KR20110019147A - Apparatus and system for switching fiber optic feeder line in ftth network - Google Patents

Abstract

PURPOSE: A light switching device in FTTH network and a system thereof are provided to minimize the loss of an optical signal and prevent communication accident through an alternative route to a spare line. CONSTITUTION: A light loss sensor(110) senses the loss of the optical signal inputted through an operation line and outputs a communications barrier signal about operation line which happens the loss of the optical signal. A main switch switches a switching line for forming a protection path instead of the operation line if there is the light loss on the operation line. A protection switch forms a protection line which is connected to a preliminary line. A switching controller(130) detects the operation line and receives a communication failure signal.

Description

FTHC TV optical fiber switching device and system {Apparatus and System for switching fiber optic feeder line in FTTH network}

The present invention relates to an FTTH optical fiber switching system and system. More specifically, in order to prevent a large number of FTTH subscribers from temporarily stopping service when cutting the optical cable corresponding to the optical trunk section in the FTTH network, the optical cable section of the optical trunk section is protected and switched to prevent the failure of the optical cable in advance. FTTH optical fiber switching device and system for protecting.

Recent developments in FTTH (Fiber to the home) technology have enabled us to extend the distance from our company to each subscriber. The Ethernet Passive Optical Network (E-PON) or Gigabit Passive Optical Network (G-PON) technology, which is currently used to build the FTTH network, has increased the signal reach from subscribers to subscribers. The issue has been raised.

Unlike the case where the transmission distance from the telephone company to the subscriber is limited to within 2 km because the FTTH technology is not applied, FTTH optical transmission technologies such as E-PON, G-PON, and Wavelength Division Multiplexing Passive Optical Network (WDM-PON) are used. In addition, the distance of the signal from the telephone station to the subscriber is increased by about 20 km, so that the existing national history can be integrated.

In this case, OLT (Optical Line Terminal), which is a host terminal of FTTH located in the existing integrated station, is moved to a wide area station, and x-DSL (x Digital Subscriber Line) device is replaced by OLT device of FTTH. It will be housed in integrated regional history. The advantages of these regional integration centers are attracting great attention because they allow operators to reduce the cost of facility maintenance, and at the same time, they can open new businesses using existing local buildings.

The easiest way to build an existing regional cable network by integrating existing host stations is to leave the trunk line between the integrated and integrated stations without leaving the existing trunk and wiring cable networks that connect subscribers and recipient stations. It's a new way of organizing.

If the newly constructed wide area network and wiring network between the integrated country and the subscribers based on the integrated metropolitan history are completely reconfigured, a large part of the existing conduits must be abandoned and newly constructed, and the existing subscribers are accommodated in the new cable route. The procedure is complicated, which makes it difficult to build in a short time. As such, when the existing integrated wide area optical subscriber network is configured, a newly added wide area network between the integrated and integrated countries serves to connect all the subscribers of the integrated countries to the wide area integrated station. The cable is laid.

However, in the case of the FTTH network, the cable network structure is essentially a star structure, and in the wiring system corresponding to the end of the star network topology, the pipelines and poles of which the cable route is formed also have a star structure, thus bypassing signals in case of failure. The construction of possible routes is practically impossible. In addition, the low-cost FTTH system does not fundamentally duplicate the system to prevent failures, so if the cable constituting the optical fiber network is cut, all the FTTH subscribers accommodated in the cable may face a service interruption. There is nothing else.

In order to solve this problem, the most commonly used method is to switch the line between the wide section to 1: 1. The line through which the same signal passes consists of two lines, the operating line and the reserve line. In case of disconnection, the signal is transferred to the reserve line by using the 1X2 high speed optical switch.

However, this one-to-one switching-based approach has the advantage of being easy to implement, while one reserve line must be installed for each operating line, so the cost and resources required for the construction of the FTTH optical fiber network, which can be protected There is a problem that it takes too much.

The present invention is to solve the above problems in the construction of the protection switching route for switching the FTTH optical fiber network to reduce the excessive cost of the construction of the optical fiber network, and the optical fiber network switching device and system for efficiently switching the FTTH optical fiber network To provide that purpose.

