KR101456194B1 - Tracking device for optical fiber - Google Patents

Abstract

The present invention relates to an optical fiber tracking device, which comprises a pair of a transmitter and a receiver, the transmitter including a voice signal generating module, a data signal generating module, an electric signal converting module, an optical signal converting and transmitting module, Wherein the receiver comprises an optical signal reception conversion module, an electrical signal conversion module, a voice signal output module, a data signal output module, a control module and a battery, and the receiver receives an optical signal transmitted from the transmitter And detecting and outputting a voice signal and a data signal in the received optical signal. Accordingly, it is possible to receive the optical signal transmitted from one end of the optical fiber at the other end, thereby confirming the presence or absence of the optical fiber in each section, and even if there are a plurality of optical fibers to be checked, Can be traced, and the opening work is easy.

Description

[0001] TRACKING DEVICE FOR OPTICAL FIBER [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical fiber tracking device, and more particularly, to an optical fiber tracking device capable of easily tracking an optical fiber required in an installed optical cable and confirming an abnormality.

Generally, an optical fiber is manufactured by elongating a transparent dielectric such as a quartz glass or the like elongatedly. The structure is composed of a core made of a glass material having a high refractive index at the center, a cladding surrounding the periphery of the core, And a jacket for protecting the core and the cladding from impact. This bundle of optical fibers is called an optical cable.

The optical communication is a communication method in which an electrical signal is converted into a light signal through the optical fiber, and the optical signal is converted into an electrical signal. The WDM (wavelength division multiplexing) It is a technology that communicates through a single optical fiber by bundling several channels with different wavelengths. In particular, a passive optical network (PON) using wavelength division multiplexing (WDM) transmits optical signals of various wavelengths through a single optical fiber, and users are independently allocated bandwidths using different wavelengths . This WDM-PON optical communication has high transmission capacity, excellent expansion and high security.

WDM-PON optical communication is divided into Fiber To The Cabinet (FTTC), Fiber To The Building (FTTB), and Fiber To The Home (FTTH) depending on the location of the optical cable where the PON is terminated.

1 schematically illustrates an FTTH configuration using a WDM-PON optical communication. Referring to FIG. 1 of the accompanying drawings, an optical transmission apparatus 1 (OLT (Optical Line Terminal)) installed on a communication company side for converting data into an optical signal, An optical splitter 2 for splitting or coupling an optical signal into a plurality of paths, an optical network unit 3 for converting an optical signal into an electrical signal, an optical network unit (ONU) 3, An optical network terminal (ONT) 4 for transmitting signals, and an optical fiber 6 for connecting the respective devices.

In this configuration, one optical splitter 2 is connected to 2 to 32 or more optical communication network units 3 and an optical fiber 6. That is, the plurality of optical terminal devices 3 (or the optical communication network unit 4) and the optical fiber 6 are connected to one optical splitter 2 so that a plurality of user terminal devices 5 can communicate with each other.

At this time, in the case of additionally installing or reinstalling the optical fiber for optical communication, a process of confirming whether or not the installed optical fiber is abnormal is required. Optical Time Domain Reflectometer (OTDR) is a device that sends out optical signal to optical fiber and receives reflected optical signal to check whether there is any abnormality of optical fiber. It can measure unidirectional and can detect detailed characteristics of whole section, connection point, It is possible to confirm the position of the robot. However, the configuration of the apparatus is complicated, so that it is necessary to know the function, and it is not only difficult to carry, but also has the ability to interpret the measurement data.

Accordingly, a device capable of confirming the presence or absence of an abnormality in the optical fiber laid out by using the optical signal to be transmitted is proposed in the Registration Practical Utility Model No. 444201 (Optical Outlet Intelligent Measuring Device for Home Optical Communication).

