JPH0642680B2 - Connection device between optical loop type local area networks - Google Patents

Description

The present invention relates to an optical loop type connection device between local area networks.

[Conventional technology]

Conventionally, the device shown in FIG. 6 has been used as a connection device between optical loop type local area networks of this type. Sixth
In the conventional example shown in the figure, the input terminal of the optical / electrical conversion circuit 1 and the output terminal of the electric / optical conversion circuit 2 are connected to an optical loop A (main loop), and The output terminal of the optical conversion circuit 3 is an optical loop B (sub loop)
, The output line of the optical / electrical conversion circuit 1 is connected to the common terminal c of the switch element 105, the input line of the electrical / optical conversion circuit 2 is connected to the common terminal c of the switch element 106, and the optical / electrical conversion circuit is connected. The output line of the circuit 4 is the switch element 10
8 is connected to the common terminal c, and the input line of the electro-optical conversion circuit 3 is connected to the common terminal c of the switch element 107. The switch elements 105, 106, 107, and 108 are controlled by control circuits 60 and 61 that detect input light interruption of the optical / electrical conversion circuit 1 and input light interruption of the optical / electrical conversion circuit 4.

Here, a configuration example in which optical loop type local area networks are connected by using the conventional example shown in FIG.
It is shown in FIG. Incidentally, in FIG. 7 to FIG.
The connection device 40 shown in FIG. 6 is used to connect each of the optical loop type local area networks I and II to another loop type network III, and the above-mentioned optical loop type local area networks I and II are used. An electric signal is transmitted and received between and the other loop type network III.

7 to 10 show an optical loop type local area network (I) composed of node devices 11, 12, 13 and an inter-loop connecting device 40, and an optical loop composed of node devices 14, 15, 16 and an inter-loop connecting device 40. FIG. 7 shows a case where the type local area network (II) is connected by a loop type local area network (III) composed of node devices 20, 21, 25 and 26, and FIG. It is a figure which shows an example.

Data transmission between computers or terminal devices connected to the node devices 11, 12, 13, 14, 15, 16 of the optical loop type local area networks (I) and (II) is performed by the optical loop type local area network (I ), (II) through the main loops 31, 33.

FIG. 8 is a diagram showing a configuration example showing a case where a disconnection failure occurs at a point a of the main loop 31 of the optical loop type local area network (I). The input of the optical / electrical conversion circuit 1 of the inter-loop connecting device 40 is cut off, and the switch element 10
The common terminal c of 5, 106, 107, 108 is switched to the terminal 01 under the control of the control circuit 60, the output of the electric / optical conversion circuit 3 is pseudo disconnected, the node device 11 is in a loopback state, and the data transmission line is Established, data transmission between the optical loop type local area networks (I) and (II) continues.

FIG. 9 is a diagram showing a configuration example showing a case where a disconnection failure occurs at a point b of the main loop 31 of the optical loop type local area network (I). When the line is disconnected at the point b and the main loop light of the node device 13 is disconnected, the node device 13 performs a loopback operation. As a result, the optical output of the sub-loop 32 of the node device 13 is pseudo disconnected, and the input of the optical / electrical conversion circuit 4 of the inter-loop connecting device 40 is disconnected. This is detected by the control circuit 61, and the switch element 10
5, 106, 107 and 108 are controlled, and the common terminal c and the 03 terminal are connected by the respective switches. As a result, the data transmission path is established and the data transmission between the optical loop type local area networks (I) and (II) is continued.

Figure 10 shows an optical loop type local area network (I).
5 is a diagram showing a configuration example showing a case where there is a main loop optical transmission line disconnection failure between the node devices 11 and 12 of FIG. The difference between FIG. 10 and FIG. 7 is that data is transmitted between the optical loop type local area networks (I) and (II) when the loopback operation is performed in the adjacent node of the optical transmission line disconnection failure point d and the transmission line is established. Will continue.

