JPS63127229A - Optical transmission equipment - Google Patents

Abstract

PURPOSE:To improve the durability by using matrix optical switches. CONSTITUTION:When matrix switches 4a and 4b are turned on in accordance with the driving voltage from a driver 6, an optical transmission module 2a and an optical reception module 3a are connected by an optical cable 5a; and when switches 4a and 4b are turned off, they are connected by a cable 5b. By this system using no optical branching and coupling devices, optical transmission lines are effectively switches without reducing an optical signal to a half neither degrading the communication quality in case of damage, and the durability is improved. Stand-by optical transmission module 2b, optical signal module 3b, etc., can be secured to improve the durability furthermore.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an optical transmission device mounted on an aircraft, a ship, etc., and used for information transmission, communication, etc.

[Conventional technology]

First, a conventional optical transmission device of this type will be explained with reference to FIG. In the figure, (1) is an optical transmission device.

(2) is an optical transmitting module, (31 is an optical receiving module).

(4) is an optical branching coupler, and (5) is an optical fiber cable. Traditionally, defense aircraft and ships have been required to maintain the functionality of their aircraft or ships even if part of them is damaged, which is different from general aircraft and ships. Various improvements have been made. This property is called resistance.

Optical transmission equipment (1) and the like are equipped with a plurality of optical fiber cables (5), which are optical transmission lines, to meet the demands.

In Figure 2, the optical signal exiting the optical transmission module (2) is split into two by the optical splitter/coupler (4a), one of which is connected to the optical fiber.
One cable (5a)'f is transmitted, and the other is transmitted through an optical fiber cable (5b) to an optical branch coupler (4).
In step b), the signals are combined again and reach the optical receiving module (31).

A plurality of optical fiber cables (5a), (5b) are arranged, for example, on the ceiling and floor of an aircraft, and if the ceiling is damaged, the transmission line on the floor will be damaged.

In addition, if the floor is damaged, information transmission 2 communication can be continued through the transmission line on the ceiling.

[Problem that the invention seeks to solve]

As mentioned above, conventional optical transmission equipment is configured to ensure durability by splitting the optical signal into two using an optical splitter and coupler and supplying it to two optical 7-iper cables. Ta. However, like an optical branching coupler, two optical signals are
In the method of dividing.

Originally, it has the disadvantage that the optical signal is halved, and the disadvantage is that it is damaged and the line quality deteriorates. Also, 2
Cases where the lengths of optical fiber cables are different 9
This was an operational inconvenience, as the delay in optical signals during normal use could lead to interference.

[Means for solving problems]

The optical transmission device according to the present invention is configured to use an IJx optical switch for supplying optical signals to a plurality of optical transmission lines.

[Effect]

In this invention, although the signal light from the optical transmission module is subject to loss in the IJ luxury switch,
Since the signal is transmitted only to one side of the optical transmission line, line quality will not deteriorate in the event of damage. Additionally, since a matrix optical path can be used, a backup line can be provided at the input/output section.

This is also preferable in terms of ensuring durability.

[Embodiments of the invention]

FIG. 1 is a diagram showing an embodiment of the optical transmission device of the present invention, in which (1) is the optical transmission device, (2) is the optical transmitting module, (3) is the optical receiving module, (41 is the matrix Optical switch, (51 is an optical fiber cable, (6) is a driver. A plurality of optical fiber cables (5a)
, (5b) are arranged, for example, on the ceiling or floor of an aircraft, and are connected to the output end of the matrix optical switch (4a) and the input end of the optical IJT switch (4b).

The optical transmission module (2a) is a matrix optical switch (
4a) is also connected to one input end of the optical receiver module (3a).
a) is connected to one output end of the matrix switch (4b). The driver (6) is a driving power source for switching the optical paths of the matrix optical switches (4a) and (4b).

FIG. 3 is a diagram for explaining the operation of the above-mentioned matrix optical switch (4).
The N state is shown in FIG. 3, and fbl in FIG. 3 shows the power OFF state. The matrix optical switch (4) is also called a 2x2 optical path switch, and switches between two optical paths depending on the voltage applied from the driver (6).
In the power OFF state as shown in Figure (a) K, the two optical paths intersect, and in the t source ON state as shown in Figure 3 Cb).
In this state, two parallel routes are formed. Returning to FIG. 1 again, in the optical transmission device of the present invention, two matrix optical switches (4a) and (ab) are connected to a driver (6).
are wired so that they can be driven at the same time. That is, matrix optical switch c4a), (4b) fa0
'When turned on at the same time.

The optical signal output from the optical transmitter module (2a) passes through the optical fiber cable (5a) and is sent to the optical receiver module (5a).
When a) is reached and the device is turned off at the same time.

The optical signal will pass through the fiber optic cable (5b). This function works when one optical transmission line is damaged.
It is possible to utilize the other optical transmission line,
Effective for ensuring durability.

In addition, by connecting the optical transmission module (2b) and optical reception module (5b) to the spare ends of the matrix optical switches (4a) and (4b), the durability of these parts can be ensured, and the entire device It is likely possible to increase the resistance as well.

〔Effect of the invention〕.

As explained above, according to the optical transmission device of the present invention,
By changing the method of transmitting optical signals to multiple optical transmission lines from a splitting method to a switching method, optical signals can be used effectively.
Further, by employing matrix-like optical path switching, spare terminals for the optical transmitter module and the optical receiver module can be secured. These enhance the durability of the device.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing an embodiment of the optical transmission device of the present invention, and FIG.
The figure shows an example of a conventional optical transmission device of this type, and FIG. 3 is a diagram for explaining the operation of a matrix optical switch, which is a main component of the optical transmission device of the present invention. In the figure, (1) is an optical transmission device, and (2) is an optical transmission module. (3) is an optical receiver module, (41 is a matrix optical switch or optical branching coupler, (5) is an optical fiber cable, and (6) is a driver. In Figure 9, the same or corresponding parts are denoted by the same reference numerals. It is shown with .

Claims (1)

[Claims] Consisting of an optical transmitting module such as a laser diode, a plurality of optical transmission lines using optical fiber cables, and an optical receiving module such as an avalanche photodiode, all or more of the plurality of optical paths, or In an optical transmission device that selects at least one arbitrary optical path among them and transmits an optical signal from an optical transmitting module to an optical receiving module, for simultaneously driving two matrix optical switches and the matrix optical switch. An optical transmission device comprising: a driver; an optical transmission module; an optical reception module; and a plurality of optical transmission lines connected between the matrix optical switch.