KR101226549B1 - Optical cable fiber identifier - Google Patents

Abstract

PURPOSE: A optical cable core line comparator is provided to check the connection status of a core line by using signal input and output. CONSTITUTION: A MSPP(Multi Service Provisioning Platform)(100) of a base station and a first FDF(Fiber Distribution Frame)(200) are connected to an optical cable(300), and the first FDF of base station is connected to a second FDF(201) of a branch station and the optical cable. A transfer switch(10) is connected to the optical cable which connects the MSPP of the base station and the first FDF. The transfer switch is remotely controlled through a portable communications terminal(20) in a remote location. An optical power meter(30) is connected to the portable communication terminal. [Reference numerals] (AA) Branch station 1; (BB) Telephone company mother station; (CC) Branch station 2; (DD,EE,300) Optical cable

Description

Optical cable fiber identifier

The present invention relates to an optical cable core checker that can check the wiring state of the core wires by one or multiple signal input / output, and more particularly, the optical source is remotely connected to a terminal (eg, an iPad or a wireless terminal) capable of communication. Repeatedly cuts or connects the red laser, the actual Multi Service Provisioning Platform (MSPP), and other optical end-station light sources, and measures the quality of the optical cable with an optical power meter at a remote site such as branch office by itself. The present invention relates to an optical fiber core collider that enables the completion of the opening of the optical fiber transmission path to the terminal MSPP.

In general, MSPP is a form of accommodating multiple services in one device, and accepts Ethernet for data service while accommodating PDH and SDH hierarchy signals for voice service in one device. Digital Hierarchy (SDH) equipment can accommodate asynchronous transmission mode (ATM) signals (Cell), Gigabit Ethernet signals (Internet Protocol) data, and even private line services.

In addition, a plurality of fiber distribution frames (FDFs), which are optical distribution panels connected by optical cables as branch offices, are installed between the MSPP and subscribers installed in the mother station (telephone station), and the optical cables and optical paths are introduced and distributed therein. .

At this time, in order to connect the optical cable from the MSPP, which is the mother country, to the FDF, which is the branch station, the quality of the optical cable is measured through the optical cable core matching. When the fiber cable core is found at the terminal such as terminal box, it is to find out how many times the cable pair found in the branch country corresponds to the fiber cable core in the mother country.

However, in the conventional optical cable core collation operation, as shown in FIG. 1, communication between the MSPP 100 of the mother country and the FDF 200 and the FDF 201 of the branch station is performed using the optical cable 300. In this case, there was a disadvantage that the worker should be placed in the MSPP 100 of the home country, and the worker should be placed in the FDF 201 of the branch office.

That is, a person must check the control line number of the optical cable 300 in the MSPP 100 of the mother country and the FDF 201 of the branch station, measure the light source output, and then transmit it to the FDF 201 of the other branch station. Since the optical cable 300 connected between the FDF 200 and 201 should be connected to the same control line number, the operator responds to the FDF of the receiving end RX after being notified of the control line number of the FDF transmitted from the transmitting end TX. This is because the communication connection can be made only when the control line number is connected.

For example, in order to connect the optical cable 300 from the MSPP 100 of the mother station to the FDF 201 of the branch station so that the opening of the MSPP is performed, the FDF 201 of the branch station and the MSPP 100 of the mother station are respectively. The operator has taken the optical cable 300 and plugged it in, and the control line number must be checked, as well as the optical source output db measurement, and then the optical cable core wire for going to the FDF 201 of another branch station must be passed. Every time a new branch station where the FDF is installed is specified, it is repeated and the workers must be arranged. That is, conventionally, in order to measure the quality of the optical cable line and insert the optical cable back into the optical transmission equipment for the line test, an experienced technician carries the measuring instrument and the equipment each and a pair of two people (one mother and one branch company). Had to work.

The present invention is to improve the shortcomings of the conventional optical cable core matching operation as described above, the operator that the optical source is arranged in the branch station to the communication terminal (for example, iPad, wireless communication terminal) of the red laser and the actual MSPP By configuring the remote control of the disconnection and connection status of the optical source repeatedly, the operator can measure the quality of the optical cable with the optical power meter at the branch station by himself or herself, and complete the transmission path to the end MSPP. The purpose is to provide a core contraster.

The optical fiber core liner of the present invention for achieving the above object is connected to the MSPP of the mother station and the first FDF by an optical cable, wherein the first FDF of the mother station is connected to the second FDF of the branch station by the optical cable, MSPP of the mother station And a switching switch for cutting off or connecting the signal output of the MSPP to an optical cable connecting the first FDF, and the switching operation of the switching switch is configured to be remotely controlled through a portable communication terminal at a remote location. When the signal is output by the switching operation of the transfer switch through, the quality state of the signal output is measured by an optical power meter, and the measurement result by the optical power meter is displayed on the portable communication terminal connected to the optical power meter. It is configured to be.

In addition, the signal output from the MSPP is an optical source signal for the quality output to the optical cable and a laser signal for short-range matching, the optical source signal and the laser signal is to be remotely controlled by the portable communication terminal selectively its output. It is made up.

In addition, the portable communication terminal is configured to loop back the optical source or the red laser signal output through the second output terminal of the MSPP to the MSPP to test the quality of the looped signal.

As described above, the present invention is configured so that an operator who is located in a branch station of an optical source with an iPad or a wireless communication terminal capable of communication can remotely control the blocking and connection state of the red laser and the actual MSPP optical source. Through this, the workers can measure the quality of the optical cable with branch power at the branch office and complete the transmission path to the end MSPP. It can be. In addition, it is possible to temporarily open optical transmission equipment such as MSPP of the home station by remote control at branch offices, etc., so that not only the line test but also the test of the equipment can be simultaneously performed.

