KR100698601B1 - Apparatus for measuring the distance to optical fiber - Google Patents

Abstract

The present invention relates to a line distance measuring device that can determine the distance to the point of the damaged light line by using the line monitoring signal of the light reflected from the damaged light line, the line monitoring outputs a line monitoring signal carrying a specific pulse WDM coupler and WDM for transmitting the optical signal multiplexed by the signal transmission unit, the line monitoring signal and the data transmission signal to the receiving side, and separating the optical signal reflected from the damaged optical line point and outputting it to the corresponding line. The line monitoring signal receiving unit for receiving the line monitoring signal from the coupler and converting the signal into an electrical signal, and the line monitoring signal transmitter to control the line monitoring signal carrying a specific pulse, When the electric signal is input from the line monitoring signal receiver by the line monitoring signal And a control unit for measuring the distance from the optical signal transmitter to the damaged optical path point using the counted time from the output to the input of the optical path and the speed of the optical signal movement in the optical path.

Optical path, WDM, optical network, isolator, circulator, distance

Description

Apparatus for measuring the distance to optical fiber}

1 is a block diagram of an optical fiber distance measuring apparatus according to the present invention;

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

10: signal transmission unit for data transmission 20: isolator

30: WDM Coupler 40: Circulator

50: signal monitoring unit for line monitoring 60: control unit

70: signal monitoring unit for line monitoring

The present invention relates to optical communication, and more particularly, to an optical fiber distance measuring apparatus that can determine the distance to a damaged optical fiber beam point by using a line monitoring signal of light reflected from the damaged optical fiber beam.

With the exponentially increasing Internet demand and the amount of data to be transmitted through the backbone, the amount of data to be transmitted through the backbone increases, and thus the optical communication technology that is suitable for the set transmission speed has been increasingly used.

Currently, optical communication technology that transmits information through optical fiber is mainly used for information communication between countries through submarine cable because it can transmit large amount of information at high speed and there is no signal interference or crosstalk caused by electromagnetic induction. With the advancement of popularization technology and network technology, the range of use as a main communication network for high speed broadband multimedia communication including voice and data communication in the exchange period and CATV (Cable TV) or Video On Demand (VOD) is gradually expanding.

However, due to the rapid increase in the amount of data, not only is it insufficient to transmit a signal of one wavelength to one optical fiber, but also it is not easy to manufacture a system having a transmission speed of 10 Gbps or more. Recently, wavelength division multiplexing (WDM) By multiplexing and transmitting signals of multiple wavelengths to one optical fiber, an optical communication system is being constructed using an optical module having a transmission rate of 2.5 Gbps for a unit transmission rate of 40 to 100 Gbps systems.

As such, the importance of optical fiber network monitoring and control is increasing because of the multiplexing and sending of multiple wavelengths.

In particular, as the optical path becomes more complicated, the laying of the optical paths becomes more frequent, and the damage of the optical paths is increasingly caused by various construction or management failures. Therefore, the point of the damaged optical path must be checked for replacing or repairing the damaged optical path. There is no method to confirm this.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and provides a distance measuring device to a damaged optical line point so as to identify a damaged point using a line monitoring signal of light reflected from the damaged optical line. There is a purpose.

The configuration of the present invention devised to achieve the above object is as follows. In the optical fiber distance measuring apparatus of the present invention comprises a data transmission signal transmitting unit for outputting a data transmission signal for transmitting various data, the optical signal transmitting apparatus for transmitting the data transmission signal to the receiving side through the optical path, A line monitoring signal transmitter for outputting a line monitoring signal carrying a specific pulse; and removing the data transmission signal reflected and reflected from the damaged light beam point so that the data transmission signal does not enter the data transmission signal transmitter An isolator which cuts the optical signal multiplexed to the line monitoring signal and the data transmission signal to the receiving side, and separates the optical signal reflected from the damaged optical line point to the corresponding line. Output Wavelength Division Multiplexing (WDM) Coupler, A line monitoring signal receiving unit which receives the line monitoring signal from a WDM coupler and converts the line monitoring signal into an electrical signal, and transmits the line monitoring signal output from the line monitoring signal transmitting unit to the WDM coupler; The line monitoring signal transmitted is a circulator for transmitting the line monitoring signal receiving unit, and the line monitoring signal transmitting unit to control the line monitoring signal carrying the specific pulse, and the line monitoring unit When the electric signal is input from the line monitoring signal receiving unit by a signal, the optical signal transmitting apparatus uses the counted time from the output of the line monitoring signal to the input and the moving speed of the optical signal in the optical path. It includes a control unit for measuring the distance to the point of the damaged light beam And a gong.