[Problems to be solved by the invention]

The above-mentioned conventional connection device between optical loop type local area networks requires two pairs of input / output of the main loop and sub loop of the optical loop type local area network to be connected, and the transmission capacity of the connection part is the optical loop type. It requires twice the transmission capacity of the local area network,
There are problems that the connection part becomes large and uneconomical.

The present invention is intended to solve such a problem of the conventional one, and makes the transmission capacity of the connection part the same as the transmission capacity of the optical loop type local area network for connecting, thereby reducing the size and cost of the connection part. It provides a connection device between the measured optical harp type local area networks.

[Means for solving problems]

According to the present invention, it is used to connect an optical loop type local area network and another loop type network by an electric signal, and the first and second optical loops are connected to each other so as to be capable of bidirectional communication. And a first, a second, a third, and a fourth optical switch having a first terminal, a second terminal, and a common terminal. 1
And a second optical / electrical conversion circuit, wherein the first terminal of the first optical switch and the first terminal of the second optical switch are connected to the first optical loop, and the first optical loop is connected. The common terminal of the optical switch is connected to the input terminal of the first optical / electrical conversion circuit, while the output terminal of the first optical / electrical conversion circuit is connected to the other loop-type network. The input terminal of the second optical / electrical conversion circuit is connected to another loop network, the output terminal of the second optical / electrical conversion circuit is connected to the common terminal of the second optical switch, and the second optical / electrical conversion circuit is connected to the common terminal of the second optical switch. The first terminal of the second optical switch is connected to the first optical loop, and the common terminal of the third optical switch and the common terminal of the fourth optical switch are connected to the second optical loop. , The second terminal of the first optical switch and the fourth optical switch A second terminal of the third optical switch, a second terminal of the second optical switch and a second terminal of the third optical switch, and a first terminal of the third optical switch. The connection device is connected to the first terminal of the first optical switch to disconnect the input light in the first optical loop. Detecting a disconnection of the input light of the second optical loop provided through the first control circuit for controlling the first and fourth optical switches and the common terminal of the fourth optical switch, A second controlling the second and third optical switches
And the first terminals of the first to fourth optical switches are normally connected to the common terminal, respectively, while being controlled by the first control circuit. , The second terminal of each of the first and fourth optical switches and the common terminal are connected, and
When controlled by the second control circuit, the second terminal of each of the second and third optical switches and the common terminal are connected to each other. The connection device is obtained.

〔Example〕

 Next, the present invention will be described with reference to the drawings.

FIG. 1 is a circuit diagram showing an embodiment of the present invention. Terminal 01 of the optical switch 5 and terminal 0 of the optical switch 6 shown in FIG.
1 is connected to the optical loop A (main loop), the common terminals c of the optical switches 7 and 8 are connected to the optical loop B (sub loop), and the common terminal c of the optical switch 5 is connected to the optical / electrical conversion circuit 1. It is connected to the input terminal, the output terminal of the electro-optical conversion circuit 2 is connected to the common terminal c of the optical switch 6, and the terminal 02 of the optical switch 5 is the terminal 0 of the optical switch 8.
2 and the terminal 02 of the optical switch 6 is connected to the optical switch 7
, And the terminal 01 of the optical switch 7 is connected to the terminal 01 of the optical switch 8.

The optical switches 5 and 8 are controlled by a control circuit 60 which detects an input light interruption of the optical switch 5, and the optical switches 6 and 7 are controlled by a control circuit 61 which detects an input light interruption of the optical switch 8. To be done.

As is apparent from the figure, when the optical switches 5 and 8 are switched by the control circuit 60, the optical input from the optical loop B is converted to optical / electrical (O / E) via the optical switch 8 and the optical switch 5. This optical / electrical (O
/ E) from the conversion circuit 1 to the other loop network in the form of an electrical signal on line X. Similarly, the control circuit 6
When the optical switches 6 and 7 are switched by 1,
The electric signal from the line Y is converted into an optical signal by the electric / optical (E / O) conversion circuit 2, and then sent to the optical loop B via the optical switch 6 and the optical switch 7. In either case, when the optical switch is switched, only the optical signal is used in the connection device, and is converted into an electric signal only when the signal is exchanged with another loop network. Therefore, the number of conversion circuits can be reduced.

