KR20000007967A - Self-inspection method for base station testing equipment - Google Patents

Abstract

PURPOSE: A base station transmission signal measuring method is provided to inform the signal of the base station measured as abnormal to the operator for his remedial measure. CONSTITUTION: The diagnosis method of the process of transmitting/receiving message of the base station comprises steps; a forward signal of the transmitting antenna is measured at the forward port by the base station testing instrument; the base station testing instrument generates a signal having a specific voltaic power; the base station testing instrument detects the generated signal; comparing the generated signal and the detected signal and if the difference between them is larger than the standard value, judging that the forward signal is measured improperly.

Description

Self-check method of base station test equipment

The present invention relates to a self-check method of a base station test apparatus, and more particularly, to a method for checking whether a base station test apparatus for diagnosing a function of a base station in a mobile communication system is operating normally.

A typical mobile communication system includes a mobile station (MS) provided with a mobile communication service, a base station (BS) providing a service to the mobile terminal, and a plurality of base stations. It consists of a Mobile Switching Center (MSC) that connects to a Switched Telephone Network (PSTN).

The base stations of the Digital Cellular System (DCS) and the Personal Communication System (PCS) include a BS Test Unit (BTU). The base station test apparatus measures and tests the base station radio environment by connecting a call with a base station by using a test mobile (Test Mobile: TM) having the same structure as a general mobile terminal.

The base station test apparatus measures and tests the base station radio environment, collects the environmental data, and delivers it to the upper level manager. The ability to check the transmit / receive path of a base station at a remote location can significantly reduce operational maintenance costs, and how quickly the appropriate action can be detected by detecting the abnormality of the base station is a very important factor in service operation. Factor). In particular, the abnormality of the base station transmission power has a significant effect on the normal service of the base station.

The base station manages all hardware necessary for mobile terminal communication and performs call processing with a mobile station (MS). In order to test such a base station, a base station test apparatus is installed inside the base station.

1 is a block diagram of a base station test apparatus according to the prior art. As shown, the base station test apparatus 100 includes a BS interface unit 110, a power detector unit 120, a test mobile 130, and each of the above devices. It is composed of a controller (Control Unit) 140 to control.

The base station connector 110 connects a transmission / reception path of the base station to the test terminal 130 and the power detector 120. The test terminal 130 and the power detector 120 connect the radio frequency (RF) of the base station. ) Allows you to receive signals.

The power detector 120 measures the signal coming through the base station connector 110. The power detector 120 tunes to the frequency of the signal to be measured, and detects and measures the strength of the signal.

The test terminal 130 performs call processing with the base station, and also reports information collected by the test terminal to the base station control processor or changes parameters of the terminal.

The base station test apparatus 100 configured as described above checks the transmission / reception path of the base station. That is, the transmission output of the base station is measured, and the voltage standing wave ratio (VSWR) of the transmitting and receiving antennas is measured.

It is very important how accurately the base station test apparatus 100 operating as described above measures the radio frequency signal (RF signal). This depends on the measurement precision of the measuring device measuring the signal. Therefore, it is necessary to have a function to detect whether the measured value measured by this measuring device accurately measured. In the conventional case, since there is no such self-checking function, the measuring device can detect when an abnormality occurs. There is no

Thus, a problem with the prior art is that the measuring device does not know whether the measured value is normal or abnormal. That is, when measuring functions for diagnosing a transmission / reception path of a base station, there was a problem in that it was not possible to check whether the measurement output measured by the base station test apparatus was accurately measured.

Accordingly, the present invention has been made to solve the problems as described above, and the self-check method of the base station test apparatus, which checks whether the base station test apparatus mounted on the base station of the mobile communication system has normally performed the diagnosis of the base station. It aims to provide.

The above and other objects and novel features of the present invention will become more apparent from the following detailed description of the invention and the accompanying drawings.

1 is a view showing a base station transmission signal measuring method according to the present invention.