In order to achieve the above object, the present invention detects the loss of the optical signal input through at least one operating line constituting the transmission and reception path of the optical signal and outputs a communication failure signal for the operating line where the optical signal loss occurred. An optical loss detector; A main switch connected to the operating line to form an optical communication path and then switched to a switching line for forming a protective path in place of the operating line when an optical loss of the operating line occurs; A protection switch connected to one switching line replacing the switching line and the operating line on which the optical signal is lost, thereby forming a protection path; Receiving the communication failure signal from the optical loss detection unit detects the operation line is a loss of the optical signal, the first switching signal and the protection to switch the main switch connected to the detected operation line to the reserve line And a switching controller for switching a switch to transmit a second switching signal to be connected to a main switch connected to the detected operating line.

Here, the optical fiber network switching device splits the optical signal input through the operating line into a data light for data transmission and a signal light for determining whether the optical signal is lost, and transmits the signal light to the optical loss detector. And an optical branch unit configured to detect the loss of the signal light, and output a communication failure signal to the operating line where the signal light is lost when the signal light loss is detected.

In addition, between the operating line and the main switch detects the optical signal input through the operating line, and if the optical signal is detected, a recovery signal for switching the main switch from the switching line to the operating line to the main It further comprises an optical signal detection unit for transmitting to the switch.

In addition, the number of input terminals provided in the protection switch is the same as the number of the main switch, and the input terminal and the main switch is characterized in that one-to-one correspond.

In addition, the number of optical cores provided in the operating line is the same as the number of optical cores provided in the reserve line.

In addition, the main switch and the protection switch is characterized in that a plurality of optical cores are switched.

On the other hand, the present invention is an optical loss detection unit for detecting the loss of the optical signal input through at least one operating line constituting the transmission and reception path of the optical signal and outputs a communication failure signal for the operating line where the optical signal loss occurs ; A main switch connected to the operating line to form an optical communication path and switched to a switching line for forming another optical communication path in place of the operating line when optical loss of the operating line occurs; A protection switch connected to one switching line replacing the switching line and the operating line from which the loss of the optical signal is generated to form a protection switching path; Receiving the communication failure signal from the optical loss detection unit detects the operation line is a loss of the optical signal, the first switching signal and the protection to switch the main switch connected to the detected operation line to the reserve line A switching control unit configured to transmit a second switching signal for switching the switch to be connected to the main switch connected to the detected operation line, and detecting the loss of an upstream signal inputted through the operation line from the operation line to the reserve line. An upper node including a first optical fiber network switching device for switching an optical communication path; And the same configuration as that of the first optical fiber network switching device, and forms an optical communication path with the first optical fiber network switching device through the operating line and the reserve line, and prevents a loss of a downlink signal input through the operating line. And a lower node having a second optical trunkion network switching device for switching an optical communication path from the operating line to the reserve line when detected.

According to the present invention, if an error occurs in the operation line constituting the FTTH optical fiber network, there is an advantage that a communication route can be prevented by providing a bypass route as a spare line. In addition, there is an effect that the construction cost of the line for protecting and switching the FTTH optical fiber network can be reduced.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, detailed description is abbreviate | omitted when it is judged that it may obscure the summary of this invention. In addition, preferred embodiments of the present invention will be described below, but the technical idea of the present invention may be implemented by those skilled in the art without being limited or limited thereto.

1 is a view schematically showing a conventional optical network switching device.

As shown in FIG. 1, a conventional optical fiber switching device 10a or 10b is provided with a plurality of 1 × 2 optical switches 16a and 16b, respectively, and an operation line connecting between the optical switches 16a and 16b. In addition, in addition to the above-mentioned (12) to prevent the smooth optical communication can be further provided with a reserve line (14) connected to the optical switch (16a, 16b).

By doing so, when the optical cable constituting the operation line 12 is cut due to trunk network construction or other situation, the optical line 16 (16a, 16b) of the spare line 14 is removed from the operation line 12. The optical communication path was formed through the reserve line 14 until the operation line 12, which had been changed and malfunctioned, was prevented from being interrupted to a plurality of Internet service subscribers.

By the way, in the conventional optical fiber network switching device (10a, 10b), there is a problem that an excessive construction cost is required to configure the optical fiber network protection switching system by assigning one spare line 14 for each operating line 12.

