KR100626207B1 - Cable calibration method using built-in transmissing/receiving apparatus and apparatus thereof, and recording medium storing program comprising the same method - Google Patents

Abstract

The present invention relates to a cable calibration method using a signal transmitting and receiving device, an apparatus thereof, and a recording medium storing a program including the method.

In the cable calibration method using a self-receiving device, a signal output value of a transmitting device for a test signal of a specific frequency band is first measured using a reference cable that knows cable loss. Next, the detected value at the receiving device for the test signal of the specific frequency band is measured using the cable to be measured. Next, the loss of the measurement target cable is calculated based on the measured signal output value of the transmitter and the detected value at the receiver. Calibration is performed using the calculated loss of the measurement target cable as calibration data.

In this way, even if there is no separate measuring instrument and equipment for calibrating the field at the time of installation of the communication equipment, it is possible to perform the calibration of the cable required for the facility using its own transceiver.

Cable Calibration, Cable Loss, Base Station Monitors, Signal Transceivers

Description

CABLE CALIBRATION METHOD USING BUILT-IN TRANSMISSING / RECEIVING APPARATUS AND APPARATUS THEREOF, AND RECORDING MEDIUM STORING PROGRAM COMPRISING THE SAME METHOD}

1 is a diagram illustrating a configuration in which a cable calibration device using a self-transmitting and receiving device according to an embodiment of the present invention is used.

2 is a flowchart of a cable calibration method using a self-transmitting and receiving device according to an embodiment of the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to cable calibration, and more particularly, to a cable calibration method and a device, and a program including the method, which perform calibration of a cable required for a facility in a field installation of communication equipment using its own transceiver. It relates to a stored recording medium.

In general, all cables used for on-site installation of telecommunication equipment should be calibrated to take into account accurate losses for the quality of radio communications.                         

Conventionally, in order to calibrate a cable as described above, a separate line transmission meter such as a signal generator and a separate signal detection meter such as a spectrum analyzer are required. That is, a specific signal is generated by a separate line transmission measuring instrument and transmitted through the cable, and a signal received through the cable is detected by a separate signal detecting instrument to measure the loss of the cable.

As such, a separate line transmission measuring instrument and a separate signal detection measuring instrument are required to calibrate a cable required for a facility when installing a communication device such as a base station monitoring device. There is a problem in that there is a lack of reliability in communication performance because it must be calibrated with only a known cable loss or the like without a calibration for cable loss.

Accordingly, an object of the present invention is to solve the above problems, and when the field installation of the communication equipment using a self-transmitting device for calibrating the cable required for the facility and the device, and stores the program comprising the method To provide a record carrier.

In order to solve this problem, the present invention outputs a test signal from its own transmitter, detects the level of the test signal from its own receiver, measures the loss of the cable to be measured, and calibrates the loss of the measured cable to be measured. Perform calibration by using.

Cable calibration method using a signal transmission and reception device according to an aspect of the present invention,

a) measuring a signal output value of the transmitting device for a test signal of a specific frequency band using a reference cable having a known cable loss; b) the transmitting device outputting the test signal through a cable to be measured, and the receiving device measuring a level of a signal detected through the cable to be measured; c) calculating a loss of the measurement target cable based on the signal output value of the transmitting device measured in step a) and the level of the detection signal measured in step b); And d) performing calibration using the loss of the measurement target cable calculated in step c).

Here, the step a) may include connecting both ends of the reference cable to the transmitter and the receiver, respectively; Outputting the test signal generated at the transmitting apparatus through the reference cable; Measuring a level of a signal input to the receiving device through the reference cable; And calculating an output value of the transmitting device for the specific test signal based on the level of the measured signal and the loss of the reference cable.

In addition, the output value of the transmission device is preferably the sum of the level of the measured signal and the loss of the reference cable.

In addition, in step c), the loss of the measurement target cable is preferably a value obtained by subtracting the level of the detection signal measured in step b) from the signal output value of the transmitter measured in step a).