2 is a view showing a method of measuring a forward signal when measuring the standing wave ratio of a transmitting antenna according to the present invention;

3 is a view showing a method of measuring a reflected signal when measuring the standing wave ratio of a transmitting antenna according to the present invention;

4 is a diagram illustrating a receiving path diagnosis method according to the present invention;

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

100: base station test apparatus 110: base station connector

120: power detector 130: test terminal

140: controller 10: antenna

20: directional coupler 22: reflection port

24 forward port 30 bandpass filter

40: high power amplifier 50: transceiver

60: low noise amplifier 70: power divider

200: base station control processor 300: maintenance personal computer

400: communication control processor 500: base station management system

In order to achieve the above object, a preferred embodiment of the self-checking method of a base station test apparatus according to the present invention, in the method for diagnosing a transmission / reception path of a base station using a base station test apparatus,

Measuring, by the base station test apparatus, the forward signal of the base station transmit antenna from the forward port of the base station transmit antenna;

Generating a signal having a constant power by the base station test apparatus;

Detecting, by the base station test apparatus, the generated signal;

Comparing the generated signal with the detected signal and determining that the forward signal is abnormally measured when an error between the two signals exceeds a predetermined reference value; And

And comparing the generated signal with the detected signal and determining that the forward signal is normally measured when an error between the two signals is within a predetermined reference value.

In an embodiment of the present invention, if the self-checking method determines that the received signal of the base station is abnormally measured, it is preferable to further include a process of reporting to the system operator that the forward signal is abnormally measured.

Another preferred embodiment of the self-check method of the base station test apparatus according to the present invention, in the method for diagnosing the transmission / reception path of the base station using the base station test apparatus,

Measuring, by the base station test apparatus, the reflected signal of the base station transmit antenna from the reflected port of the base station transmit antenna;

Generating a signal having a constant power by the base station test apparatus;

Detecting, by the base station test apparatus, the generated signal;

Comparing the generated signal with the detected signal and determining that the reflected signal is abnormally measured when an error between the two signals exceeds a predetermined reference value; And

And comparing the generated signal with the detected signal and determining that the reflected signal is normally measured when an error between the two signals is within a predetermined reference value.

In another embodiment of the present invention, the self-checking method, when it is determined that the received signal of the base station is measured abnormally, preferably further comprises the step of reporting to the system operator that the reflected signal is abnormally measured. .

Another preferred embodiment of the self-check method of the base station test apparatus according to the present invention, in the method for diagnosing the transmission / reception path of the base station using the base station test apparatus,

Measuring one of the signals received through the base station receive antenna, Direction Coupling, Band Pass Filtering, Low Noise Amplitude, and Power Divide;

Generating a signal having a frequency to be measured by the base station tester;

Inputting the generated signal into a forward port of a directional coupler of a base station receiving antenna;

Bandpass filtering and low noise amplifying the directionally coupled signals to distribute power;

Detecting one of the power distributed signals;

Comparing the generated signal with the detected signal and determining that the received signal of the base station is abnormally measured if an error between the two signals exceeds a predetermined reference value; And

And comparing the generated signal with the detected signal and determining that the received signal of the base station is normally measured if an error between the two signals is within a predetermined reference value.

In another embodiment of the present invention, if it is determined that the received signal of the base station is abnormally measured, the self-check method further includes reporting to the system operator that the received signal of the base station is abnormally measured. It is preferable.

The present invention inputs a signal of a constant level to the power detector, and compares the level of the signal measured by the power detector with the level of the input signal. As a result of the comparison, if the difference deviates by a certain level or more, it is determined that the measurement is not an accurate measurement, and the result is notified to the system operator and monitored for appropriate action.

2 to 4 illustrate a method of checking a base station transmission / reception path using a base station test apparatus installed in each base station.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention;

First, when measuring the transmission power of the base station, a method of diagnosing the transmission power of the base station will be described. 2 shows a method of measuring a base station transmit power.

The intermediate frequency signal (IF signal) modulated at the base station is converted into a radio frequency (RF) at the transceiver (XCVR) 50. The output signal of the transceiver is amplified in a high power amplifier (HPA) 40. The output signal of the high output amplifier 40 is suppressed so that a signal other than the corresponding bandwidth is not output by the band pass filter (BPF) 30. The output signal of the bandpass filter 30 is transmitted to the transmitting antenna 10 via a directional coupler (D / C) 20.

The controller 140 of the base station test apparatus 100 controls the base station connector 110 so that the forward port 24 of the directional coupler 20 and the base station test apparatus 100 are connected. The controller 140 measures the strength of the forward signal of the base station transmit antenna input through the forward port 24.

