DE4317863A1 - Arrangement for monitoring an optical fiber transmission link - Google Patents

Description

The present invention relates to an arrangement for Monitoring an optical fiber transmission link with the Features of the preamble of claim 1.

An arrangement of this type is known from DE 39 42 817 A1. In the event of an interruption in the optical fiber (LWL) transmission link test pulses with short duration, which are sent periodically. The pulse length of the test pulses and their distances are like this dimensioned that in the case of temporal integration the transmitted Performance is low and so when repairing the Transmission path does not endanger the human eye can occur. Regulations in this regard are in the CCITT Recommendation G.958 carried out.

Through the use of new optical fiber amplifiers can the light intensity in the fiber optic transmission path be significantly increased. The pulse length of the test pulses can but not chosen as short because of the Settling process when switching on the laser transmitter, so that the monitoring method from DE 39 42 817 A1 is not here can be applied more.

The invention has for its object an arrangement of Specify the type mentioned, even at very high  Transmitting power can be used without one health hazard to the human eye in a To represent repair of the fiber optic transmission line. This object is achieved by the features of Claim 1 solved. Advantageous embodiments of the Invention emerge from the subclaims.

Due to the arrangement according to the invention, the automatic Recommissioning of a transmission link after the Correction of a fault, e.g. B. an interruption, even at high optical transmission powers are caused. The Time determination of the test impulses (pulse length, time interval) can be retained.

An embodiment of the invention is in the schematic Drawing shown and is explained below.

The drawing shows a first and second transmitter S1, S2, a first and second receiver E1, E2 and one Optical fiber (LWL) transmission link with two Optical fibers LWL1 and LWL2. Optical fiber LWL1 connects the transmitter S1 to the receiver E2 and Optical fiber LWL2 connects the transmitter S2 with the Receiver E1 for the transmission of optical signals. The Optical fibers LWL1 and LWL2 are through the transmitters S1 and S2 operated with high optical powers, like them for example, laser diodes with downstream optical Fiber amplifiers can be achieved.

By a disturbance U, e.g. B. an interruption, the now falls Signal transmission from transmitter S1 to receiver E2. The Arrangement for monitoring the fiber optic transmission path switches thereupon the transmitter S2, since there are no more optical signals in the Receiver E2 can be registered. Since now in receiver E1 too The transmitter will stop receiving optical signals  S1 also switched off from the arrangement. The FO Transmission path can now be done without endangering the human eye to be repaired.

For automatic restarting of the FO Transmission distance after the elimination of the fault U are the Transmitter S1 and S2 caused by the arrangement to be optical Send test pulses, e.g. B. by timer. These test pulses are about once from the beginning of the fault sent per minute, the pulse length is approximately two seconds.

Your level is e.g. B. by reducing the Modulation current of a laser diode lowered so far that the Services that occur with time integration are no longer dangerous over pulse and pause times. This level is generally no longer sufficient a data transfer, but only the Evidence of the test impulses.

In order to detect the test pulses on the receiver side, in addition to the broadband receiver a more sensitive Low response speed and bandwidth detector be used because of the damping in the Optical fibers, especially for long-distance transmission, the test pulses can be at the detection limit. Used can be z. B. an integrating signal detector or a Signal detector with an upstream narrow-band filter.

Is the fault U eliminated and are both optical fibers LWL1 and LWL2 intact, the LWL transmission path goes automatically resumes operation and sends data signals. This is caused by the interconnection of the receivers E1 and E2 and the transmitters S1 and S2: hits a receiver (E1, E2) a test pulse, this causes the associated Transmitter (S1, S2), also send a test pulse. There  now that the malfunction has been remedied, the test pulses are received two receivers E1, E2 and both transmitters go in Business. The exact functioning of the automatic Commissioning is described in DE 39 42 817 A1.

If the fiber optic transmission link has intermediate regenerators, see above the arrangement can be expanded accordingly: Everyone Intermediate regenerator is capable of sending and closing test pulses detect. In the event of a fault, the arrangement switches the Transmitter of the opposite direction and causes it to To send test pulses. Once the fault has been remedied, the Transmitter of the affected section again in operation.

A transmitter of this fiber optic transmission path can, for. Legs Laser diode with an optical fiber amplifier as Be post-amplifier or a laser with high optical Output power.

Claims (3)

1. Arrangement for monitoring an optical fiber transmission link, in which a transmitter feeds optical test pulses into the transmission link during a fault in the transmission link, which test pulses a receiver detects after the fault has been rectified and then signals the transmitter that the fault has been eliminated, characterized in that that the level of the test pulses is reduced to such an extent that their optical performance poses no risk. 2. Arrangement according to claim 1, characterized in that the Receiver a signal detector with upstream narrow-band filter. 3. Arrangement according to claim 1, characterized in that the Receiver has an integrating signal detector.