Also, between steps c) and d), determining whether to perform a loss measurement on the cable to be measured for the test signal at a frequency different from the specific frequency; Varying a frequency of a test signal to be generated by the transmitting apparatus when it is determined that the loss measurement is to be performed on the cable to be measured with respect to a test signal having a frequency different from the specific frequency; And repeating steps a) to c) for the test signal of the variable frequency.

In addition, the test signal of the specific frequency band is preferably a test signal having a frequency of the transmission signal and the reception signal of the specific communication equipment.

In addition, the specific communication equipment is installed in the base station for relaying wireless communication, the test signal is preferably a signal of the same frequency band as the signal received from the base station and the signal transmitted from the base station.

Cable calibration apparatus using its own signal transmitting and receiving device according to another aspect of the present invention,

A transmission unit capable of outputting a test signal of a specific frequency band; A reference cable that knows cable loss; A detection unit capable of detecting a level of an input signal and detecting a level of a test signal output from the transmitter and output through the reference cable and a cable as a specific measurement target; And a measuring unit measuring a loss of the measurement target cable based on the level of the test signal detected by the detecting unit.                     

Here, the measuring unit calculates an output value of the test signal based on the level detection value of the test signal detected through the reference cable and the loss of the reference cable, and calculates an output value of the test signal detected through the measurement target cable. It is preferable to measure the loss of the measurement target cable based on the level detection value and the calculated output value of the test signal.

Cable calibration apparatus using its own signal transmitting and receiving device according to another aspect of the present invention,

A device comprising a transmitting device for generating a test signal in a frequency band for performing a function related to transmitting and receiving a signal of a communication equipment, and a receiving device capable of detecting a signal level by detecting an input signal.

A reference cable that knows cable loss; The transmitted signal level when the test signal output from the transmitting device is respectively detected by the receiving device through the reference cable and a specific measurement target cable and the signal level is measured and transmitted. A measuring unit measuring a loss of the measurement target cable based on the measurement result; And a controller for performing calibration using the cable loss measured by the measurement unit as calibration data.

Here, the control unit is connected to the transmission device, it is preferable to vary the frequency band of the test signal generated by the transmission device to enable the loss measurement of the measurement target cable for the test signal of another frequency band.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention. Like parts are designated by like reference numerals throughout the specification.

First, a cable calibration apparatus using a base station monitoring apparatus according to an embodiment of the present invention will be described in detail.

1 is a diagram illustrating a configuration in which a cable calibration device using a self-transmitting and receiving device according to an embodiment of the present invention is used.

As shown in FIG. 1, the cable calibrating apparatus 200 is one of a device that performs a function related to the communication device 100. The cable calibrating apparatus 200 is a transmitter 220 that transmits a signal by itself and a detector 220 that detects an input signal. ).

The apparatus that can be used as the cable calibration apparatus 200 includes a base station monitoring apparatus that monitors a function of a base station apparatus, which is the communication equipment 100.

The transmitter 210 of the cable calibrating device 200 generates a test signal such as a received input signal of the communication device 100, and mainly consists of a phase locked loop (PLL), but generates another signal if a similar test signal can be generated. It may consist of a circuit.

As the test signal generated by the transmitter 210, a frequency standing-wave ratio (VSWR) and a reception sensitivity measurement frequency of the communication device 100, for example, a signal of 1.7 GHz, a base station transmission output measurement frequency, eg For example, it generates 1.8 GHz signal. In addition, it is possible to generate a test signal of a frequency band similar to the signal that can be received by the communication device 100.

The detector 220 of the cable calibrating apparatus 200 measures a signal input through the cable C to measure a loss of the cable C. Loss measurement of cable (C) uses a reference cable (D) that knows the cable loss for the same cable. Such a reference cable D may have various losses if, for example, a cable having a cable loss of 1 dBm for the same cable is used, but is not limited thereto and may be used as the reference cable D.