1 is a schematic block diagram showing a conventional optical fiber core contrast state.
Figure 2 is a schematic block diagram showing an optical cable core contrast state as an embodiment of the present invention.
Figure 3 is a detailed flowchart of the optical cable core matching in an embodiment of the present invention.

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

2 is a schematic block diagram showing an optical cable core matching state according to an embodiment of the present invention, and FIG. 3 shows a detailed flowchart of the optical cable core matching according to an embodiment of the present invention.

2 and 3, the optical cable core collimator according to the embodiment of the present invention connects the MSPP 100 of the home country and the first FDF 200 with the optical cable 300, and the first of the home country. In the FDF 200 is connected to the second FDF 201 and the optical cable 300 of the branch office, the switching switch to the optical cable 300 connecting the MSPP 100 and the first FDF 201 of the mother station ( 10), the transfer switch 10 is configured to remotely control through a remote communication terminal 20, the portable communication terminal 20 is achieved by connecting the optical power meter 30 to the configuration .

That is, the transfer switch 10 performs a switching operation to block or connect the output of the optical source or the laser signal for short-range matching outputted from the MSPP 100.

The portable communication terminal 20 communicates wirelessly with the transfer switch 10, and remotely controls the transfer operation of the transfer switch 10 at a remote location (site) and a light source signal from the MSPP 100 and a short range. It is configured to selectively output the laser signal for matching.

The optical power meter 30 is connected to the portable communication terminal 20. When the optical source signal or the laser signal is output by the switching operation of the transfer switch 10 through the portable communication terminal 20, Measuring the quality of the light source or the output of the laser signal, the measurement result is configured to transmit to the portable communication terminal 20 is connected to the optical power meter (30).

That is, the optical cable core collimator according to the embodiment of the present invention, as shown in Figures 2 and 3 attached to, first installed in the optical cable 300 of the home country through a portable communication terminal 20 by a worker located at a remote site (site) Remotely controlling the switching switch 10 to be a signal output or to perform a switching operation to be repeated repeatedly.

Then, the light source signal TX or the red laser for short-range matching is selectively transmitted from the second output terminal FDF # 2 of the MSPP 100 located in the mother station from the repeated switching operation of the transfer switch 10. Or the transmission is blocked.

At this time, the remote worker is the place where the signal transmitted from the second output terminal (FDF # 2) of the MSPP 100 through the optical power meter 30 is connected to the portable communication terminal 20 (eg branch office) ) Can test the transmission quality of the signal through the optical cable 300 from the transmitted signal or the cut-off state through the portable communication terminal 20, and confirms the test result through the screen of the portable communication terminal 20 It can be.

On the other hand, after the quality test of the signal through the optical cable 300 as described above, the remote operator receives the optical source or the red laser signal output through the second output terminal (FDF # 2) of the MSPP (100) the MSPP (100) LOOPBACK, and in this case, the signal transmitted from the second FDF 201 (# 1) of the remote site (injection station) is transmitted to the first FDF 200 (# of the mother station, which is the front end of the transfer switch 10). 1), the operator can test the quality of the looping signal through the optical power meter 30 connected to the portable communication terminal 20 as well as the test result of the portable communication. Through the screen of the terminal 20, such as to be able to check the quality of the optical cable 300 alone from the remote site and to perform the opening operation of the optical cable 300.

On the other hand, after the quality test of the signal through the optical cable 300 as described above, the remote operator receives the optical source or the red laser signal output through the second output terminal (FDF # 2) of the MSPP (100) the MSPP (100) LOOPBACK, and in this case, the signal transmitted from the second FDF 201 (# 1) of the remote site (injection station) is transmitted to the first FDF 200 (# of the mother station, which is the front end of the transfer switch 10). 1), the operator can test the quality of the looping signal through the optical power meter 30 connected to the portable communication terminal 20 as well as the test result of the portable communication. Through the screen of the terminal 20, such as to be able to check the quality of the optical cable 300 alone from the remote site and to perform the opening operation of the optical cable 300.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be easy to understand. It is also to be understood that the technical spirit of the invention is also deemed to belong to the scope of the appended claims if the practice of such improvements, alterations, substitutions or additions falls within the scope of the appended claims.

10; Transfer switch 20; Communication terminal
30; Optical power meter 100; MSPP
200; First FDF 201; 2nd FDF
300; Optical cable

Claims (3)

In the MSPP (Multi Service Provisioning Platform) of the mother country and the first FDF by connecting the optical cable, the first FDF (Fiber Distribution Frame) of the mother station in the configuration of the optical fiber cable and the second FDF of the branch office,
Connecting an switching switch for cutting off or connecting the signal output of the MSPP to an optical cable connecting the MSPP of the mother station and the first FDF;
The switching operation of the transfer switch is configured to be remotely controlled through a portable communication terminal of a remote place,
When the signal is output by the switching operation of the transfer switch through the portable communication terminal, the quality state of the signal output is measured through an optical power meter, but the measurement result by the optical power meter is connected to the optical power meter. Configured to be displayed on the communication terminal,
The signal output from the MSPP is an optical source signal for the quality output to the optical cable and a laser signal for near field matching, and the optical source signal and the laser signal are configured to be remotely controlled by the portable communication terminal. Optical cable core contraster, characterized in that. delete The method of claim 1,
And the portable communication terminal is configured to loop back the optical source or the red laser signal output through the second output terminal of the MSPP to the MSPP to test the quality of the looped signal.

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