coupler, _dBFWD P is the output power of a mobile terminal to the incident path of the coupler. In addition, τ is a reflection coefficient and P _d means a difference in output power of the mobile terminal when the call is set up through the reflection and the incident path of the coupler.

By using the voltage standing wave ratio (VSWR) measured according to this process, the operator can know the specific frequency allocation (FA) of the current base station and the operation state of a specific antenna. Therefore, when the voltage standing wave ratio (VSWR) for a particular FA exceeds a certain range compared to a reference value that is already set, the operator malfunctions the performance of the antenna and base station devices that are communicating with the mobile terminal through the FA. You can detect that

However, the conventional base station performs the operation of the sector in which an abnormality occurs by increasing the power of other sectors when an abnormality occurs in a specific sector. At this time, the operator can only know that the call quality is deteriorated, and there is a problem in that a stable system operation can not be performed because the operator does not know which sector has an abnormality and which antenna is abnormally operated.

In addition, since the operator must manually measure the voltage standing wave ratio (VSWR) of the base station to check whether the system is abnormal, it is not only cumbersome and inconvenient to operate and maintain the system, but also increases the system load, cost, and manpower.

In addition, there is a problem that can not provide a stable communication service to the user because the base station does not immediately solve the cause of the abnormal operation when the base station operates abnormally.

Accordingly, an object of the present invention has been made in view of the above-mentioned problems of the prior art, and is to provide an automatic base station performance testing apparatus capable of automatically testing base station performance.

According to an aspect of the present invention for achieving the other object as described above, the automatic base station performance testing apparatus includes a coupler for extracting a part of the signal transmitted through the antenna, and a passing unit for passing only the transmission signal from the extracted signal; And a power / voltage converter converting the power of the passed signal into a voltage value and outputting the voltage, and comparing the output voltage value with a preset reference value and detecting an abnormality of the extracted signal based on a comparison result. An output voltage monitoring unit, a determination / executing unit generating a control signal to measure the voltage standing wave ratio VSWR of the antenna according to the output abnormal signal, and a voltage standing wave ratio of the antenna according to the generated control signal And a voltage standing wave ratio measuring unit for measuring (VSWR).

1 is a view showing the connection between the base station performance test apparatus and the antenna in the conventional mobile communication system.

Figure 2 is a block diagram showing a base station performance test apparatus shown in FIG.

Figure 3 is a block diagram showing an automatic base station performance tester according to the present invention.

Figure 4a is a block diagram of the abnormality measurement unit shown in FIG.

FIG. 4B is a block diagram of the decision / executing unit shown in FIG. 3. FIG.

* Description of the symbols for the main parts of the drawings *

300: determination / execution unit 301: abnormality measurement unit

302: antenna 303: base station

304: coupler 305: voltage standing wave ratio measurement unit

Hereinafter, a configuration and an operation according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

The present invention proposes an automatic base station performance tester that detects abnormal operation of a base station and automatically detects a specific FA and a specific antenna that are abnormally operated by automatically measuring a voltage standing wave ratio (VSWR) of an antenna when an abnormality is detected.

To this end, the present invention monitors the transmission signal of the base station to detect whether the abnormal operation, and if the abnormality is detected, the voltage standing wave ratio (VSWR) of the antenna is automatically measured. Such operation is continuously performed automatically during operation of the base station, so that the operator does not need to manually check the state of the base station, and can also take immediate action in case of an error, thereby enabling stable system operation.

3 is a block diagram showing an automatic base station performance tester according to the present invention.

Referring to FIG. 3, in a communication system including a base station 303 and an antenna 302, a coupler 304 for extracting a part of a signal transmitted through the antenna 302 from the base station 303, Analyzing the signal extracted from the coupler 304 to detect whether or not the abnormality of the base station 303, and if the abnormality is detected in the base station 303 and the abnormality measurement unit 301 for outputting an abnormal signal and A determination / executing unit 300 generating a control signal to measure the voltage standing wave ratio VSWR of the antenna 302 according to the abnormal signal output from the abnormality measuring unit 301, and the determination / executing unit The voltage standing wave ratio measurement unit 305 measures the voltage standing wave ratio VSWR of the antenna 302 according to the control signal generated at 300 and displays the measured voltage standing wave ratio VSWR to the operator. do.

The operation of the base station automatic performance test apparatus configured as described above is as follows.

First, the coupler 304 extracts some signals from the signals transmitted from the base station 303 to the antenna 302 and transmits them to the abnormality measuring unit 301. The coupler 304 continuously extracts a part of the signal transmitted to the antenna 302 while the base station is operating and transmits it to the abnormality measuring unit 301.

Then, the abnormality measuring unit 301 detects the occurrence of the abnormality of the base station by comparing the signal extracted from the coupler 304 with a reference value that is already set. Here, the reference value is a reference value for the base station transmission signal to detect whether the base station is abnormal. Therefore, the abnormality measuring unit 301 detects that the base station 303 is abnormally operated when the signal extracted from the coupler 304 exceeds the reference value. After that, if the abnormality measurement unit 301 detects an abnormal operation of the base station 303, and transmits an abnormal signal for notifying the determination / execution unit 300. At this time, the abnormal signal is either a low value or a high value.