The detector 220 compares the signal output of the transmitter 210 detected when using the reference cable D with the signal output of the transmitter 210 detected when using the measurement target cable C, thereby reducing the loss of the cable C. Measure Here, the detector 220 of the cable calibrating device 200 measures the loss of the cable C by comparing the detected signal output from the transmitter 210 through the reference cable D and the measurement cable C. Although the technical scope of the present invention is not limited thereto, the detection unit 220 detects and outputs a signal input through the reference cable D and the measurement target cable C, and outputs a separate calibration. It is easily understood by those skilled in the art that a controller (not shown) is provided for measuring the loss of the measurement target cable C based on the signal output from the detector 220. .

In addition, the loss measurement for the cable (C) using the cable calibration device 200 is possible for the test signal of the various frequency bands that can be generated by the transmitter 210 of the cable calibration device 200, and thus for various frequencies The measured cable loss can be collected as calibration data and stored in a specific storage (not shown) for later use.

Hereinafter, a cable calibration method using a self transmitting / receiving apparatus according to an exemplary embodiment of the present invention will be described in detail with reference to FIG. 2.

First, both ends of the reference cable D, which knows the cable loss, for the same type of cable as the measurement target cable C, are connected to the transmitter 210 and the detector 220 of the cable calibration apparatus 200, respectively ( S10). In the present embodiment, for convenience of explanation, the cable loss of the reference cable D is assumed to be 1 dBm.

Next, the transmitter 210 outputs a test signal for the loss measurement of the reference cable D to the reference cable D (S20). At this time, the transmitter 210 may output a signal such as 1.7 GHz, which is a signal similar to the signal received from the communication device 100, and 1.8 GHz, which is a signal similar to the signal transmitted from the communication device 100, as described above. Initially, only one of these frequency bands is output. In the following description, it is assumed that a signal of 1.7 GHz, which is a reception signal band, is initially set to be output.

Next, the detector 220 detects a signal input through the reference cable D (S30) and measures the level of the detected signal (S40).

Next, the detector 220 calculates an output value of the test signal output from the transmitter 210 through the level measurement of the detected signal and the loss of the reference cable D (S50). Here, the output value of the test signal is calculated as the sum of the level measurement value of the signal detected by the detection unit 220 and the loss of the reference cable D. For example, when the level measurement value of the signal detected by the detector 220 is 29 dBm, since the loss of the reference cable D is 1 dBm, the output value of the 1.7 GHz test signal output from the transmitter 210 is 29 dBm + 1 dBm. = 30 dBm can be calculated.

Next, the cable calibrating device 200 is connected to both ends of the measurement target cable (C) to measure the loss of the measurement target cable (C) to be connected as shown by the dotted line in FIG. 1 to perform a function related to the communication device (100). It is connected to the transmitter 210 and the detector 220 of the calibration device 200 (S60).

Next, the transmitter 210 outputs the 1.7 GHz test signal output in the step S20, that is, a test signal having an output value of 30 dBm to the measurement target cable C (S70), and the detection unit 220 measures the measurement target. After detecting the signal input through the cable (C) (S80) and measures the level of the detected signal (S90).

Next, the detector 220 calculates a cable loss of the measurement target cable C based on the detected level of the test signal and the output value of the test signal measured in step S50 (S100). Here, the cable loss of the measurement target cable (C) is a value obtained by subtracting the level measurement value of the signal measured in the step (S90) from the output value of the test signal measured in the step (S50). In the above example, if the output value of the test signal measured in the step (S50) is 30dBm, and the level measurement value of the detection signal measured in the step (S90) is 15dBm, the cable loss of the measurement target cable (C) is 30dBm- 15 dBm = 15 dBm.

