JP2002026825A - Device and method for confirming optical cable connection of wavelength multiplexer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a device and method for confirming an optical cable connection with inexpensive parts, by which the operation for confirming connection is sure and easy. SOLUTION: This device comprises an optical wavelength multiplexing part 4 for receiving and multiplexing respective light before multiplexing, which are outputted from a plurality of transponders 1-i and correspond to the transponders 1-i, and a control part 18. Transponder-side turning on/off lamps 29-i provided at the transponders 1-i respectively are arranged corresponding to respective positions. An optical wavelength multiplexing part 4 is provided with plural wavelength multiplexing part side optical detectors 24-i for outputting a wavelength multiplexing part side reception signal corresponding to receiving of the light before multiplexing. A control part 18 switches the lighting state of the lamps 29-i position-corresponding to the 1-n based on the wavelength multiplexing part side receiving signal corresponding to a specific transponder 1-n. By switching of the one state and off state of the lamp 29-i position- corresponding like this, especially position-corresponding adjacently, a connecting relation is shown clearly to eliminate the illusion of an operator, thereby the correctness of the connecting relation can be confirmed surely. No expensive equipment is required for confirming work like this.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device and a method for checking the connection of an optical cable of a wavelength multiplexing device, and more particularly to the connection of an optical cable between a transponder and an optical multiplexing unit and the connection between a transponder and an optical demultiplexing unit. The present invention relates to an optical cable connection confirmation device and a confirmation method thereof for a wavelength division multiplexing device, which can easily confirm the consistency with the connection of an optical cable between them with inexpensive equipment.

[0002]

2. Description of the Related Art An optical cable connection between a transponder and an optical wavelength division unit needs to be confirmed together with an optical cable connection between the transponder and the optical wavelength separation unit. Transponder-wavelength multiplexing section connection, transponder
Conventionally, the connection between the optical wavelength separation units has been confirmed by passing a main signal through an optical cable actually connected between them, and there is no technology for confirming the connection in advance in the past. If a mechanism for multiplexing / separating wavelengths for connection confirmation is provided between the transponder and the optical wavelength multiplexing unit and between the transponder and the optical wavelength demultiplexing unit, connection error detection can be realized. The parts that make up the separation mechanism are expensive, and their feasibility is poor. It is required to realize that the optical cable connection is not erroneous connection by using inexpensive components, and it is required to reliably perform the connection check operation.

[0003]

SUMMARY OF THE INVENTION An object of the present invention is to provide an optical cable connection confirmation apparatus and method for a wavelength multiplexing apparatus, which can realize optical cable connection confirmation with inexpensive components. Another object of the present invention is to provide an optical cable connection confirmation device of a wavelength multiplexing device that can realize optical cable connection confirmation with inexpensive components, and that the operation of the connection confirmation is reliable and easy. The purpose is to provide a method of confirming the above.

[0004]

Means for solving the problem are described as follows. The technical items appearing in the expression are appended with numbers, symbols, and the like in parentheses (). The numbers, symbols, and the like are technical items that constitute at least one embodiment or a plurality of the embodiments of the present invention, in particular, the embodiments or the examples. Corresponds to the reference numerals, reference symbols, and the like assigned to the technical matters expressed in the drawings corresponding to the above. Such reference numbers and reference symbols clarify the correspondence and bridging between the technical matters described in the claims and the technical matters of the embodiments or examples. Such correspondence / bridge does not mean that the technical matters described in the claims are interpreted as being limited to the technical matters of the embodiments or the examples.