In order to confirm whether the measured forward signal strength is normal, the controller 140 controls the power detector 120 to generate a constant output signal (first signal) and to measure the generated first signal again. If the measured signal is a second signal, the second signal is compared with the first signal, and if the error between the two signals is within a predetermined reference value, it is determined that the forward signal of the base station transmitting antenna is normal. If the error between the two signals exceeds a certain threshold, the strength of the forward signal of the base station transmit antenna should be measured again. This process is repeated every time the forward signal of the base station transmit antenna is measured, so that the correct forward signal can be measured.

The inspection result of the base station test apparatus determined by the controller 140 is reported to a BS control processor 200 that manages the base station, and the operator maintains a maintenance personal computer connected to the base station control processor 200. Computer 300 confirms the state of the base station. The base station control processor 200 transmits a diagnosis result of the base station reported from the controller 140 to a communication control processor 400 managing a plurality of base stations. The operator checks the status of the plurality of base stations using the BS Manager system 500.

The operator verifies the results of the base station tester's checks, remeasures the base station forward signal and / or takes other appropriate measures.

Hereinafter, a method of checking the base station test apparatus when measuring the voltage standing wave ratio (VSWR) of the base station transmitting antenna will be described. 3 illustrates a method of measuring a reflected signal of a base station transmitting antenna.

The intermediate frequency signal (IF signal) modulated at the base station is converted into a radio frequency (RF) at the transceiver (XCVR) 50. The output signal of the transceiver is amplified in a high power amplifier (HPA) 40. The output signal of the high output amplifier 40 is suppressed so that a signal other than the corresponding bandwidth is not output by the band pass filter (BPF) 30. The output signal of the bandpass filter 30 is transmitted to the transmitting antenna 10 via a directional coupler (D / C) 20.

The controller 140 of the base station test apparatus 100 controls the base station connector 110 so that the reflective port 22 of the directional coupler 20 and the base station test apparatus 100 are connected. The controller 140 measures the intensity of the reflected signal of the base station transmit antenna input through the reflective port 22. The signal input through the reflection port 22 is a signal reflected and returned by mismatch of antenna impedance.

The controller 140 may measure the forward signal of the base station transmit antenna through the method of FIG. 2. Therefore, the voltage standing wave ratio of the base station transmitting antenna can be calculated using the forward signal and the reflected signal.

In order to confirm whether the measured standing wave ratio value of the antenna is normal, the controller 140 controls the power detector 120 to generate a constant output signal (third signal) and to measure the generated third signal again. If the measured signal is a fourth signal, the fourth signal is compared with the third signal, and if the error between the two signals is within a predetermined reference value, it is determined that the reflected signal of the base station transmitting antenna is normal. Therefore, if the forward and reflected signals are normal, the measured standing wave ratio is also normal.

As in the measurement of the forward signal, when the error between the third signal and the fourth signal exceeds a predetermined reference value, the strength of the reflected signal of the base station transmitting antenna needs to be measured again. This process is repeated every time the reflected signal of the base station transmit antenna is measured, so that the correct reflected signal can be measured. The inspection result of the base station test apparatus determined by the controller 140 is transmitted to the base station control processor 200 and the communication control processor 400. The operator should check the results of the base station testing equipment, re-measure the base station forward and reflected signals, or take other appropriate measures.

Hereinafter, a method of checking a base station test apparatus will be described when measuring a received signal of a base station receiving antenna. 4 illustrates a method of measuring a received signal of a base station reception antenna.

The high frequency signal received through the receiving antenna 10 of the base station is input to the power divider 70 through the directional combiner 20, the bandpass filter 30 and the low noise amplifier 60. The power divider 70 distributes the input signal and inputs the signal to the base station connector 110 of the transceiver 50 and the base station test apparatus 100. The base station connector 110 inputs the input signal to the power detector 120, and the power detector 120 measures the strength of the input base station received signal.

In order to confirm whether the received signal of the measured antenna is normal, the base station test apparatus 100 selects a frequency to be measured and generates a constant signal (a fifth signal). The controller 140 controls the base station connector 110 so that the fifth signal generated is input through the forward port 24 to the directional coupler 20 of the base station.