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

1 is a block diagram of an apparatus for measuring a distance to a damaged optical path point according to the present invention.

The apparatus for measuring a distance to a damaged optical path point according to the present invention includes a signal transmitter 10 and an isolator 20, a WDM coupler 30, a circulator 40, and a line monitoring signal for data transmission. It consists of the transmitter 50, the control part 60, and the line monitoring signal receiving part 70.

First, the data transmission signal transmitter 10 transmits a data transmission signal in which various data to be transmitted by a user, such as a laser diode, is loaded.

The isolator 20 is an optical device that allows an optical signal to travel in only one direction. The isolator 20 transmits a data transmission signal transmitted from the data transmission signal transmission unit 10 only in one direction. By blocking the optical signal P ₁ reflected and incident on the input signal to the data transmission signal transmission unit 10, the performance of the data transmission signal transmission unit 10 is prevented from being lowered.

The line monitoring signal transmitter 50 generates the line monitoring signal according to the control signal of the controller 60, and transmits a specific pulse at a low transmission rate of several Mbps.

A circulator 40 is provided at the rear end of the line monitoring signal transmitter 50. The circulator 40 is an element that transmits an optical signal according to the directionality, and is transmitted from the line monitoring signal transmitter 50. The line monitoring signal is transmitted to the WDM coupler 30, and the light P ₁ reflected and incident at the damaged optical line 80 is blocked from being transmitted to the line monitoring signal transmitter 50 so as to block the line monitoring. The signal receiver 70 transmits the signal.

The line monitoring signal receiving unit 70 is, for example, a photoelectric conversion element such as a photo diode, and when the line monitoring signal is transmitted, the line monitoring signal is converted into an electrical signal to the control unit 60. Output

The control unit 60 outputs a control signal to the line monitoring signal transmitter 50 so as to output the specific pulse, and corresponds to a line monitoring signal input from the line monitoring signal receiving unit 70. The distance from the damaged optical communication transmitter, that is, the data transmission signal transmitter 10 to the point of the optical path 80 through the electrical signal is measured. The distance to the point of the damaged optical line 80 is the time from the transmission of the above-described signal for monitoring the line and reflected back from the point of the damaged optical line 80, and the speed of light propagation in the optical line 80 You can get it through

Finally, the WDM coupler 30 is output from the signal transmission unit 10 for data transmission and is output from the signal transmission unit 50 for the data monitoring signal and a specific wavelength loaded on the isolator 20 and the circulator The optical signal P ₀ multiplexed with the line monitoring signal transmitted through the radar 40 is output. In addition, when the optical path 80 is damaged and reflected, the reflected optical signal P ₁ is separated into a data transmission signal and a line monitoring signal. At this time, the data transmission signal is removed by the isolator 20. The line monitoring signal is output to the line monitoring signal receiving unit 70 by the circulator 40.

Operation of the optical path distance measuring apparatus according to the present invention is as follows.

First, the data transmission signal is output from the data transmission signal transmission unit 10 and transmitted to the WDM coupler 30 through the isolator 20, while the control unit 60 controls the line monitoring signal transmission unit 50. Outputs the line monitoring signal loaded with a specific pulse.

When the line monitoring signal is input to the WDM coupler 30 via the circulator 40, the WDM coupler 30 is an optical signal P ₀ multiplexed with the above-described data transmission signal and the line monitoring signal loaded with a specific pulse _. ) Is transmitted to the receiver through the optical path (80).