Here, FIG. 2 to FIG. 5 show configuration examples in which the optical loop type local area networks are connected by using the embodiment shown in FIG.

2 to 5 show the node devices 11, 12, 13 and the first device.
An optical loop type local area network (I) including the inter-loop connecting device 10 shown in the figure and node devices 14 and 1
5, 16 and the optical loop type local area network (II) consisting of the inter-loop connecting device 10 shown in FIG. 1 are connected by the loop type local area network (III) consisting of the node devices 20, 21, 22 and 23. FIG. 2 is a diagram showing a case, and FIG. 2 is a diagram showing a configuration example showing an operation mode at a normal time. Optical loop type local area network
(I) and (II) node devices 11, 12, 13, 14, 1
Data transmission between computers or terminal devices connected to the terminals 5 and 16 is performed via the main loops 31 and 33 of the optical loop type local area networks (I) and (II).

FIG. 3 is a diagram showing a configuration example showing a case where a disconnection failure occurs at a point a of the main loop 31 of the optical loop type local area network (I). The optical input of the optical / electrical conversion circuit 1 of the inter-loop connecting device 10 is cut off and the optical switch 5 and the optical switch 8 are switched by the control of the control circuit 60, and the terminal 02 and the common terminal c are both connected. Therefore, the optical input of the node device 11 becomes a pseudo disconnection, and the node device 11
Becomes a loopback state, the data transmission line is established,
Data transmission between the optical loop type local area networks (I) and (II) is continued.

FIG. 4 is a diagram showing a configuration example showing a case where a disconnection failure occurs at a point b of the main loop 31 of the optical loop type local area network (I). If the main loop light of the node device 13 is disconnected due to disconnection at the point b, the node device 1
3 performs a loopback operation. As a result, the optical output of the sub-loop 32 of the node device 13 becomes pseudo disconnected, and the optical input of the optical switch 8 of the inter-loop connecting device 10 becomes disconnected. This is detected by the control circuit 61, and the optical switch 6 and the optical switch 7 are detected.
To control the common terminal c and terminal 0 of each optical switch.
2 are connected. This establishes the data transmission path,
Data transmission between the optical loop type local area networks (I) and (II) continues.

FIG. 5 is a diagram showing a configuration example showing a case where there is a main loop optical transmission line disconnection failure between the node devices 11 and 12 of the optical loop type local area network (I). The difference between FIG. 5 and FIG. 1 is that the loopback operation is performed at the adjacent node of the optical transmission line disconnection failure point d, the transmission line is established, and the data between the optical loop type local area networks (I) and (II) Transmission continues.

As described above, the present invention is used to connect an optical loop type local area network and another loop type network by an electric signal, and the first and second optical loops can perform bidirectional communication. A connection device between optical loop type local area networks connected to each other, comprising first, second, third and fourth optical switches each having a first terminal, a second terminal and a common terminal. And a first and a second optical / electrical conversion circuit, wherein the first terminal of the first optical switch and the first terminal of the second optical switch are connected to a first optical loop, The common terminal of the first optical switch is connected to the input terminal of the first optical / electrical conversion circuit, while the output terminal of the first optical / electrical conversion circuit is connected to the other loop type network. , The second optical / electrical change The input terminal of the circuit is connected to another loop-type network, the output terminal of the second optical / electrical conversion circuit is connected to the common terminal of the second optical switch, and the second terminal of the second optical switch is connected. The first terminal is connected to the first optical loop, the common terminal of the third optical switch and the common terminal of the fourth optical switch are connected to the second optical loop, and the first optical loop is connected. Connecting a second terminal of the switch and a second terminal of the fourth optical switch, connecting a second terminal of the second optical switch and a second terminal of the third optical switch, and A configuration in which a first terminal of a third optical switch and a first terminal of the fourth optical switch are connected, and the connection device is connected to a first terminal of the first optical switch, The interruption of the input light in the first optical loop is detected, No. 4, a first control circuit for controlling the fourth optical switch, and a disconnection of input light of a second optical loop provided through the common terminal of the fourth optical switch, and detecting the second and third optical switches. And a second control circuit that controls the first to fourth optical switches. Normally, the first terminals of the first to fourth optical switches are connected to the common terminal, respectively, while the first control circuit When controlled by the second control circuit, the second terminal and the common terminal of each of the first and fourth optical switches are connected and controlled by the second control circuit.
An optical loop type local area network connection device having a configuration in which the second terminal of each of the second and third optical switches and the common terminal are connected is obtained.