An optical cable connection confirmation device of a wavelength multiplexing device according to the present invention comprises a plurality of transponders (1-i) and multiplexes of wavelengths output from the plurality of transponders (1-i) and corresponding to the transponders (1-i). An optical wavelength multiplexing unit (4) for receiving and multiplexing the front light, and a control unit (1)
8), each of the plurality of transponders (1-i) includes a transponder-side lighting-off lamp (29-i), and the transponder-side lighting-off lamp (29-i).
Are arranged corresponding to each of the plurality of transponders (1-i), and the optical wavelength multiplexing unit (4) outputs a wavelength multiplexing unit side reception signal in response to receiving the pre-multiplex light. The control unit (18) includes a wavelength multiplexing unit side photodetector (24-i), and based on the wavelength multiplexing unit side reception signal corresponding to the specific transponder (1-n) among the plurality of transponders (1-i). To the transponder side lighting-off lamp (29-) corresponding to the specific transponder (1-n).
Switching between the lighting state and the lighting-off state of i). In this way, by switching between the lighting state and the light-off state of the transponder-side lighting / off lamp (29-i) which corresponds to the position and particularly corresponds to the position in close proximity, the connection relationship becomes explicit, and there is no illusion of an operator. It is possible to reliably confirm whether the connection relationship is correct. There are almost no facilities required for such a checking operation, and existing control units and lighting / extinguishing lamps can be slightly modified and used. Switching between the light-on state and the light-off state is to switch from the light-on state to the light-off state. By generating a light-on state opposite to the normal use, the connection relationship can be more reliably confirmed. That is, the control unit (18) controls the specific transponder (1-n)
The transponder side lighting-off lamp (29
-N) Transponder-side ON / OFF lamps (29-
Turn off i).

A light wavelength separation section (5) is further provided, and the light wavelength separation section (5) includes a plurality of wavelength separation section side lighting / extinguishing lamps (2).
2-n), wherein the plurality of transponders (1-i) output a plurality of wavelengths that output a wavelength separation unit side reception signal in response to receiving the separated light output from the optical wavelength separation unit (5). The control unit (1) includes a separation unit side photodetector (16-i).
8) Turning on / off the wavelength separating unit side corresponding to the specific transponder (1-n) based on the wavelength separating unit side reception signal corresponding to the specific transponder (1-n) of the plurality of transponders (1-i). The on / off state of the lamp (22-n) is switched. Switching between the light-on state and the light-off state is preferably switching from the light-on state to the light-off state, and the control unit (18) controls the wavelength separation unit-side light-off lamp () corresponding to the position of the specific transponder (1-n). The turn-on / off lamps (22-i) on the wavelength separation unit side other than 22-n) are turned off. Control part (18)
Sets the connection test mode and the non-test mode. In the connection test mode and the non-test mode, the light-on state and the light-off state are reversed.

A method for confirming connection of an optical cable of a wavelength division multiplexer according to the present invention comprises the steps of:
An optical wavelength multiplexing unit (4) for receiving and multiplexing each pre-multiplexed light having a wavelength corresponding to the transponder (1-i) output from the plurality of transponders (1-i), and a control unit (1)
8), each of the plurality of transponders (1-i) includes a transponder-side lighting-off lamp (29-i), and the transponder-side lighting-off lamp (29-i).
Are arranged corresponding to each of the plurality of transponders (1-i), and the optical wavelength multiplexing unit (4) outputs a wavelength multiplexing unit side reception signal in response to receiving the pre-multiplex light. A wavelength multiplexing unit-side photodetector (24-i), wherein the control unit is configured to control the specific transponder based on the wavelength multiplexing unit-side received signal corresponding to the specific transponder (1-n) among the plurality of transponders (1-i). A wavelength multiplexing apparatus that performs a connection test using an optical cable connection confirmation device of a wavelength multiplexing apparatus that switches between an on state and an off state of a transponder-side on / off lamp (29-n) corresponding to the position (1-n). This is a method for confirming the connection of the optical cable. One end of the optical cable is connected to a wavelength multiplexing unit side photodetector (16-n) corresponding to a specific transponder (1-n). And it is configured to the other end portion and a connecting to an optical signal transmission unit (42). The addition of the inexpensive optical signal transmitter (42) facilitates the connection confirmation work. Repeatingly connecting the other end of the optical cable (15-n) to the optical signal transmitter (42) and disconnecting the other end from the optical signal transmitter (42), the transponder-side on / off lamp (16-n). By repeatedly switching between the lighting state and the light-off state, the connection relationship can be confirmed more reliably.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In accordance with the drawings, an embodiment of an optical cable connection confirmation apparatus of a wavelength multiplexing apparatus according to the present invention is provided with an optical wavelength multiplexing section and an optical wavelength demultiplexing section together with a transponder group. . The transponder group 1 is
As shown in FIG. 1, i transponders 1-1 to 1-1
1-i. Multiple transponders 1
i includes transmission signal wavelength converters 2-1 to 2-i. The transmission signal wavelength converters 2-1 to 2-i convert optical signals received from the client side into optical signals of wavelengths λ1-λi. Hereinafter, an arbitrary number from 1 to i is indicated by n. The transponder 1-n transmits the optical signal of the wavelength λn converted by the transmission signal wavelength converter 2-n to the main signal transmitting terminal 3-n. The optical signal of wavelength λn output to the main signal transmitting terminal 3-n is transmitted to the optical wavelength multiplexing unit 4 through the multiplexing optical cable 10-n.

