AT396534B - Optical distribution connector - Google Patents

Abstract

The distribution connector 15 for connecting a plurality of subscriber terminals 2 to a socket outlet 3 of an optical telecommunications network with a connector part 14 and a plurality of socket outlet locations 13 contains a beam splitter 4, which optically connects the light- wave plug connector 12 of the connector part to that 17 of the socket outlet locations 13. <IMAGE>

Description

AT 396 534 B

The invention relates to a distributor plug for connecting a plurality of subscriber terminals with optical message transmission to a socket of the Qitian message transmission network provided with optical waveguide (LWL &gt; connectors), consisting of a plug part and a plurality of socket locations.

Optical fiber (LWL) plug-in devices are known which enable the connection of subscriber end devices to an optical transmission network. If you want to connect several end devices to the optical network at the same time and at the same location, the number of wall sockets must be extended accordingly. Such an extension requires a lot of assembly work. To connect these additional sockets, an optical distribution device must be provided, as z. B. is known from GB-A-2 105 134. 10 There are also known in electrical engineering distribution plugs for mains voltages, which contain a plug part and several socket outlets connected in parallel and thus enable the electrical connection of several devices to a mains socket.

It is an object of the invention to provide a distributor plug », which enables the connection of several subscriber * terminal devices to a fiber optic socket with only one slot without additional installation effort» -IS

The invention solves this problem in that at least one beam splitter is provided in the distributor plug, which is connected on the one hand to the fiber optic plug connector of the plug part and on the other hand to the fiber optic plug connector socket locations

Such a distributor plug forms an adapter which on the one hand can be plugged into the existing 20 socket in a simple manner and which on the other hand offers the connection for several subscriber terminals. The signal arriving from the optical network is distributed in the beam splitter and to the socket locations. In the opposite direction, the beam splitter collects the signals coming from the terminal devices and makes the sum signal available to the optical network via the plug part.

In one embodiment of the invention, it is provided that the beam splitter is wavelength-selective. Each socket outlet is provided for a different wavelength range. For example, one socket is responsible for the connection of a broadband terminal, another for the connection of a digital telephone.

There are often several equivalent connection options desired. For example, in addition to the telephone, it should also be possible to connect a remote copier or a data terminal. In order to make this possible, a further development of the invention provides that the beam splitter is independent of the wavelength

In a further embodiment of the invention, the device contains any combination of wavelength-selective and wavelength-independent beam splitters, a secondary-side connection of a beam splitter being connected to the primary connection of the further beam splitter. For example, after the entire light spectrum has been divided into a plurality of wavelength ranges, a number of identical socket locations can be provided for 35, for example, a wavelength range.

Another embodiment of the invention provides that movable covers are provided in the socket locations, which cover the fiber optic connectors optically when not plugged in. This design protects the optical connectors from contamination when not in use. In addition, it also offers protection against any light rays emerging with high light energy. 40 From EP-A2-0 142 970 it is known that both the connector part and the socket locations contain power supply connectors »!.

This arrangement reduces the effort for the connector. For example, only a single socket housing with a »single plug guide or lock is necessary.

According to a further embodiment of the invention, a power supply unit is provided in the distributor plug. It is connected to the power supply network via the wall socket and supplies the DC and / or AC voltages required for the subscriber terminals to the electrical connectors. If different power supplies are required by the different end devices, the corresponding socket locations are connected to the corresponding outputs of the power supply.

In a development of the invention, the power supply unit integrated in the distributor plug contains a battery, preferably a rechargeable battery. Such an arrangement serves as a backup power source at least for a short time if the power supply network fails.

A further embodiment of the invention provides that an optical display device with a light-emitting diode is provided for displaying the state d »supply voltage. A voltage drop and / or failure can be detected in a simple manner without additional devices. 55 The invention will now be explained in more detail with reference to an embodiment shown in the following drawing.

As can be seen in the figure, for example, two subscriber terminals (2), each consisting of a combination of a digital telephone and a data terminal in the example shown, and a television device (20) can be connected via a distributor plug (15) a one-piece socket (3) can be connected. The 60 socket (3) is connected both to the optical fiber (LWL) (1) of an optical transmission network, as well as to the lines (5) of the power supply network.