[Advantages of the Invention] The present invention has the above-mentioned configuration to reduce the transmission capacity of the connection part.
The transmission capacity of the optical loop type local area network to be connected is made the same, and there is an effect that downsizing of the connecting portion and economical efficiency can be realized.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing an embodiment of the present invention, and FIGS. 2 to 5 are diagrams showing a configuration when an optical loop type local area network is normal and a main loop disconnection occurs at various places in the network. Circuit diagram, FIG. 6 is a circuit diagram showing a conventional example, and FIGS. 7 to 10 are circuits showing the configuration when the optical loop type local area network is normal and when the main loop disconnection occurs at various places in the network. It is a figure. 1, 4 ... Optical / electrical conversion circuit, 2, 3 ... Electric / optical conversion circuit, 5, 6, 7, 8 ... Optical switch, 105, 10
6, 107, 108 ... Switch, 10, 40 ... Optical loop type local area network interconnection device, 11,
12, 13, 14, 15, 20, 21, 22, 23, 2
5, 26 ... Node device, 24 ... Connection board, 60, 61
...... Control circuit, 31, 33 ...... Main loop, 32,3
4 ... Sub loop, X, X ₁ , X ₂ ... Electrical signal output terminal, Y, Y
₁ , Y ₂ …… Electrical signal input terminal, A …… Main loop, B…
… Sub loops, a, b, d… Cut points, 01, 02…
… Switch terminal, c …… Switch common terminal.

Claims (1)

[Claims] 1. An optical system used for connecting an optical loop type local area network and another loop type network by an electric signal, wherein the first and second optical loops are connected so as to be capable of bidirectional communication. In a connection device between loop type local area networks, first, second, third including a first terminal, a second terminal and a common terminal are provided.
And a fourth optical switch and first and second optical / electrical conversion circuits, and a first terminal of the first optical switch and a first terminal of the second optical switch are connected to the first terminal. 1 optical loop, and the common terminal of the first optical switch is connected to the input terminal of the first optical / electrical conversion circuit, while the output terminal of the first optical / electrical conversion circuit is connected to the other loop. Type optical network, the input terminal of the second optical / electrical conversion circuit is connected to another loop type network, and the output terminal of the second optical / electrical conversion circuit is connected to the second loop type network. A common terminal of the optical switch and a first terminal of the second optical switch are connected to a first optical loop, and a common terminal of the third optical switch and a fourth optical switch. Connect the common terminal of the second optical loop to the The second terminal of the first optical switch is connected to the second terminal of the fourth optical switch, and the second terminal of the second optical switch is connected to the second terminal of the third optical switch. And a configuration in which the first terminal of the third optical switch and the first terminal of the fourth optical switch are connected to each other, and the connection device is connected to the first terminal of the first optical switch. A first control circuit that is connected and detects a break of input light in the first optical loop and controls the first and fourth optical switches, and is provided through the common terminal of the fourth optical switch. A second control circuit for detecting a break in the input light of the second optical loop and controlling the second and third optical switches is provided. Usually, the first control circuit of the first to fourth optical switches is provided. Are connected to the common terminal, while the first control terminal is connected to the common terminal. When controlled by a circuit, the second terminal of each of the first and fourth optical switches is connected to the common terminal, and when controlled by the second control circuit, the second terminal is connected to the second terminal. A connection device between optical loop type local area networks, wherein the second terminal and the common terminal of each of the third optical switches are connected.