The transponder 1-n includes an optical wavelength separation unit 5
Is received by the main signal receiving terminal 6-n. The plurality of transponders 1-i include the received signal wavelength converters 7-1 to 7-i, respectively. The optical signal of the wavelength λn received at the multiplex-side main signal receiving terminal 6-n is wavelength-converted by the reception signal wavelength converter 7-n and transmitted to the client.

The optical wavelength multiplexing unit 4 includes an optical wavelength multiplexer 8. The optical signal of wavelength λn output from the main signal transmitting terminal 3-n is transmitted via the multiplexing optical cable 10-n to the multiplexing main signal receiving terminal 9-n of the optical wavelength multiplexing unit 4.
Sent to. The optical signal of the wavelength λn received by the multiplex-side main signal receiving terminal 9-n is input to the optical wavelength multiplexer 8. The optical wavelength multiplexer 8 transmits the wavelengths λ1 to λ1 received by the i multiplex-side main signal receiving terminals 9-1 to 9-i.
The optical signal of λi is multiplexed to output a multiplexed optical signal, and the multiplexed optical signal is amplified by the transmission optical amplifier 11.

The optical wavelength separation unit 5 separates the multiplexed optical signals of the wavelengths λ1 to λi input from the reception optical amplifier 12. The optical wavelength demultiplexer 5 includes an optical wavelength demultiplexer 13
It has. The optical wavelength demultiplexer 13 has a wavelength λ
The optical signals 1 to λi are separated and output to the separation-side main signal transmission terminal 14-n of the optical wavelength separation unit 5 for each wavelength λn. The optical signal of the wavelength λn output to the separation-side main signal transmission terminal 14-n is transmitted through the separation-side optical cable 15-n.
The signal is transmitted to the main signal receiving terminal 6-n of the transponder 1-n.

The transmission signal wavelength conversion section 2-i includes a first photodiode 16-i. The separation-side branch optical cable 17-i branches from the separation-side optical cable 15-n. The split-side branch optical cable 17-n is connected to the first photodiode 16-n. The first output electric signal of the first photodiode 16-n is transmitted to the control unit 1
Enter 8 The control unit 18 controls the first
The wavelength corresponding signal 19-i is transmitted to the optical wavelength separation unit 5. The light wavelength separation unit 5 includes a light wavelength separation side control unit 21. The first wavelength corresponding signal 19-i is input to the optical wavelength separation side control unit 21.

The light wavelength separation unit 5 includes a separation side lamp (LE)
D) 22-n. Optical wavelength separation side control unit 21
Are individually connected to the separation-side lamp 22-n. The light wavelength separation side control unit 21 outputs a first light-off signal 23-n corresponding to the wavelength λn. First light-off signal 23-n
Is input to the separation-side lamp 22-n according to the wavelength.
The separation-side lamp 22- to which the first light-off signal 23-n is input.
n turns off.

The optical wavelength multiplexing unit 4 includes a second photodiode 24-i. The multiplex-side branch optical cable 25-n is branched from the multiplex-side optical cable 10-n. The multiplex side branch optical cable 25-n is connected to the second photodiode 24-n. The optical wavelength multiplexing unit 4
An optical wavelength multiplexing side control unit 26 is provided. The second output electric signal 27-n corresponding to the wavelength λn of the second photodiode 24-n is input to the optical wavelength multiplexing control unit 26. The optical wavelength multiplexing side control unit 26 collects the second output electric signal 27-n and transmits it to the control unit 18.