The output signal of the directional coupler 30 is distributed in the power divider 70 via the band pass filter 30 and the low noise amplifier 60. Most of the signals distributed by the power divider 70 are transmitted to the transceiver 50, and a part of the distributed signals (sixth signal) is input to the base station test apparatus 100.

The sixth signal is fed back to the power detector 120 via the base station connector 110 and measured at the power detector 120. If the error between the two signals is within a predetermined reference value by comparing the fifth signal and the sixth signal, it is determined that the received signal of the base station receiving antenna is normal.

As in the measurement of the forward signal, if the error between the fifth signal and the sixth signal exceeds a predetermined reference value, the strength of the received signal of the base station receiving antenna must be measured again. This process is repeated every time the received signal of the base station receive antenna is measured, so that the correct received signal can be measured. The inspection result of the base station test apparatus determined by the controller 140 is transmitted to the base station control processor 200 and the communication control processor 400. The operator should check the results of the base station testing equipment, re-measure the base station received signal, or take other appropriate measures.

While the invention is susceptible to various modifications and alternative forms, the disclosure thereof has been described with reference to specific embodiments only. It is to be understood, however, that the present invention is not limited to the specific forms referred to in the specification, but rather that the invention is intended to cover all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood to include.

In the self-checking method of the base station test apparatus operating as described above, the effects obtained by the representative of the disclosed invention are briefly described as follows.

When the base station of the mobile communication system performs the diagnostic function for the transmission / reception path, it may be determined whether the base station test apparatus installed in the base station accurately measured the transmission / reception signal of the base station. It also reports the results of the judgment to the operator so that the operator can take appropriate action. Therefore, the function of the base station test apparatus can be checked by itself.

Claims (6)

In the method for diagnosing a transmission / reception path of a base station using a base station test apparatus, Measuring, by the base station test apparatus, the forward signal of the base station transmit antenna from the forward port of the base station transmit antenna; Generating a signal having a constant power by the base station test apparatus; Detecting, by the base station test apparatus, the generated signal; Comparing the generated signal with the detected signal and determining that the forward signal is abnormally measured when an error between the two signals exceeds a predetermined reference value; And And comparing the generated signal with the detected signal and determining that the forward signal is normally measured when an error between the two signals is within a predetermined reference value. According to claim 1, The self-check method, if it is determined that the received signal of the base station is abnormally measured, further comprising the step of reporting to the system operator that the forward signal is abnormally measured, the base station test apparatus itself How to check. In the method for diagnosing a transmission / reception path of a base station using a base station test apparatus, Measuring, by the base station test apparatus, the reflected signal of the base station transmit antenna from the reflected port of the base station transmit antenna; Generating a signal having a constant power by the base station test apparatus; Detecting, by the base station test apparatus, the generated signal; Comparing the generated signal with the detected signal and determining that the reflected signal is abnormally measured when an error between the two signals exceeds a predetermined reference value; And And comparing the generated signal with the detected signal and determining that the reflected signal is normally measured when an error between the two signals is within a predetermined reference value. According to claim 1, The self-check method, if it is determined that the received signal of the base station is abnormally measured, further comprising the step of reporting to the system operator that the reflected signal is abnormally measured, the base station test apparatus itself How to check. In the method for diagnosing a transmission / reception path of a base station using a base station test apparatus, Measuring one of the directionally coupled, bandpass filtered, low noise amplified, and power distributed signals received through the base station receive antenna; Generating a signal having a frequency to be measured by the base station tester; Inputting the generated signal into a forward port of a directional coupler of a base station receiving antenna; Bandpass filtering and low noise amplifying the directionally coupled signals to distribute power; Detecting one of the power distributed signals; Comparing the generated signal with the detected signal and determining that the received signal of the base station is abnormally measured if an error between the two signals exceeds a predetermined reference value; And And comparing the generated signal with the detected signal and determining that the received signal of the base station is normally measured when an error between the two signals is within a predetermined reference value. The base station testing apparatus of claim 1, wherein the self-diagnostic method further includes reporting to a system operator that a reception signal of the base station is abnormally measured when it is determined that the reception signal of the base station is abnormally measured. Self-check method.