JPS5877344A - Data highway controller - Google Patents

Abstract

PURPOSE:To eliminate the need of optical switches and to improve the reliability of the overall system, by constituting terminals including bypasses with electric transmission lines, in a transmission system where a lot of terminals are connected in loop with optical transmission lines. CONSTITUTION:A lot of terminals 6 are connected in loop with an optical transmission line 5. Each terminal 6 is connected to incoming and outgoing optical transmission lines via an electric transmission line including photoelectric and electrooptic converters 8, 9 and a bypass switch 10, and if the terminal 6 is failed, the bypass switch 10 is activated to electrically couple the incoming and outgoing optical transmission lines. Through the constitution as stated above, no optical switch is required for terminals and various disadvantages of the transmission system based on the presence of the optical switches can be eliminated.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a data highway control device, and more particularly to a data highway control device, in which each station is provided with a bypass switch for disconnecting a faulty station from a transmission line.

Regarding the data highway controller that prevented the late ll station from bringing down the entire system.
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As shown in the figure, there is a loop-shaped transmission line 1 on which a plurality of stations 3 connected to, for example, computers are arranged, and information is exchanged between each computer via the transmission line 1. I am doing it.

Station 3 located between transmission line 1 includes a transmitter 3A.
and a receiver 3B.1 Normally, the outputs of the three transmitters are sent to the transmission line 1 via the bypass switch 2, and the input to the receiver 3B is from the transmission line 1 via the path switch 2. It is designed to take out 4 times. If a failure occurs in stage 3 - including the calculator,
By automatically switching the bypass switch 2, a closed loop is formed in the transmission line 1 from which the faulty station 3 is removed, so that the faulty station 3 does not affect the entire system.

The data highway control device configured in this way handles transmission using electrical signals; however,
Due to problems with transmission speed, insulation, or noise resistance, in recent years, the signals output from the transmitter 19A in the station 19 and the signals input to the receiver 19B have been It has come to be known that optical signals are transmitted using optical fibers as the transmission line 18.

However, in such a configuration, the transmission path 18 from the transmitter 19A is
and signal transmission from the transmission line 18 to the receiver 19B,
Alternatively, the bypass switch 20 required to disconnect the failure station 19 must be an optical switch, and this optical switch is a mechanical It is configured to be displaced by Shinsen.

As a result, the transmitted light is attenuated at the location of the optical switch where the optical fibers must be separated, and the optical axis of the optical fiber is misaligned due to the still insufficient precision of the mechanical mechanism, resulting in poor transmission reliability. There were drawbacks.

An object of the present invention is to provide a data highway control device that is not only excellent in transmission speed, e-corrosion, and noise resistance, but also has transmission reliability.

In order to achieve such transparency, the present invention consists of a loop-shaped transmission line and a plurality of stations arranged between the transmission lines, and transmits and transmits transmission signals from the stations to the transmission line. In a data highway control device in which a bypass switch is used to take in a received signal from a transmission line to a station and to disconnect a faulty station from the transmission line in the event of a station failure, the transmission line is connected to the transmission line by interposing a converter. The station section is an electrical transmission line, and the rest is an optical transmission line.

The bypass switch is interposed on the electrical transmission path.

Hereinafter, the present invention will be explained in detail using Examples.

FIG. 3 is a schematic diagram showing a data highway control device according to an embodiment of the present invention. In the figure, there is a loop-shaped transmission line 5. A plurality of stations 6 are arranged between the transmission lines 5. The area near the valley station 6 on the transmission line 5 is an electric transmission line, and the rest is an optical transmission line made of optical fiber. A bypass switch 10 is interposed between the electrical transmission lines, and the electrical signal from the transmitter 6A in the station 6 passes through the bypass switch 10 and then is converted into an optical signal made of optical fiber via an electro-optical converter 8. The signal is transmitted to the transmission path 5. In addition, there are five types of optical transmission using optical fiber.
The optical signal 1 from the station 6 is converted into an electrical signal via a photoelectric converter 9, and then inputted to a receiver 6B in the station 6 via a bypass switch 10. The electro-optical converter 8 and the photo-electric converter 9 are each supplied with power by a capacitor 7.