 2 is a view showing an optical network switching device according to a preferred embodiment of the present invention.

In the present invention, the plurality of operating lines 102 provided in the optical fiber network switching device 100 can share a single backup line 104, so that a plurality of backup lines 104 are provided when constructing the optical fiber network protection switching system. This reduces the cost and makes the system operation and maintenance easier.

Hereinafter, the optical fiber network switching device 100 according to the preferred embodiment of the present invention will be described in more detail with reference to FIG. 2.

The optical fiber network switching device 100 according to the preferred embodiment of the present invention includes an optical loss detector 110, a switch unit 120, and a switching controller 130.

The optical loss detector 110 has an abnormality such as a cable cut in any one of the one or more operating lines 102, so that the loss of the optical signal input through the corresponding operating line 102 is lost. When it occurs, it detects this and transmits a communication failure signal for the corresponding operation line 102.

On the other hand, the optical signal input through the operating line 102 and the main switch 121 determines whether the data light and the optical signal for data transmission is lost by the optical branch 112 for branching the optical signal at a predetermined ratio. Divided into signal light.

The optical loss detector 110 receives the signal light branched by the optical branch unit 112, detects the loss of the signal light, and outputs a communication failure signal.

Here, the optical branching unit 112 may be implemented as a tapping optical coupler for splitting an optical signal at a predetermined ratio, and the ratio of data light and signal light branched by the tapping optical coupler may be 9 to 1.

The switch unit 120 serves to switch the optical communication path of the optical signal transmitted and received through the optical fiber network switching device 100 from the operating line 102 to the reserve line 104. The switch unit 120 may include a main switch 121, a protection switch 122, and a switching line 123.

The main switch 121 is connected to each of the at least one operating line 102, one by one, each switching line 123 is connected to each main switch 121. The main switch 121 may be implemented as a 1 × 2 optical switch.

The main switch 121 forms an optical communication path so that an optical signal can be transmitted / received through the operating line 102 at an ordinary time, and the operating line 102 is cut or damaged due to a line construction or a disconnection accident. If it is not made smoothly from the operating line 102 is switched to the switching line 123 side.

The switching line 123 connected to each main switch 121 is connected to the protection switch 122. As the protection switch 122 is transferred, the selected switching line 123 is connected to the spare line 104 to operate the line. Form an optical communication path in place of 102.

The protection switch 122 may be formed of an N × 1 optical switch. The protection switch 122 may be connected to each main switch 121 through a switching line 123 so that an optical signal may be transmitted and received through the reserve line 104. In this case, the number of input terminals provided in the protection switch 122 is the same as the number of the main switches 121, and each input terminal corresponds one-to-one with the main switch.

The main switch 121 and the protection switch 122 may be a large-capacity optical fiber switching device for collectively switching a plurality of optical cores accommodated in the optical cable forming the operating line 102 and the reserve line 104.

The switching controller 130 may include a plurality of switching lines in which the first switch signal and the protection switch 122 are connected to the protection switch 122 so that the main switch 121 is transferred from the operating line 102 to the switching line 123. The second switch signal for selecting the switching line 123 connected to the main switch 121 switched by the first switch signal from the switch 123 is transmitted.

This operation of the switching control unit 130 is performed by receiving the communication failure signal transmitted from the optical loss detection unit 110, the communication failure signal to the operating line 102, the light loss is detected due to an error occurs Include identification information.

The switching controller 130 receiving the communication failure signal detects the operation line 102 in which the optical signal is lost, and transmits the first switching signal to the main switch 121 connected to the detected operation line 102. The main switch 121 is switched from the operating line 102 to the switching line 123.

The optical fiber network switching device 100 according to the preferred embodiment of the present invention may further include an optical signal detecting unit 140.

The optical signal detector 140 detects an optical signal input through the restored operating line 102, and when the optical signal is detected, the main switch 121 is switched from the switching line 123 to the operating line 102. The recovery signal is sent to the main switch 121.

The main switch 121 receiving the restoration signal is switched from the switching line 123 to the operating line 102 so that the optical signal can be transmitted and received again through the operating line 102.

