DE29821142U1 - Information transmission device - Google Patents

Description

GR 98 G 3926

Description

Device for transmitting information

The present invention relates to a device for transmitting information,
in particular between electrical devices for controlling and/or monitoring technical processes,
as part of automation projects.

Methods and devices for transmitting information between such devices are widely known.
For example, it is known to establish connections using copper technology according to RS-485 between the individual devices.
are also communicative connections via fiber optic cables

between the individual devices. In the case of optical fibers
Up to now, two optical fibers have been connected between two
participants, with each line being used for only one data transmission direction. In this way, a line structure is established between the communication participants, in which one optical fiber is used for incoming, ie received, and the other optical fiber for outgoing,
ie sent data is available. Many for
However, communication between devices that can be connected via a bus only requires one transport medium that can work in both directions. Communication media that can be operated bidirectionally are now made of copper technology.
e.g. according to RS 485.

The object of the present invention is therefore
to specify a method or device in which

Even with a connection via fiber optic cable, the medium is used bidirectionally. This task is carried out by a
Device according to claim 1 solved.

The device according to claim 1 is characterized by the following advantages:

GR 98 G 3926

A significant reduction in the manufacturing costs of the individual devices is achieved, since instead of the four connection points previously required per module, only two connection points and the associated electronics are now required. Furthermore, the cable costs for setting up the bus system are fundamentally reduced, since between each two communication participants, there is no longer two parallel cables, but only a single cable. Due to the saving of two connection points on each module, the size of the individual modules can be reduced.

Further features, advantages and possible applications of the invention emerge from the subclaims, the following description of an embodiment, based on the figures and the figures themselves. All described and/or illustrated features form the subject matter of the present invention, either individually or in any combination, regardless of their summary in the claims or their reference back to them.

FIG 1 shows a connection between a master M and three slaves Sl, S2, S3, whereby the communicative connection between the individual communication participants M, Sl, S2, S3 is established via optical fiber cables, whereby two optical fiber cables LWL, LWL' are used between each two communication participants, whereby the first of the two optical fiber cables LWL represents the transmission direction and the second of the two optical fiber cables LWL' represents the reception direction.

FIG 2 shows the design according to the present invention, wherein, apart from the otherwise identical configuration according to FIG 2, only one optical fiber LWL is provided between the individual communication participants, e.g. S1 and S2, and wherein the individual optical fiber LWL between the two connected communication participants can be operated in both the transmit and receive directions.

GR 98 G 3926

According to the invention, it is provided that the individual optical fiber line between two communication participants can be connected to a connection point at each communication participant which essentially has a device that can both send and receive.

Since such integrally acting diodes DD, FIG 3, are not yet on the market, it is planned to provide two separate diodes DS, DE for sending and receiving in each connection point and to achieve a bundling of the signals by a prism P, FIG 4, or by means of a linear or convex mirror S, FIG 5. This design of the connection point can be implemented both in the modules themselves and in the connectors that are provided at the end of the optical fibers.

Claims (4)

GR 98 G 3926 Protection claims 1. Device for transmitting information between electrical devices, in particular between electrical devices for controlling and/or monitoring technical processes in the context of automation projects, whereby two devices can be communicatively connected using optical fibers (OFC), characterized in that during a data transmission, both incoming, i.e. received, and outgoing, i.e. sent, data can be transmitted via a single optical fiber (OFC). 2. Device according to claim 1,
characterized in that the data transmitted by a transmitting diode (DS) are refracted into the optical waveguide (LWL) by means of a prism (P) and that incoming data from the optical waveguide (LWL) are fed to a receiving diode (DE) by means of a prism (P). 3. Device according to claim 1,
characterized, that the data sent out by a transmitting diode (DS) are broken into the optical waveguide (LWL) by means of a mirror (S) and that incoming data from the optical waveguide (LWL) are fed to a receiving diode (DE) by means of a mirror (S). 4. Device according to claim 1, characterized in that a bidirectional diode (DD) is provided for sending and receiving.