JPS62290198A - Method of wiring in frame - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] 3. Detailed Description of the Invention [Summary] By using optical fiber cables to connect signal lines within the rack of electronic equipment, the number of connection cables can be reduced and the man-hours for wiring work can be reduced. It was designed to reduce the amount of water used.

[Industrial application field]

The present invention relates to an intra-rack wiring method for wiring signal lines and the like connected between units in an electronic device, and particularly relates to an intra-rack wiring method in which wiring is performed using optical fiber cables.

A large number of cables are used to connect signal lines input and output between each unit.

Generally, such cables are installed in a small space in the space where the unit is installed, so the more cables there are, the more difficult it becomes to install them, and the more man-hours are spent on cable wiring. Become.

Therefore, it is desired that the number of cables to be connected be reduced.

[Prior Art] Conventionally, the configuration was as shown in the conventional configuration diagram shown in FIG.

The human cover unit I-L A, the output unit IB, the operation panel unit, and the printed board unit 2A are housed in the housing 5.
and terminal sections 3A, 3B, 4 for connecting to external devices, etc.
A and 4B are wired by cables 10 so as to connect their signal lines to each other.

For example, such a cable 10 is required for one pair of cables 10 for one signal line indicated by S, and separate cables 10 are required for each type of signal line.
must be laid down.

Therefore, from input crab unit IA to printed board UNIF)
Even when connecting cables 10 to 2A, the same number of cables as the number of different signal lines must be installed, and the total number of cables 10 to be wired inside such a housing 5 depends on the scale of the device. In some cases, the number can reach several hundred.

[Problem that the invention seeks to solve]

Therefore, in the wiring of such cables 10, when the number of cables 10 increases, it becomes necessary to provide a dedicated space for wiring the cables 10, and the outer shape of the housing 5 has to be increased.

In addition, wiring such a cable 10 requires a large number of man-hours for forming, wiring, etc., and has the problem of requiring an enormous number of man-hours for wiring work.

c.Means for solving problems] FIG. 1 is a diagram explaining the principle of the present invention.

As shown in FIG. 1, a first optical fiber cable (7) is installed inside the housing (5), and each of the units (1, 2) and the interface section (3°4) is equipped with an optical fiber cable (7). - An electrical converter (6) is provided, and a second optical fiber cable (8) branched from the first optical fiber cable (7) via an optical connector (9) is connected to the optical-to-electrical converter ( 6).

Such a wiring method solves the above-mentioned problems.

[For production]

That is, by connecting the second optical fiber cable branched from the first optical fiber cable to the optical-to-electrical converter provided in the unit and the interface section, the connection of each signal line is established between the first and the first optical fiber cable. This is done using the second optical fiber cable.

Therefore, the conventional one-to-one cable installation becomes unnecessary, the number of cables is halved, and wiring work can be reduced.

〔Example〕

The present invention will be explained in detail below with reference to FIG.

FIG. 2 is an explanatory diagram of an embodiment according to the present invention, in which (a) is a configuration diagram and (b) is an explanatory diagram of an optical-electrical converter. The same reference numerals indicate the same objects throughout the figures.

As shown in FIG. 2(a), the first optical fiber cable 7 is installed inside the casing 5, and the parts 3A, 3B,
4A and 4B, a second optical fiber cable 8 branched from the first optical fiber cable 7 by an optical connector 9 connects to each optical-electrical converter. 6.

Further, a cable 10 from the optical-to-electrical converter 6 is connected to each of the uni-nodes IA, IB, IC, 2A and terminal portions 3A, 3B, 4A, 4B.

As shown in (b), this optical-to-electrical converter 6 includes a driver circuit D/V and a receiver circuit R/V that transmit and receive electrical signals, and a multiplexer circuit MPX that selects signals.
Demultiplexer circuit DMpx and light that converts signals
It is composed of an electrical conversion circuit 0/E and an electrical-optical conversion circuit E10.

Therefore, driver circuit D/V, receiver circuit R/■
Connect the cable 10 to the side, optical-electrical conversion circuit 0/E,
By connecting the second optical fiber cable 8 to the electrical-optical conversion circuit E10 side, each of the aforementioned units IA, IB, .
The signal lines of the IC, 2A and the terminal sections 3A, 3B, 4A, 4B are converted into optical signals and transmitted and received via the first and second optical fiber cables 7 and 8.

Moreover, such an optical-electrical converter 6 can also be formed into a chip, and when formed into a chip, the optical-electrical converter 6 can be easily installed in each unit,
The cable 10 can be replaced with pattern wiring, and the number of cables 10 can be reduced.

Therefore, by configuring connections using optical fiber cables, the signal lines can be connected by multiplexing, so there is no need to install one-to-one cables for the signal lines as described above, and the conventional cable Compared to , it is sufficient if the number of optical fiber cables is small.

〔Effect of the invention〕

As explained above, according to the present invention, signal lines between units housed in a housing can be connected using optical fiber cables, so transmission and reception of signal lines can be multiplexed, and the number of connection cables can be reduced. It will be halved.

Therefore, the number of man-hours for wiring work such as firming and wire attachment can be reduced, and furthermore, the device can be made smaller, which has great practical effects.

[Brief explanation of the drawing]

FIG. 1 explains the principle of the present invention. FIG. 2 is an explanatory diagram of an embodiment according to the present invention, in which (a) is a configuration diagram and (b) is an explanatory diagram of an optical-electrical converter. FIG. 3 shows a conventional configuration diagram. In the figure, 1.2 is a unit. 3.4 is the interface section. 5 is the housing. 6 is a photo-electrical converter. 7 is the first optical fiber cable. 8 is the second optical fiber cable. 9 indicates an optical connector.

Claims (1)

[Scope of Claims] An in-rack wiring method for connecting mutually input/output signal lines of a plurality of units (1, 2) and interface sections (3, 4) housed in a housing (5), comprising: A first optical fiber cable (7) is installed inside the body (5), and an optical-to-electrical converter (6) is installed in each of the units (1, 2) and the interface section (3, 4).
), and the first optical fiber cable (7)
A method for wiring an overhead cable, characterized in that a second optical fiber cable (8) branched from the optical connector (9) is connected to the optical-to-electrical converter (6).