The determination / executing unit 300 determines that the base station 303 is abnormally operated based on the abnormal signal transmitted from the abnormality measuring unit 301, and generates a control signal to the voltage standing wave ratio measuring unit 305 accordingly. To measure the voltage standing wave ratio VSWR of the antenna 302.

The voltage standing wave ratio measuring unit 305 measures the voltage standing wave ratio VSWR of the antenna 302 according to the control signal generated by the determination / executing unit 300. Here, the voltage standing wave ratio measuring unit 305 measures the power transmission / reception signal power in the forward and reverse directions with the mobile terminal and measures the voltage standing wave ratio VSWR of the antenna using the difference. The voltage standing wave ratio measuring unit 305 passes a signal of a specific sector to a desired size and measures the voltage standing wave ratio VSWR for a specific FA. The voltage standing wave ratio measuring unit 305 displays the measured voltage standing wave ratio VSWR to the operator to inform the specific FA, the specific antenna, and the base station signal path of the abnormality.

Therefore, the operator knows whether the abnormal operation of the antenna, the abnormal operation of a specific frequency (FA) and the abnormal operation of the devices using the specific FA through the displayed voltage standing wave ratio (VSWR). Can be.

4A is a block diagram illustrating an abnormality measurement unit shown in FIG. 3.

Referring to FIG. 4A, the abnormality measuring unit 301 uses a passer 400 for passing only a transmission signal among the signals extracted from the coupler 304 and a voltage of a signal passed through the passer 400. A voltage monitoring unit for detecting an abnormal occurrence of the signal extracted from the coupler 304 by monitoring the power / voltage converter 401 converting the value into a value and outputting the voltage value output from the power / voltage converter 401. Section 402.

The operation of the abnormality measuring unit configured as described above is as follows.

First, the passer 400 passes only a transmission signal among the signals extracted by the coupler 304. That is, the passer 400 performs a function of passing only a transmission signal among various transmission signals transmitted from the base station 303 to the antenna 302. At this time, the passer 400 passes only the transmission signal under the control of the determination / executor 300.

Then, the power / voltage converter 401 converts the power of the signal passed by the passer 400 into a voltage value and outputs the voltage, and the voltage monitor 402 outputs the power / voltage converter 401. The detected voltage value is detected to detect an abnormal occurrence of the base station. In this case, the voltage monitoring unit 402 compares the voltage value output from the power / voltage conversion unit 401 with a reference value for a transmission signal that is already set to detect an abnormal occurrence of the base station 303. 303) an abnormal occurrence is detected. The voltage monitoring unit 402 transmits an abnormal signal for notifying the base station 303 of the occurrence of an abnormality to the determination / executing unit 300 according to a comparison result.

FIG. 4B is a block diagram of the determination / execution unit shown in FIG. 3.

Referring to FIG. 4B, the determination / executor 300 detects an abnormal occurrence of a base station transmission signal according to an abnormal signal transmitted from the abnormality measuring unit 301, and drives the execution unit 404 when an abnormal occurrence is detected. Determination unit 403 and the execution unit 404 for generating a control signal to measure the voltage standing wave ratio (VSWR) of the antenna to find the specific FA and the specific antenna under the control of the determination unit 403 It consists of.

The operation of the determination / executor 300 configured as described above is as follows.

The determination unit 403 drives the execution unit 404 when the abnormal signal is received from the voltage monitoring unit 402 of the abnormality measurement unit 301. Then, the execution unit 404 generates a control signal to the voltage standing wave ratio measuring unit 305 and instructs to start measuring the voltage standing wave ratio (VSWR) of the antenna for finding a specific FA, a specific antenna, and a base station path.

As described above, according to the automatic base station performance tester according to the present invention, the voltage standing wave of the antenna to detect the occurrence of the abnormality by continuously monitoring the transmission signal during the operation of the base station, and also to find the specific FA or the specific antenna where the abnormality occurred By automatically measuring the ratio (VSWR), it is possible to take prompt measures in the case of abnormal operation of the base station to provide stable system operation and service provision.

In addition, according to the present invention, the system load is reduced and the system operating cost is reduced by automatically measuring the voltage standing wave ratio (VSWR) of the antenna only when an abnormality occurs when the voltage of the transmission signal is compared with a preset reference value.

In addition, according to the present invention, the operator does not measure the voltage standing wave ratio (VSWR) of the antenna manually, but only when necessary in accordance with the system situation has the effect of increasing the system operating efficiency and stability.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the examples, but should be defined by the claims.

Claims (1)

A coupler for extracting part of the signal transmitted through the antenna, Passing unit for passing only the transmission signal of the extracted signal, A power / voltage conversion unit converting the power of the passed signal into a voltage value and outputting the converted voltage; A voltage monitoring unit which compares the output voltage value with a preset reference value and outputs an abnormal signal when an abnormality of the extracted signal is detected according to a comparison result; A determination / executing unit for generating a control signal to measure the voltage standing wave ratio VSWR of the antenna according to the output abnormal signal; And a voltage standing wave ratio measuring unit for measuring a voltage standing wave ratio (VSWR) of the antenna according to the generated control signal.