The transponder 1-n includes a multi-side lamp 2
9-n. The control unit 18 is individually connected to the multiplex-side lamps 29-n. The control unit 18 controls the wavelength λn
Is output as the second light-off signal 31-n corresponding to. The second light-off signal 31-n is output to the multiplex-side lamp 29 according to the wavelength.
-N. The multiplex-side lamp 29-n to which the second light-off signal 31-n is input is turned off.

The multiplex side lamp 29-n corresponds to a position close to the main signal transmission terminal 3-n of the transponder 1-n, and the on / off state of the multiplex side lamp 29-n is determined by the main signal transmission terminal 3-n. Is clarified and clarified.
The separation-side lamp 22-n corresponds to a position close to the separation-side main signal transmission terminal 14-1 of the optical wavelength separation unit 5, and the on / off of the separation-side lamp 22-n is controlled by the separation-side main signal transmission terminal 14.
-N has been clarified and clarified.

FIG. 1 shows that the transponder 2-n corresponding to the wavelength number λn and the transponder 2-2 corresponding to the wavelength number λ2 are connected by the multiplex-side optical cables 10-1 and 10-2 and the separation-side optical cables 15-1 and 15-1. This shows a state where the optical wavelength multiplexing unit 4 and the optical wavelength demultiplexing unit 5 are connected to each other, and further, a new transponder 1-i (in this case, i = 3)
Is added, the transmission signal wavelength converting section 2-3 is connected to the optical wavelength multiplexing section 4 and the optical wavelength demultiplexing section 5 by the multiplexing side optical cable 10-.
3 shows a confirmation method of connecting the separation side optical cable 15-3 and confirming the connection quality.

A connection test mode is set in the control unit 18 together with information on the wavelength λi (i = 3) to which the optical cable is to be connected by a controller (not shown). For a confirmation test, a first optical signal transmitter 41 and a second optical signal transmitter 42 are prepared. In the connection test mode, the control unit 18 controls ON / OFF of only the separation-side main signal transmission terminal 14-3 and the multiplex-side lamp 29-3 corresponding to the wavelength λi, which will be described later. All lamps corresponding to other wavelengths are turned off.

An operator who checks the connection of the optical cable first disconnects the optical cable side terminal (connector) from the main signal transmitting terminal 3-3 of the transponder 2-3, and connects the optical cable side terminal to the first optical signal transmitter 41. Connect. If the connection between the multiplex side optical cable 10-3 and the first optical signal transmitter 41 is correct, the multiplex side branch optical cable 25-3 receives the optical signal from the first optical signal transmitter 41, and
-3 is turned off. Next, the multiplex side optical cable 10-3
Is removed from the first optical signal transmitter 41. At this time, if the connection of the multiplex side optical cable 10-3 is correct, the multiplex side branch optical cable 25-3 does not receive the optical signal, and the multiplex side lamp 29-3 is turned on.

Therefore, the operator operates the transponder 2-3.
While visually checking the lamp multiplex side lamp 29-3 of
If the optical connector connected to the main signal transmission terminal 3-3 of the transponder transmission signal wavelength converter 2-3 is removed and then connected to or removed from the first optical signal transmitter 41, multiplexing is performed at that timing. The side lamp 29-3 is repeatedly turned off and turned on, and the connection of the multiplex side optical cable 10-3 can be confirmed. After completing the connection check,
The multiplex optical cable 10-3 is reconnected to the main signal transmission terminal 3-3.

Further, the connection confirmation operator confirms the connection of the separation side optical cable 15-3 (i = 3). The optical cable side terminal (connector) is removed from the separation side main signal transmission terminal 14-3 of the optical wavelength separation unit 5, and the optical cable side terminal is connected to the second optical signal transmitter 42. Separation side optical cable 15
If the connection between -3 and the second optical signal transmitter 42 is correct, the first photodiode 16-3 receives the optical signal from the second optical signal transmitter 42, and the separation lamp 22-3 is turned off. Next, the separation side optical cable 15-3 is detached from the second optical signal transmitter 42. At this time, the separation side optical cable 15-
3 is correct, the first photodiode 16-3
Does not receive the light signal, the separation-side lamp 22-3 is turned on.