3 is a diagram illustrating an optical network switching system according to a preferred embodiment of the present invention.

Hereinafter, a process of switching the optical trunk network through the optical network switching system 300 according to a preferred embodiment of the present invention will be described.

In this case, it is assumed that one of the two optical fiber network switching devices 100a and 100b is the first optical fiber network switching device 100a belonging to the upper node, and the other one is the second optical fiber network switching device 100b belonging to the lower node. . In addition, the downlink signal is transmitted from the first optical fiber network switching device 100a to the second optical fiber network switching device 100b, and the upward signal from the second optical fiber network switching device 100b to the first optical fiber network switching device 100a. Assume that is transmitted.

The optical signal, which is normally transmitted downward from the optical line terminal (OLT) 200 to the second optical fiber network switching device 100b via the first optical fiber network switching device 100a, is an optical branch of the first optical fiber network switching device 100a. 112, the main switch 121 is transmitted to the operation line 102. The optical signal transmitted downward along the operation line 102 is transmitted to the subscriber station via the main switch 121 'and the optical branch 112' of the second optical fiber switching device 100b. In this case, the optical signal passing through the optical branch 112 'of the second optical fiber switching system 100b is divided into data light and signal light, and the divided signal light is transmitted to the optical loss detector 110'.

Since there is no loss of the optical signal transmitted through each operating line 102, there is no loss even in the signal light formed by dividing the optical signal by a certain ratio, and the optical loss detector 110 'does not transmit a communication failure signal. Do not.

However, if the operating line 102 is damaged or cut and a loss of the optical signal transmitted downward through the operating line 102 occurs, the loss occurs in the signal light separated by the optical branch 112 '. The optical loss detection unit 110 ′ detects this and transmits a communication failure signal to the switching controller 110 ′. Then, the switching controller 130 'receives the communication failure signal and transmits the first switch signal and the second switch signal to the main switch 121' and the protection switch 122 'so that the main switch 121' and the protection switch ( 122 ').

Thus, the second optical fiber network switching device 100b forms an optical communication path to the spare line 104 in place of the operating line 102 in which the abnormality occurs.

On the other hand, the optical signal to be transmitted to the first optical fiber network switching device (100a) also because the transmission state is not smooth due to the abnormality of the operating line 102, the first optical fiber network switching device (100a) in the second optical fiber network switching The process performed in the device 100b is the same. That is, the optical communication path is formed as the spare line 104 in place of the operation line 102 in which the abnormality occurs even in the first optical fiber network switching device 100a.

In this way, the first optical fiber network switching device 100a and the second optical fiber network switching device 100b transmit and receive optical signals using the reserve line 104 as a new optical communication path.

In addition, by using the up and down signals transmitted and received between the first optical fiber switching device (100a) and the second optical network switching device (100b) for the control of each of the main switch 121 and the protection switch 122, each switch There is no need to provide a separate communication channel for tuning between (121, 122).

When constructing a protection switching system through the optical communication network switching device 100 according to a preferred embodiment of the present invention, the plurality of operating lines 102 to take the form of sharing a single reserve line 104, the reserve line 104 The cost of the construction can be reduced.

In other words, the number of optical cores accommodated in the optical cable constituting the operating line 102 is equal to the number of optical cores accommodated in the optical cable constituting the reserve line 104, so that only one such reserve line 104 is provided. By doing so, it is not necessary to provide as many as the number of the operating line 102 to the reserve line 104.

For example, the total number of optical cores connected between the first optical fiber optic switching device 100a and the second optical fiber optic network switching device 100b is 1000, and each of them is operated through five operating lines 102. The number of optical cores provided in the optical cable forming the operating line 102 becomes 200.

In this case, as in the prior art, when the protection line is performed by providing the reserve line 104 for each operating line 102, five optical cables having 200 optical cores should be provided as the reserve line 104. A total of 2000 optical cores are required for protection switching. However, in the present invention, only one preliminary line 104 is required, and in this case, since only 1200 optical cores are used for the protection switching of the optical fiber network, the number of optical cores used for the protection switching of the optical fiber network is determined. It will be greatly reduced.

The above description has been made on the assumption that an error occurs in any one of the operating lines 102 among the plurality of operating lines 102 sharing the same reserve line 104.