As shown in FIG. 2, the above-described measuring device 7 can output the optical signal to be transmitted to the LED 7a and the speaker 7b to confirm the presence or absence of the optical signal by visual and auditory. 1, the optical fiber 6 connected to the ONT 4 must be connected to the optical splitter 2 and the optical signal transmitted from the OLT 1 is transmitted to the optical splitter 2 To the ONT 4 via the ONT 4.

In addition, an optical fiber connected to the ONT, a spare optical fiber, and a plurality of optical fibers that do not require connection are complexly mixed, and an optical fiber connected to the ONT is connected to an optical splitter .

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a fiber optic transmission system capable of transmitting an optical signal to one end of an optical fiber to be connected, Optical fiber tracking device capable of confirming whether or not an optical fiber is abnormal.

The transmitter 100 includes a voice signal generation module 110, a data signal generation module 120, an electric signal conversion module 130, and a data signal generation module 130. The transmitter 100 includes a transmitter 100 and a receiver 200, The optical signal conversion and transmission module 140, the control module 150 and the battery 160. The receiver 200 includes an optical signal reception conversion module 210, an electrical signal conversion module 220, a voice signal output module And a battery 260. The receiver 200 receives the optical signal transmitted from the transmitter 100 and outputs a voice signal The present invention provides an optical fiber tracking device for detecting and outputting signals and data signals.

The optical fiber tracking device according to the present invention can receive the optical signal transmitted from one side of the OLT without receiving the optical signal from the other side and can check whether the optical fiber is abnormal according to the interval and there are a plurality of optical fibers to be checked Even if the signal is received only from the connected optical fiber, the optical fiber can be tracked quickly and accurately, and the opening is easy.

1 is a block diagram of a FTTH in a WDM-PON,
2 is a configuration diagram of a conventional optical communication measuring instrument,
3 is an exploded perspective view of the optical fiber tracking device according to the present invention,
4 is a schematic view showing an optical fiber tracking device according to the present invention,
FIG. 5 is a view illustrating a state where an optical fiber tracking device according to the present invention is connected to an optical fiber.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may properly define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents And variations are possible.

Before describing the present invention with reference to the accompanying drawings, it should be noted that the present invention is not described or specifically described with respect to a known configuration that can be easily added by a person skilled in the art, Let the sound be revealed.

FIG. 3 is a perspective view of an optical fiber tracking device according to the present invention. The transmitter 100 and the receiver 200 are connected to both ends of an optical fiber having a predetermined length, And a receiver 200 for receiving an optical signal transmitted from the optical fiber 200 to confirm whether or not the optical fiber is abnormal, and to track the optical fiber.

Here, the transmitter 100 and the receiver 200 may be configured as a pair and coupled to each other. In other words, the receiver 100 can be coupled to the transmitter 100 through a single unit, but can be separated, thereby simplifying storage and carrying. In one embodiment, the transmitter 100 is provided with a groove 105 and the receiver 200 is provided with a projection 205 corresponding to the groove 105, as shown in FIG. 3 of the accompanying drawings, 205 can be tightly coupled to the groove 105. The coupling relationship between the transmitter 100 and the receiver 200 is not limited to the configuration of the grooves 105 and the protrusions 205 but may also be a combination of an arm portion and a male portion by fitting, It is needless to say that the coupling of the receiver 200 can be any known structure.

The transmitter 100 is a device for outputting an optical signal and includes a transmission side connection terminal 101 to which one terminal of the optical fiber is connected and a switch 102).

The receiver 200 receives an optical signal transmitted from the transmitter 100 through an optical fiber and outputs a signal suitable for the received optical signal. The receiver 200 includes a reception-side connection terminal 201 to which the other terminal of the optical fiber is connected, A switch 202 for switching, and a speaker 232 for outputting the received optical signal, an LED 242, and a display panel 244.

Here, a connector coupled to both ends of the optical fiber is connected to the transmission-side connection terminal 101 of the transmitter 100 and the reception-side connection terminal 201 of the receiver 200, and a gender suitable for the connector Can be further configured.

Hereinafter, internal configurations of a transmitter and a receiver will be described in detail with reference to the accompanying drawings.