When the cable loss measurement for the 1.7 GHz test signal is completed as described above, it is determined whether to carry out the cable loss measurement for the test signal of another frequency band, for example, the test signal of 1.8 GHz, which is a transmission frequency band. (S110), if it is determined that the loss measurement of the measurement target cable (C) for the test signal of another frequency band is continuously performed, the frequency of the test signal is varied (S120), and then the cable loss measurement for the variable frequency is performed. It is performed by repeating the above steps (S10 to S100).

When the loss measurement of the cable to be measured (C) is completed for the test signal of one or several frequencies as described above, the measured cable loss data is used as calibration data. Therefore, the cable calibration device 200 performs the calibration through the measured calibration data when performing the function related to the communication device 100 after being connected to the communication device 100 using the corresponding cable (C) (S130). . At this time, there are a number of calibration methods, and any one of the known methods may be used, and thus the detailed description thereof will be readily understood by those skilled in the art.

For example, after connecting the communication device 100 and the cable calibration device 200 as shown by the dotted line in FIG. 1 using the cable C measured by the cable calibration device 200, the calibration data is measured. Calibration is input by inputting the measured calibration data and field values, such as a known couple value and 4-way divider loss, for the input / output terminals of the communication device 100 to the cable calibration device 200. The cable calibration apparatus 200 may perform a function related to signal transmission and reception of the communication device 100 through the cable C on which the calibration is performed.                     

On the other hand, the cable calibration method using a self-transmitting device according to an embodiment of the present invention as described above is implemented as a program in a computer-readable form of a recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk) And the like).

Although the preferred embodiment of the present invention has been described in detail above, the present invention is not limited thereto, and various other changes and modifications are possible.

For example, in the above, the output value of the test signal is calculated by connecting the reference cable D, and then the cable loss is measured by connecting the measurement target cable C. However, the technical scope of the present invention is not limited thereto. Ports for connecting the reference cable (D) and the measurement target cable (C) at the same time are provided at the transmitter 210 and the detector 220 of the cable calibration device 200, respectively, to measure the measurement target cable (C) and the reference cable. Simultaneously connecting (D) and simultaneously outputting a test signal to the measurement target cable (C) and the reference cable (D) through the transmitter 210, and the measurement target cable (C) and the reference cable through the detection unit 220 It will be readily understood by those skilled in the art that the loss of the measurement target cable C can be measured more simply by measuring the output signal level of (D).

In addition, it is possible to automatically perform cable loss measurement for each frequency without determining whether to continue the cable loss measurement for each frequency in the cable loss measurement for several frequencies.

In addition, although described as performing the calibration for the cable (C) using the cable calibration device 200 that functions with respect to the communication equipment 100, even if it does not function with the communication equipment 100, The apparatus may generate and output a test signal, and may detect the input signal and perform calibration on the cable C if the device includes a means comparable to the output signal.

In addition, the calibration can be performed for all the cables required when installing the communication equipment 100, but on the other hand, the same length and thickness of the cables required for the facility are equal, and the facility is measured by loss measurement of one or a small number of cables. It can be possible to calibrate all the cables required for the application.

According to the present invention, even if there is no separate measuring instrument and equipment for calibrating the field of the communication equipment, the calibration of the cable required for the facility is performed by using a device having its own transceiver which functions related to the transmission and reception of the communication equipment. can do.

As such, since calibration of the cable is performed more accurately, the function performance related to the transmission / reception operation of the communication equipment can be performed more accurately.

Therefore, the signal transmission / reception operation of the communication device is more accurate, and thus the function of the communication device is more smoothly performed.