As such, when the optical signal P ₀ is transmitted through the WDM coupler 30, it may be partially reflected when the optical signal P ₀ is damaged at a specific point of the optical path 80. In this case, the amount of reflection generated at the interface between the glass and the air at the point of damage is about 4% of the amount of transmitted light P ₁ .

Here, the reflected optical signal P ₁ is separated by the WDM coupler 30 and transmitted through the corresponding line, and the data transmission signal is removed by the isolator 20 so as not to be input to the data transmission signal transmitter 10. On the other hand, the line monitoring signal is output to the line monitoring signal receiving unit 70 by the circulator 40.

When the line monitoring signal is input, the line monitoring signal receiving unit 70 converts the signal into an electrical signal and outputs it to the control unit 50, and the control unit 60 analyzes an electrical signal corresponding to this specific pulse to damage the point. Calculate the distance to.

As described above, this is calculated through the moving speed in the optical path 80 of the optical signal and the time taken for the line monitoring signal to be reflected and returned.

That is, the apparatus for measuring the distance to the point of the damaged optical line according to the present invention transmits the line monitoring signal carrying a specific pulse together with the data transmission signal when transmitting data using the optical line 80 as described above. Through the line monitoring signal reflected by the damage to the furnace 80, it is possible to identify errors in data communication, and the corresponding position can be determined through the distance of the damaged ray 80 point.

For example, the measurement distance using the distance measuring device to the damaged optical line point according to the present invention as an example, if the output of the line monitoring signal transmission unit 50 is 0dBm, passing through the first circulator 40 When attenuated by about 3dB, attenuated by about 1dB in the WDM coupler 30, and attenuated by about 0.23dB / km when passing through the optical path 80. In addition, the amount of light attenuation attenuated by the damaged optical path 80 is about 4% and thus is about -14 dB, and about 1 dB is attenuated when it is reflected and passes again through the WDM coupler 30 and passes through the circulator 40. When the attenuation is about 3dB.

In this case, when the 2M class pulse is output, the reception sensitivity of the line monitoring signal receiving unit 70 is 50 dB or less, and the connection loss of the various optical elements and the attenuation when reflected are about -22 dB. Judging the attenuation according to the length of the can measure the distance to the 60km transmission section.

According to the present invention configured as described above, it is possible to determine the point where the light path is damaged by using the line monitoring signal of the light reflected from the damaged light path, through which the corresponding light path can be easily replaced.

Claims (3)

An optical signal transmission apparatus comprising a data transmission signal transmitter for outputting a data transmission signal for transmitting various data, and transmitting the data transmission signal to a receiving side through an optical path. A line monitoring signal transmitter for outputting a line monitoring signal carrying a specific pulse; An isolator which removes the data transmission signal reflected from the damaged light ray point and blocks the data transmission signal from entering the data transmission signal transmitter; WDM (WDM) which transmits an optical signal obtained by multiplexing the line monitoring signal and the data transmission signal to the receiving side, and separates the optical signal reflected from the damaged optical line point after the optical line is damaged and outputs to the corresponding line. Wavelength Division Multiplexing) coupler; A line monitoring signal receiving unit receiving the line monitoring signal from the WDM coupler and converting the line monitoring signal into an electrical signal; A circulator for transmitting the line monitoring signal output from the line monitoring signal transmitting unit to the WDM coupler, and transmitting the line monitoring signal transmitted from the WDM coupler to the line monitoring signal receiving unit; And The line monitoring signal transmitter controls the line monitoring signal outputting the line monitoring signal loaded with the specific pulse, and when the electric signal is input from the line monitoring signal receiving unit by the line monitoring signal, the line monitoring is performed. And a control unit for measuring a distance from the optical signal transmitter to the damaged optical path point using the counted time from the output of the dragon signal to the input and the speed of optical signal movement in the optical path. Distance measuring device to light point. delete delete

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