4 is a block diagram schematically illustrating the internal structure of a transmitter and a receiver in an optical fiber tracking device according to the present invention.

The transmitter 100 includes a voice signal generation module 110, a data signal generation module 120, an electric signal conversion module 130, an optical signal conversion and transmission module 140, a control module 150 and a battery 160 do.

The voice signal generation module 110 stores voice signals and generates the voice signals by repeatedly reproducing the voice signals at regular intervals.

The data signal generation module 120 generates data (for example, video or other signals) repeated at a predetermined period.

The electric signal generation module 130 converts voice signals and data signals generated by the voice signal generation module 110 and the data signal generation module 120 into electric signals.

The optical signal conversion / transmission module 140 converts the converted electrical signal into light (light) and inputs the converted electrical signal to the optical fiber, and its output end is connected to the transmission-side connection terminal 101.

The control module 150 controls the modules of the transmitter 100 such as the voice signal generation module 110, the data signal generation module 120, the electric signal generation module 130 and the optical signal conversion and transmission module 140, And controls to transmit the optical signal.

The battery 160 supplies power to each module according to the operation of the switch 102 (see FIG. 1).

The receiver 200 corresponds to the transmitter 100 and is connected to the other end of the optical fiber 300 and includes an optical signal receiving and converting module 210, an electrical signal converting module 220, a voice signal output module 230, A signal output module 240, a control module 250, and a battery 260.

The optical signal reception conversion module 210 is connected to the reception side connection terminal 201 (see FIG. 1), receives the optical signal transmitted from the transmitter 100, and converts the received optical signal into an electrical signal.

The electrical signal conversion module 220 converts the converted electrical signal into a voice signal and a data signal.

The audio signal output module 230 controls the audio signal conversion module 220 to output the converted audio signal.

The data signal output module 240 controls the electric signal conversion module 220 to output the converted data signal.

The control module 250 controls the modules of the transmitter, that is, the optical signal reception conversion module 210, the electrical signal conversion module 220, the voice signal output module 230, and the data signal output module 240, And outputs the optical signal as an audio signal and a data signal.

The battery 260 supplies power to each module according to the operation of the switch 202 (see FIG. 1).

A speaker 232 connected to the audio signal output module 230 and an LED 242 connected to the data signal output module 240 and a display panel 244 connected to the data signal output module 240 are provided to audibly and visually confirm whether or not the optical fiber 300 is abnormal. ) May be further included.

Here, a phenomenon (optical communication loss, optical fiber loss) occurs in which the output of the optical signal is attenuated due to scattering and absorption while the optical signal travels through the optical fiber.

Optical communication losses are largely classified into internal factors and external factors. Internal factors include absorption loss, which is a part of light (light) is converted into heat energy, scattering loss where light (light) is scattered in several directions, A bending loss occurring in the bending of the bending portion, and a coupling loss occurring when the bending portion is coupled with the apparatus.

Among these, the loss due to the impurities is included in the optical fiber during the absorption loss of the internal factor.

This loss varies depending on the material of the optical fiber, but is relatively small at 0.25 dB / Km in the 1550 nm wavelength band. In the present invention, considering the fact that the optical fiber is tracked and the existence of the abnormality is between the optical splitter and the ONT, the distance between the transmitter and the receiver is relatively short, so that the loss generated from the inner factor can be mostly absorbed by the impurity, The bending loss is dominant.

Therefore, the speaker 232, the LED 242, and the display panel 244 must be configured so that this optical communication loss can be displayed.

In the present invention, optical communication loss is visually and audibly output. In the case of a voice signal, noise increases as the optical communication loss increases. That is, if a lot of noise is generated in the speaker 242, it can be known that the optical communication loss is large, but it can not be accurately known what the loss is.

