JPS5931904B2 - Power supply system in optical information transmission network - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a coupling device between optical fiber cables, an interface device between the optical fiber cable and various terminals, and a power supply system for the terminal device in an optical information transmission network using optical fiber cables. It is.

In the conventional information transmission network using electric signals, power supply to various devices could be carried out by superimposing them on the information line.

On the other hand, in an optical information transmission network using optical fiber cables, optical energy is converted into electrical energy by a photoelectric conversion device installed in at least one of the coupling devices, various interfaces, etc. A method of supplying power is being considered. However, in optical information transmission networks, electrical energy is supplied to various devices connected to optical fibers by photoelectrically converting the optical energy of light modulated by signals containing information transmitted through optical fibers. When a photoelectric conversion device, a terminal device, or the like breaks down and the supply of electrical energy is stopped, a problem may arise in which information cannot be transmitted.

In order to solve this problem, the present invention is designed so that the information transmitted through the optical fiber cable passes directly through the connected part of the device where the failure has occurred.

The present invention will be explained in detail below with reference to the drawings. Figure 1 is a conceptual diagram of an optical information transmission network, where 1 is an optical fiber cable,
2 is a coupling device, 3 is an interface device with a terminal device,
4 is a terminal device (image terminal), and 5 is a connection line between the interface device and the terminal device.

FIG. 2 is a block diagram of the optical fiber coupling unit according to the present invention, where 6 is an optical information switching device, T is a photoelectric conversion device that converts optical energy in the optical fiber cable into electrical energy, and 8 is a power supply. Line 9 is a filter device for extracting the energy within the fiber optic cable.

The coupling device 2 between the optical fiber cables 1 and the interface device 3 between the optical fiber cable 1 and the terminal device 4 shown in FIG. 1 are both basically constructed as shown in FIG. 2.

Then, in the coupling device 2, all the information transmitted to the optical fiber cable 1 is branched and inserted into another optical fiber cable by the optical information switching device 6. On the other hand, the interface device 3 branches and inserts only information related to the terminal connected thereto into the terminal device 4. At this time, the interface device 3 and the terminal device 4 can be connected using an optical fiber cable to exchange information in the form of optical signals, or, for example, the interface device 3 can be provided with a photoelectric conversion device. It is also possible to adopt a configuration in which information is exchanged in the form of electrical signals. Control for this purpose is performed by an optical information switch device 6 shown in FIG. The photoelectric converter 7 converts the optical energy from the filter device 9 into electricity, and supplies power to the switch device 6 through the electrical supply line 8 . One method of electrical energy extraction by the filter device 9 is to add a fiber optic cable to the
A channel for carrying information and a channel for carrying light energy are prepared in advance, and the filter device 9 can extract only light energy by selecting the light energy channel.

Since a plurality of filter devices 9 are connected to one optical fiber cable, in order to distribute the optical energy to each device, a power type that divides the optical energy channel into smaller sections or a gain control method of the filter device can be used. Other control methods are also conceivable. FIG. 3 is a diagram showing an embodiment in which the interface device is operated by a power supply line from a terminal device, and 10 is a power supply line from the terminal device.

In FIG. 3, the terminal interface device 6/ connects a power source to a power supply line 10 for selecting information to be sent to the terminal device 4.
Information is transmitted and received between the interface device 6' and the terminal device 4 via a connection line (information line) 5 between the terminal device 4 and the terminal device. The terminal interface device 6' is basically composed of an optical information switch device 6. However, in this case, power is supplied from the terminal device 4. Note that by superimposing a power supply on the connection line (information line) 5, a configuration in which the power supply line 10 is not necessary is also possible.

Furthermore, the terminal interface device 6' is configured to include a filter device 9 as shown in FIG. 2, and the terminal device 4 converts the optical energy sent from the filter device 9 into electricity to supply power to the terminal device 4. It is also possible to have a configuration in which:

Alternatively, a part of the power obtained through photoelectric conversion may be supplied to control the operation of the optical switch of the terminal interface device 6'. The configuration of the optical fiber coupling section in the optical information transmission network and the method for sending notifications and supplying power to terminal devices have been described above.

In such a configuration, when the power supply is cut off due to a failure of the opto-electric conversion device 7 or the terminal device 4, the input side optical fiber and the output side optical fiber are coupled in the switch device 6, and the switch device By not extracting information signals from 6, a fail-safe configuration is achieved.

In order to realize such a function in the switch device 6, for example, a one-man powered, two-output (1X2 type) type optical switch is used, and when power is supplied to the switch device 6, the input side optical fiber is used. The information may be transmitted to the terminal device 4 through the information reading section, and when the power supply is cut off, the light from the input optical fiber may be coupled to the output optical fiber. . In this way, the power supply system in the optical information transmission network of the present invention is
A coupling device between optical fibers, an interface device between the optical fiber cable and various terminals, or a photoelectric conversion device provided in the terminal device converts the optical energy from the optical fiber cable into electrical energy and supplies power to the device. Even if the supply of electrical energy is cut off due to a failure of the opto-electric conversion device, the optical information transmission network can transfer information between other terminal devices that are not experiencing any failures.

[Brief explanation of the drawing]

FIG. 1 is a conceptual diagram of an optical information transmission network, FIG. 2 is a block diagram of an optical fiber coupling section according to the present invention, and FIG. 3 is a diagram showing another embodiment of the present invention. 1... Optical fiber cable, 2... Coupling device, 3... Interface device, 4...
... terminal device, 5 ... connection line between the interface device and the terminal device, 6 ... optical information switch device, 6t ... terminal interface device, 7.・
...Photoelectric conversion device, 8...Power supply line,
9...Filter device, 10...Power supply line.

Claims (1)

[Claims] 1. Converting optical energy from an optical fiber cable into electrical energy by a photoelectric conversion device installed in at least one of the coupling device between optical fiber cables, the interface device between the optical fiber cable and various terminals, and the terminal device. In a power supply system in an optical information transmission network that supplies the necessary power to at least one of the above-mentioned devices, the power supply is cut off due to a failure of the opto-electric conversion device or the terminal device, and the terminal interface device of the optical fiber cable A power source in an optical information transmission network characterized in that when the optical fiber cable becomes inoperable, the information content transmitted through the optical fiber cable passes through the terminal interface device and operates without being affected by the failure location. Supply method.