However, in some cases, two or more output terminals are connected to the preliminary line 104, and the protection switch 122 includes less than the number of input terminals to which the switching line 123 is connected. In the case where optical loss occurs in two or more operating lines 102 by connecting the same reserve line 104 as the number of output stages, the optical line is not used as an optical communication path in the operating line 102 where the optical loss occurs due to the second switching signal. It is also possible to form a plurality of protective paths by the transfer to the preliminary line 104.

The above description is merely illustrative of the technical idea of the present invention, and various modifications, changes, and substitutions may be made by those skilled in the art without departing from the essential characteristics of the present invention. will be. Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical spirit of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by the embodiments and the accompanying drawings. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

1 is a view schematically showing a conventional optical network switching device.

2 is a view showing an optical network switching device according to a preferred embodiment of the present invention.

3 is a diagram illustrating an optical network switching system according to a preferred embodiment of the present invention.

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

100: optical trunk switching device 100a: first optical trunk switching device

100b: second optical fiber network switching device

102: operating track 104: reserve track

110: light loss detector 112: optical branch

120: switch portion 121: main switch

122: protection switch 123: switching line

130: switching control unit 140: optical signal detection unit

200: OLT 300: optical trunk switching system

Claims (7)

An optical loss detector for detecting a loss of the optical signal input through at least one operating line constituting a transmission / reception path of the optical signal and outputting a communication failure signal for the operating line where the optical signal has been lost; A main switch connected to the operating line to form an optical communication path and then switched to a switching line for forming a protective path in place of the operating line when an optical loss of the operating line occurs; A protection switch connected to one switching line replacing the switching line and the operating line on which the optical signal is lost, thereby forming a protection path; Receiving the communication failure signal from the optical loss detection unit detects the operation line is a loss of the optical signal, the first switching signal and the protection to switch the main switch connected to the detected operation line to the reserve line And a switching control unit for switching a switch to transmit a second switching signal to be connected to a main switch connected to the detected operating line. The method of claim 1, The optical fiber network switching device And splitting the optical signal input through the operating line into a data light for data transmission and a signal light for determining whether the optical signal is lost, and an optical splitter for transmitting the signal light to the optical loss detector. The optical loss detecting unit detects the loss of the signal light, and when the loss of the signal light is detected, the optical fiber network switching device for outputting a communication failure signal for the operating line in which the signal light loss occurs. The method of claim 1, Between the operation line and the main switch The optical signal sensing unit for detecting the optical signal input through the operating line, and if the optical signal is detected, the optical signal detecting unit for transmitting a restoration signal for switching the main switch from the switching line to the operating line to the main switch; Optical network switching device, characterized in that. The method of claim 1, The number of input terminals provided in the protection switch is the same as the number of the main switch, the input terminal and the main switch, characterized in that the one-to-one correspondence. The method of claim 1, And the number of optical cores provided in the operating line is the same as the number of optical cores provided in the spare line. The method of claim 2, And the main switch and the protection switch collectively switch a plurality of optical cores. An optical loss detector for detecting a loss of the optical signal input through at least one operating line constituting a transmission / reception path of the optical signal and outputting a communication failure signal for the operating line where the optical signal has been lost; A main switch connected to the operating line to form an optical communication path and switched to a switching line for forming another optical communication path in place of the operating line when optical loss of the operating line occurs; A protection switch connected to one switching line replacing the switching line and the operating line from which the loss of the optical signal is generated to form a protection switching path; Receiving the communication failure signal from the optical loss detection unit detects the operation line is a loss of the optical signal, the first switching signal and the protection to switch the main switch connected to the detected operation line to the reserve line A switching control unit configured to transmit a second switching signal for switching the switch to be connected to the main switch connected to the detected operation line, and detecting the loss of an upstream signal inputted through the operation line from the operation line to the reserve line. An upper node including a first optical fiber network switching device for switching an optical communication path; And Comprising the same configuration as the first optical fiber network switching device, and forms an optical communication path with the first optical fiber network switching device through the operating line and the reserve line, and detects the loss of the downlink signal input through the operating line And a lower node having a second optical trunkion network switching device for switching an optical communication path from the operating line to the reserve line.

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