The distributor plug (15) contains three socket positions (13), each with a fiber optic connector »(12) -2-

Claims (8)

AT 396 534 B and the power supply plug contacts (11). For simplicity, the power supply connection is shown in the figure only by a contact. A wavelength-selective beam splitter (19) installed in the distributor plug (15) is connected on one side to the optical waveguide of the plug part (26). On the other hand, the connection (22), for example for the 1300 nm range, is connected to the fiber optic connector of the socket space, to which the broadband terminal (20) is in turn connected. The second connection (21), which is provided for the 800 nm range, for example, is connected to one side of a wavelength-independent beam splitter (4). This in turn is connected with its two connections on the other side to the fiber optic connectors (12) of the two remaining socket locations (13). It distributes the signal coming from the optical transmission network (1) via the wavelength-selective beam splitter (19) to the fiber optic connectors (13) and collects the signals arriving at the fiber optic connectors (13) from the subscriber terminals (2) for forwarding the transmission network (1). In the example shown, there is therefore a socket for the 1300 nm range for connecting a television set (20) and two socket positions for the 900 nm range for connecting an ISDN terminal. The distributor plug (15) also contains a power supply unit (6) which is fed from the power supply network (5) and whose outputs deliver the supply voltages required by the subscriber terminals (2) and (20) to the respective power supply plug connector (11) Supply voltages are indicated by light-emitting diodes (14) installed on the distributor plug (15). The subscriber terminals (2) and (20) are equipped with integrated connection cables (7) and (23), which contain both the fiber optic cable and me Each provided an integrated connector (8), which contains both the fiber optic connector (10) and the required power supply connector pins (9). It is also conceivable that the optical fiber (1) of the optical transmission network and the conductor (5) of the S Electricity supply network as a whole or in parts of the network within a hierarchical unit as an integrated cable . The socket locations (13) each contain a movable cover (18) which, when not in use, folds onto the socket location and covers it. Before inserting a plug (8), the cover (18) must be opened. A sliding cover is also conceivable, which is automatically pushed into the open position when the plug (8) is inserted. Such plug covers are known per se, so that they are not discussed in more detail here. As is already known from the electrical connection technology, the distributor plug can consist of two separate components, namely a plug and a coupling with a plurality of socket locations which are connected to one another with an integrated connecting cable containing the optical waveguide and power supply conductor. 1. DISTRIBUTOR PLUG for the connection of several subscriber terminals with optical message transmission to a socket of the optical communication network provided with fiber optic (FO) connectors, consisting of a plug part and several socket positions, characterized in that in the distributor plug (15) at least one beam splitter (4, 19) is provided, which is connected on the one hand to the fiber optic connector (17) of the plug part (26) and on the other hand to the fiber optic connector (12) since socket locations (13). 2. Distribution plug according to claim 1, characterized in that the beam splitter (19) is wavelength-selective 3. Distribution plug according spoke 1, characterized in that the beam splitter (4) is independent of wavelength 4. Distribution plug according to claim 2 and 3, characterized by any combination of wavelength-selective (19) and wavelength-independent (4) beam splitter, each having a secondary connection (21) of a beam splitter (19) connected to the primary connection of the further beam splitter (4) is -3- AT 396 534 B. 5. Distribution plug according to one of claims 1 to 4, characterized in that in the socket locations (13) movable covers (18) are provided which optically cover the optical fiber connector (12) in the non-inserted state. 6. Distribution plug according to one of claims 1 to 5, characterized in that both the plug part (26) and the socket locations (13) contain power supply connectors (11, 16) in a manner known per se and that a power supply unit (6) is provided, that supplies the DC and / or AC voltages required for the subscriber terminals (2, 20) to the power supply plug connectors (11, 16). 7. Distribution plug according to claim 6, characterized in that the power supply (6) contains a battery, preferably a rechargeable battery. 8. Distribution plug according to one of claims 6 or 7, characterized in that an optical display device, for example with a light-emitting diode (14) for displaying the state of the supply voltage 15 is provided 20 Hiezu 1 sheet drawing