Accordingly, the operator is connected to the separation-side main signal transmitting terminal 14-3 of the optical wavelength separation unit 5 while visually checking the lamp separation-side lamp 22-3 of the optical wavelength separation unit 5. If the optical connector is detached and then connected to and detached from the second optical signal transmitter 42, the separation-side lamp 22-3 is repeatedly turned off and turned on at that timing, and the cable connection can be confirmed. After the completion of the cable connection confirmation, the separation side optical cable 15-3 is reconnected to the separation side main signal transmission terminal 14-3. Finally, the connection test mode is released by external control. At this time, the lamp transmission signal wavelength converter 2-3 and the separation-side lamp 22-3 are turned off regardless of the state of the multiplex-side branch optical cable 25-i and the first photodiode 16-i.

FIG. 2 shows another embodiment of the optical cable connection confirmation device of the wavelength multiplexing device according to the present invention.
The optical wavelength multiplexing unit 4 further includes a third photodiode 51-
1-51-i. In the above-described embodiment, for the multiplex-side lamp 29-i and the separation-side lamp 22-i, the input signal is cut off from the multiplex-side main signal receiving end 9-i, and the main signal receiving terminal 6 is disconnected. The function of the indicator lamp indicating the disconnection of the input signal from the -i end is also used for the function of the lamp for confirming the connection according to the present invention, and both functions are shared. In a mode other than the connection test mode, the multiplex side lamp 29-i and the third photodiode 51-i are connected to the control unit by detecting the input disconnection of the first photodiode 16-i and the second photodiode 24-i, respectively. 1
The lighting is controlled by 8.

When the connection test mode is set in the control unit 18 together with the information of the wavelength λi to which the optical cable is to be connected by external control, the control unit 1 is set in the same manner as in the embodiment of FIG.
Reference numeral 8 controls ON / OFF of only the separation-side lamp 22-i and the multiplex-side lamp 29-i corresponding to the wavelength λi, and turns off the lamps corresponding to other wavelengths. If the connection test mode is not set, the first photodiode 16
When the input disconnection is detected at -i, the multiplex-side lamp 29-i is turned on, but when the connection test mode is set for the wavelength λi, the separation-side lamp 22-3 is turned on. Similarly, if the connection test mode is not set, the second
When the disconnection of the input is detected by the photodiode 24-i, the third photodiode 51-i is turned on. However, when the connection test mode is set for the wavelength λi, the separation-side lamp 22-i is turned on. I do. As described above, by changing the lighting position of the lamp in the connection test mode, the function of the lamp indicating the disconnection of the input and the function of the lamp for confirming the connection can be shared, and the configuration can be reduced.

[0025]

According to the present invention, there is provided an apparatus and method for checking the connection of an optical cable of a wavelength division multiplexing apparatus to a terminal for connecting and disconnecting a cable when inputting an optical signal to the cable and checking the connection of the cable. There is a lamp that reflects the input of the photodiode on the opposite side of the cable connection in correspondence with the position, in particular, the proximity position, and the connection of the optical cable can be easily confirmed by visual inspection of the lamp. Since the lamp is located near the terminal for connecting and disconnecting the cable, it is easy to check the synchronization between the timing of connecting and disconnecting the cable and the timing of turning on and off the lamp.

[Brief description of the drawings]

FIG. 1 is a circuit block diagram showing an embodiment of an optical cable connection confirmation device of a wavelength multiplexing device according to the present invention.

FIG. 2 is a circuit block diagram showing another embodiment of the optical cable connection confirmation device of the wavelength multiplexing device according to the present invention.