, where the station 6, the bypass switch 10,
Electro-optical converter 81, photo-electrical converter 9. The specific configuration of the capacitor 7 will be explained using FIG. 4.

The output from the computer is sent to the transmitter 6 via the line controller 16C.
A and its output is input to the a terminal of the bypass switch 10. At the same time, the output of the line controller 16C is inputted to the relay 71 OA via the input controller 16D.

This relay 10A switches the bypass switch 10, and at the time of transmission, the signal from the transmitter 6A is input to the electro-optical converter 8 via the bypass switch 10. The electro-optical converter 8 is supplied with power from the computer via the capacitor 7, and turns on and off the light emitting diode 1.8A according to the input from the bypass switch 10. The optical signal is outputted to an optical transmission line 5 made of an optical fiber.

On the other hand, the optical signal from the optical transmission line 5 is input to the light receiving diode 9A in the receiver 9, and the output of this light receiving diode 9A is electrically generated by the power from the total Xm being supplied via the capacitor 7. converted into a signal. This electrical signal is transmitted to the receiver 6 in the station 6 via the bypass switch 10.
The signal is input to the line controller 16C via B.

The electricity condenser 7 has a series body of a battery 7A, a parallel circuit of a resistor 7B, and a diode 7C connected between the power terminals from the computer. A monitoring circuit is provided to control power supply to the electro-optical converter 8 and opto-electric converter 9 by the 4° battery 7A. In this viewing circuit, a series circuit of resistors 7D and 7E is connected between the power supply terminals from the computer, and before the resistors 7D and 7E are connected, they are connected to the base of a transistor 7F. The emitter of the transistor 7F is connected to one power supply terminal from the computer, and the collector is connected to the pace of the transistor 7H via a resistor 7G.
The transistor 7H serves as a switching transistor for supplying power from the computer's power supply terminal to the electro-optical converter 8 and the opto-electric converter 9. By doing this, the electric potential of the power supply from the computer is supplied to some primary converter 8 and photoelectric converter 9.

If K is set in this manner, since the transmission line is made of optical fiber except for the station section, it becomes excellent in transmission speed 1, insulation properties, and θ noise resistance.

Furthermore, since the transmission path of the station section, particularly the portion where the bypass switch is interposed, serves as an electrical transmission path for handling electrical signals, there is no need to use an optical switch. For this reason, the disadvantage of the structure of the optical switch is that one end surface of the - optical fiber is displaced by a mechanical mechanism in order to alternately oppose each end surface of the other two optical fibers. Attenuation of the transmitted light and misalignment of the optical axis of the optical fiber at certain points can be eliminated, making transmission reliable.

In addition, in the above-mentioned embodiment, the power supply for driving the converter is provided independently and the power supply from the computer is constantly charged, and this charging power supply is used. Even if the voltage drops directly for some reason, since it is supplied from the charging power source, the converter can be driven normally and the transmission K (i-characteristic) can be provided.

In the above-mentioned embodiment, the power source for driving the converter is the charging power source from the computer, but it is not necessarily limited to this, and it is independent from the computer. It goes without saying that the object of the present invention can be achieved even if the device is provided in

As described above, the data highway control device according to the present invention not only has excellent transmission speed, insulation properties, and noise noise resistance, but also has high transmission reliability.

[Brief explanation of the drawing]

1 and 2 are block diagrams each showing an example of a conventional data highway control device, and FIG. 3 is a schematic block diagram showing an embodiment of a data highway control device according to the present invention.
FIG. 4 is a block diagram showing details of a part of the above-mentioned schematic block diagram. 5... Optical transmission line, 6... Station, 7... Electricity storage device. 8... Electro-optical converter, 9... Photo-electrical converter, 10.
...Bypass switch. Departure 1 figure ・ 'lA2 figure

Claims (1)

[Claims] 1. It consists of a loop-shaped transmission line and multiple q stations placed between the transmission lines, and sends out the transmitted signal from the station to the transmission line, takes in the received signal from the transmission line to the station, and ° In a data highway control device that uses a bypass switch to disconnect a transmission line from a faulty station in the event of a station failure, the transmission line is connected to an electric transmission line at the station section by interposing a converter. A data network/way control device, characterized in that the bypass switch is interposed on the electrical transmission path.