Claims (13)

In the method for performing cable calibration using its own signal transceiver, a) measuring a signal output value of the transmitting device for a test signal of a specific frequency band using a reference cable having a known cable loss; b) the transmitting device outputting the test signal through a cable to be measured, and the receiving device measuring a level of a signal detected through the cable to be measured; c) calculating a loss of the measurement target cable based on the signal output value of the transmitting device measured in step a) and the level of the detection signal measured in step b); And d) performing calibration using the loss of the cable to be measured calculated in step c) Cable calibration method using a signal transmission and reception device comprising a. The method of claim 1, Step a), Connecting both ends of the reference cable to the transmitter and the receiver, respectively; Outputting the test signal generated at the transmitting apparatus through the reference cable; Measuring a level of a signal input to the receiving device through the reference cable; And Calculating an output value of the transmission device for the specific test signal based on the level of the measured signal and the loss of the reference cable; Cable calibration method using a signal transmission and reception device comprising a. The method of claim 2, And an output value of the transmitter is a sum of the measured signal level and the loss of the reference cable. The method of claim 1, In step c), the loss of the measurement target cable is a value obtained by subtracting the level of the detection signal measured in step b) from the signal output value of the transmitter measured in step a). Cable calibration method. The method of claim 1, Between steps c) and d), Determining whether to perform a loss measurement on the cable to be measured with respect to a test signal having a frequency different from the specific frequency; Varying a frequency of a test signal to be generated by the transmitting apparatus when it is determined that the loss measurement is to be performed on the cable to be measured with respect to a test signal having a frequency different from the specific frequency; And Repeating steps a) to c) for the test signal of the variable frequency Cable calibration method using a signal transmission and reception device comprising a. The method according to any one of claims 1 to 5, The test signal of the specific frequency band is a cable calibration method using a signal transmission and reception device, characterized in that the test signal having a frequency of the transmission signal and the reception signal of a specific communication equipment. The method of claim 6, The specific communication equipment is installed in the base station for relaying wireless communication, the test signal is a cable calibration using a signal transmission and reception device, characterized in that the signal of the same frequency band as the signal received from the base station and the signal transmitted from the base station Way. The method of claim 7, wherein And the test signal is a test signal in the 1.7 GHz or 1.8 GHz frequency band. A transmission unit capable of outputting a test signal of a specific frequency band; A reference cable that knows cable loss; A detection unit capable of detecting a level of an input signal and detecting a level of a test signal output from the transmitter and output through the reference cable and a cable as a specific measurement target; And A measuring unit which measures the loss of the measurement target cable based on the level of the test signal detected by the detecting unit Cable calibration device using a self-transmitting and transmitting device comprising a. The method of claim 9, The measuring unit, Calculating an output value of the test signal based on a level detection value of the test signal detected through the reference cable and a loss of the reference cable, The loss of the measurement target cable is measured based on the level detection value of the test signal detected through the measurement target cable and the calculated output value of the test signal. Cable calibration device using its own signal transmission and reception device, characterized in that. In the apparatus comprising a transmitting device for generating a test signal in the frequency band for performing a function related to the transmission and reception of a communication equipment and a receiving device capable of detecting the signal level by detecting the input signal, A reference cable that knows cable loss; The transmitted signal level when the test signal output from the transmitting device is respectively detected by the receiving device through the reference cable and a specific measurement target cable and the signal level is measured and transmitted. A measuring unit measuring a loss of the measurement target cable based on the measurement result; And A control unit performing calibration using the cable loss measured by the measurement unit as calibration data Cable calibration device using a self-transmitting and transmitting device comprising a. The method of claim 11, The control unit is connected to the transmission device, and by varying the frequency band of the test signal generated by the transmission device, it is possible to measure the loss of the measurement target cable with respect to the test signal of the other frequency band Used cable calibration device. In the method for performing cable calibration using its own signal transceiver, a) measuring the signal output value of the transmitting device to a test signal of a specific frequency band using a reference cable that knows cable loss; b) the transmitting device outputs the test signal through a cable to be measured, and the receiving device measures a level of a signal detected through the cable to be measured; c) a function of calculating a loss of the cable to be measured based on the signal output value of the transmitting device measured in step a) and the level of the detection signal measured in step b); And d) performing a calibration using the loss of the cable to be measured calculated in step c) Recording medium storing a program comprising a.

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