[Explanation of symbols]

 1-i Transponder 1-n Specific transponder 4 Optical wavelength multiplexing unit 5 Optical wavelength demultiplexing unit 15-n Optical cable 16-i Wavelength demultiplexing unit-side photodetector 18 Control unit 22-n Wavelength demultiplexing unit Side lighting lamp 24-i ... Wavelength multiplexing unit side photodetector 29-i ... Transponder side lighting / off lamp 42 ... Optical signal transmitter

Claims (9)

[Claims] 1. A transponder comprising: a plurality of transponders; an optical wavelength multiplexing unit for receiving and multiplexing respective pre-multiplexed lights of wavelengths output from the plurality of transponders and corresponding to the transponder; and a control unit, A transponder-side on / off lamp, respectively; wherein the transponder-side on / off lamp is disposed in a position corresponding to each of the plurality of transponders, and the optical wavelength multiplexing unit corresponds to receiving the pre-multiplex light. A plurality of wavelength multiplexing unit-side photodetectors that output a wavelength multiplexing unit-side reception signal, wherein the control unit performs the identification based on the wavelength multiplexing unit-side reception signal corresponding to a specific transponder of the plurality of transponders. Switches the lighting state and the lighting state of the transponder side lighting / off lamp corresponding to the position of the transponder. Optical cable connection confirmation apparatus of a wavelength multiplexing device to obtain. 2. The optical cable connection confirmation device for a wavelength multiplexing apparatus according to claim 1, wherein said switching between said light-on state and said light-off state comprises switching from a light-on state to a light-off state. 3. The optical cable connection confirmation device for a wavelength multiplexing apparatus according to claim 2, wherein the control unit turns off the transponder-side lighting / off lamps other than the transponder-side lighting / off lamps corresponding to the position of the specific transponder. 4. An optical wavelength separation unit further comprising: a plurality of wavelength separation unit-side lighting / extinguishing lamps; and the plurality of transponders outputs the separated light output from the optical wavelength separation unit. A plurality of wavelength separation unit-side photodetectors that output a wavelength separation unit-side reception signal in response to reception, wherein the control unit is configured to control the wavelength separation unit-side reception corresponding to a specific transponder of the plurality of transponders. 2. The optical cable connection confirmation device for a wavelength multiplexing device according to claim 1, wherein the ON / OFF state of the ON / OFF lamp of the wavelength separation unit side corresponding to the position of the specific transponder is switched based on a signal. 5. The optical cable connection confirmation device for a wavelength multiplexing apparatus according to claim 4, wherein switching between the lighting state and the light-off state is switching from a lighting state to a light-off state. 6. The optical cable connection check of a wavelength multiplexing apparatus according to claim 5, wherein said control section turns off said wavelength separating section side lighting / off lamps other than said wavelength separating section side lighting / off lamps corresponding to said specific transponder. apparatus. 7. The control section sets a connection test mode and a non-test mode, and in the connection test mode and the non-test mode, the on state and the off state are reversed. The optical cable connection confirmation device for a wavelength multiplexing device according to claim 1, wherein the device is selected from the group consisting of: 8. A transponder comprising: a plurality of transponders; an optical wavelength multiplexing unit for receiving and multiplexing respective pre-multiplexed lights of wavelengths output from the plurality of transponders and corresponding to the transponder; and a control unit, A transponder-side on / off lamp, respectively; wherein the transponder-side on / off lamp is disposed in a position corresponding to each of the plurality of transponders, and the optical wavelength multiplexing unit corresponds to receiving the pre-multiplex light. A plurality of wavelength multiplexing unit-side photodetectors that output a wavelength multiplexing unit-side reception signal, wherein the control unit performs the identification based on the wavelength multiplexing unit-side reception signal corresponding to a specific transponder of the plurality of transponders. Switches the lighting state and the lighting state of the transponder side lighting / off lamp corresponding to the position of the transponder. A method for confirming connection of an optical cable of a wavelength multiplexing device, which performs a connection test using a device for confirming connection of an optical cable of a wavelength multiplexing device, wherein one end of an optical cable is detected at the wavelength multiplexing unit side corresponding to the specific transponder. A method for confirming the connection of the optical cable of the wavelength division multiplexing device, comprising: connecting the other end of the optical cable to an optical signal transmitter. 9. The on / off state of the transponder-side on / off lamp by repeatedly connecting the other end of the optical cable to an optical signal transmitter and disconnecting the other end from the optical signal transmitter. 9. The method for confirming connection of an optical cable of a wavelength multiplexing apparatus according to claim 8, further comprising: repeating the switching of the wavelength multiplexing apparatus.