Accordingly, in the present invention, a plurality of LEDs 242 connected to the data signal output module 240 are provided, and the LEDs 242 are output in a different number of LEDs 242 that are turned on in proportion to the output of the optical signal. That is, the output intensity of the optical signal of the transmitter 100 and the input intensity of the optical signal of the receiver 200 are synchronized in advance to estimate the intensity of the input optical signal, and the number of the LEDs 242 . For example, three LEDs 242 may be provided, three LEDs may be lit when the loss rate is 10% or less, and two may be lit when the loss rate is 20% or less.

The information displayed on the display panel 244 is determined by comparing the output intensity of the optical signal transmitted from the transmitter 100 with the input intensity of the optical signal received by the receiver 200, .

Therefore, it is possible to determine the presence or absence of the optical fiber abnormality by audibly determining the presence or absence of the optical fiber by the audio signal output from the speaker 232, and by measuring the number of the LEDs 242, It is possible to know whether the optical fiber is suitable for the optical fiber.

FIG. 5 is a view illustrating a state where an optical fiber tracking device according to the present invention is connected to an optical fiber.

The transmitter 100 connects the terminal connected to the termination optical fiber 300, that is, the ONT 4 (see FIG. 1) in the FTTH configuration, and the receiver 200 connects the optical fiber 300 terminal connected to the optical splitter.

At this time, since the optical fiber connected to the optical splitter may have several strands, a procedure for tracking the optical fiber 300 to which the transmitter 100 is connected will be described.

First, the transmitter 100 is connected to the end optical fiber 300, and the switch 102 is operated to drive the transmitter 100. The transmitter 100 continuously transmits the optical signal under the control of the control module 150.

Next, the optical fiber 300 is tracked while connecting several optical fibers to the receiver 200 at the optical splitter side. At this time, although there are a plurality of optical fibers to be confirmed, signals can be received only from the optical fiber to which the transmitter 100 is connected, so that the optical fiber can be tracked quickly and accurately.

In addition, the optical fiber 300 tracked through the above-described tracking process can confirm whether the optical fiber is suitable for optical communication through the speaker 232, the LED 242, and the display panel 244. [

2 to 5 are merely the main points of the present invention, and various designs can be made within the technical scope of the present invention, so that the present invention is limited to the configurations of Figs. 2 to 5 It is self-evident.

100: Transmitter 101: Transmission side connection terminal
102, 202, switch 110: voice signal generating module
120: Data signal generating module 130: Electric signal generating module
140: Optical signal conversion transmission module 150. 250: Control module
160, 260: Battery 200: Receiver
201: receiving side connection terminal 210: optical signal reception conversion module
220: electrical signal conversion module 230: audio signal output module
232: speaker 240: data signal output module
242: LED 244: display panel
300: Optical fiber

Claims (5)

1. An optical fiber tracking device comprising a pair of a transmitter (100) and a receiver (200)
The transmitter (100)
A voice signal generation module 110, a data signal generation module 120, an electric signal conversion module 130, an optical signal conversion and transmission module 140, a control module 150 and a battery 160,
The receiver (200)
The optical signal conversion module 210, the electrical signal conversion module 220, the voice signal output module 230, the data signal output module 240, the control module 250 and the battery 260,
The voice signal output module 230 includes a speaker 232 for outputting a voice signal and the data signal output module 240 includes an LED 242 and a display panel 244 for outputting a data signal,
The receiver (200)
Receives an optical signal transmitted from the transmitter (100), detects and outputs a voice signal and a data signal from the received optical signal,
The speaker 232 included in the voice signal output module 230 increases the noise of the output voice signal as the loss of the optical signal increases,
The LED 242 included in the data signal output module 240 changes the number of LEDs 242 turned on according to the intensity of the input optical signal received from the transmitter 100,
The output intensity of the optical signal transmitted from the transmitter 100 is compared with the input intensity of the optical signal received by the receiver 200 to the display panel 244 included in the data signal output module 240, So that the converted loss ratio is displayed.
The method according to claim 1,
Wherein the transmitter (100) and the receiver (200) are combinable. delete delete delete

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