DE3735291A1 - Transmission link for optoelectrical digital audio and video signals - Google Patents

Abstract

The invention relates to a transmission link for optoelectrical digital audio and video signals from a mobile transmitting station (5) to a receiving station (14) connected to an optical fibre link (2). To simplify the transmission link and largely eliminate interference, at least one optical coupler (3) is inserted into the optical fibre transmission link (2) and provided with an input socket (4) for feeding in the signals of the mobile transmitting station (5). <IMAGE>

Description

When optically transmitting a general known optical transmission path from Video and audio signals are those of one mobile TV camera received electrical Signals in a transmission cassette in opti converted to digital signals and over a fiber optic cable to one OB van transmitted. Got there towards the optical signals for a reception cassette that has an inverse function owns the transmission cassette. The electrical High-frequency signals are then via anten NEN transmitted to the receiving station. At the However, high-frequency transmission occurs often transmission interference.

The invention is therefore based on the object reasons to unite the transmission line fan out and transmission interference close.

The solution to this problem results from the characterizing features of claim 1. According to the invention, an optical coupler with an input socket in the light waves  conductor transmission link used. So can at different locations Video and audio signals with a mobile Transmission station in the fiber optic transmission line respectively. The fed signals arrive directly over the transmission path to the reception station. Transmission errors are thus widespread excluded.

Further advantageous configurations are characterized in the subclaims. Hinge is pointed in particular to the execution form according to claim 4, which a particular expedient feed via the on one Cable distributor arranged input socket includes. By the embodiment according to Only authorized persons can claim 6 a feed of signals to the LWL-Über Carrying distance.

The invention is based on a the drawing shown in the drawing game closer to a transmission link purifies. The only figure shows a prin zip representation of the transmission link.

The fiber optic transmission path, fiber optic path 2 for short, connects the consumer or subscriber 13 with the receiving station 14 . The connection is made via light waveguides 6 , 7 , which optically transmit the audio and video signals. On the fiber optic link 2 , several cable distributors 1 are used to receive the incoming and outgoing optical fibers. In the Kabelverzwei like 1 optical couplers 3 are arranged. The optical couplers 3 connect the incoming and outgoing optical fibers 6 , 7 . In this embodiment, the optical coupler 3 has two inputs 8 , 9 and two outputs 18 , 19 . The input 9 is connected to the incoming light waveguide 6 and the output 19 to the optical waveguide 7 starting. An input socket 4 is arranged on the outer wall 11 of the cable distributor 1 and is connected to the input 8 of the optical coupler 3 via an optical waveguide 15 . The input socket 4 is closed by a sealing cap 12 and can only be removed by authorized persons.

For the transmission of audio and video signals from a mobile transmitter station 5 to the receiver station 14 connected to the optical fiber link 2 , the closure cap 12 of the cable junction 1 closest to the transmitter station is removed first. A mobile television camera 16 , which receives electrical signals, is ruled out at a mobile transmitting station 5 . In the mobile transmitter station 5 , the electrical signals are converted into optical signals. At the output 20 of the mobile transmitter station 5 , an optical fiber cable 17 is connected to an optical fiber connector 10 , which is inserted into the input socket 4 of the cable distributor 1 . The opto-electrical audio and video signal is transmitted via the optical fiber cable 17 , via the plug 21 / input socket 4 , the optical fiber 15 to the input 8 of the optical coupler 3 , which feeds the signals into the fiber optic link 2 . Via the output 19 of the optical coupler 3 , the signals reach the receiving station 14 via the outgoing optical waveguide 7 .

Since - as shown in the figure - a plurality of branching cables 1 are arranged on an optical fiber link 2 , the audio and video signals can be fed in at various locations and can be transmitted to the receiving station 14 without interference on the transmission path influencing the transmission.

Reference symbol list

1 cable distributor
2 fiber optic link
3 optical couplers
4 input socket
5 transmitter station
6, 7 optical fiber
8, 9 entrance
10 FO connectors
11 outer wall
12 sealing cap
13 participants
14 receiving station
15 optical fibers
16 camera
17 fiber optic cables
18, 19 outputs
20 exit

Claims (7)

1. Transmission link for opto-electrical, digital audio and video signals from a mobile transmitter station to a receiving station connected to an optical fiber link, characterized in that in the fiber link ( 2 ) at least one optical coupler ( 3 ) is used and with an input socket ( 4 ) for feeding the signals of the mobile transmitter station ( 5 ) is provided. 2. Transmission link according to claim 1, characterized in that the mobile transmitter station ( 5 ) is provided with a fiber optic connector ( 10 ) which is inserted into the input socket ( 4 ). 3. Transmission link according to claim 1, characterized in that in the fiber optic link ( 2 ) cable branch ( 1 ) with at least one optical coupler ( 3 ) and provided with input sockets ( 4 ) for feeding the signals of the mobile transmission station ( 5 ) are. 4. Cable distributor for a transmission link according to claim 1, with incoming and outgoing optical waveguides for the transmission of opto-electrical, digital video and audio signals on a fiber optic transmission link, characterized in that
that an incoming and outgoing fiber optic cable ( 6 , 7 ) of the fiber optic link ( 2 ) at the input ( 9 ) and output ( 19 ) of the optical coupler ( 3 ) are connected in the cable distributor ( 1 ),
and that the signals of the mobile transmitter station ( 5 ) are fed into the fiber optic transmission link ( 2 ) via a second input ( 8 ) connected to the input socket ( 4 ) of the optical coupler ( 3 ). 5. Cable distributor according to claim 4, characterized in that with the second input ( 9 ) of the optical coupler ( 3 ) connected to an input socket ( 4 ) on the outer wall ( 11 ) of the housing of the cable distributor ( 1 ) is arranged. 6. A cable distributor according to claim 4, characterized in that the second input ( 8 ) of the optical coupler ( 3 ) within the cable branch ( 1 ) is connected to the input socket ( 4 ) via an optical fiber ( 15 ). 7. A junction box according to claim 4, characterized in that the input socket ( 4 ) is closed by a closure cap ( 12 ).