DE3042815C2 - Method for locating faults on an optical transmission link and arrangements for carrying out the method - Google Patents

Description

The present invention relates to a method for fault location on a regenerator provided Optical transmission link, in which a test signal is given in one direction on the transmission link and via a monitoring loop coming from the output of a selected regenerator of this transmission direction is switched to the input of the adjacent regenerator in the opposite direction, to the input the transmission path is returned and arrangements for carrying out the method.

It is a common method for fault location on electrical transmission lines (cf. DE-OS 38 211), a test signal from a monitoring station to put on the track and this test signal via a monitoring loop to the opposite direction of the Route and thus back to the monitoring point. These are each between two neighboring Line amplifiers or regenerators of the

Back and forth of the transmission link loops set up by the monitoring body to be controlled and closed.

To as many circuit elements of the regenerators as possible with etn when locating faults, the

ίο Monitoring loop must be connected behind the last circuit element of one regenerator and before the first circuit element of the other regenerator.
In the case of an optical transmission link, it could be too

for this purpose z. B. the monitoring loop from one There are optical waveguides, on the one hand to the one from the regenerator of the one transmission direction exiting optical waveguide and on the other hand at the one in the regenerator of the other transmission direction incoming LichiweUenleiter coupled is a disadvantage Here it is that the optical waveguides of the transmission path are additional through the coupling points Experience attenuations. In addition, a fiber optic cable that forms the monitoring loop would have to be inserted optical switch, which is a rather complex mechanical structure, be inserted.

All these disadvantages could be avoided by creating a purely electrical loop between the regenerators, in which yes 7 <.. <r processing of the optical signals converted into electrical signals in between are switched. However, this solution does not meet the above requirement that all circuit elements, thus also the opto-electrical or electro-optical Converter, at the outputs and inputs of the regenerators to be included in the fault location.

The invention is now based on the object of providing a method for locating faults in optical transmission links specify that it is possible to include all circuit elements of the regenerators connected to one another by a monitoring loop into the Include error checking, with the monitoring loop not having an expensive optical loop switch and the transmission path is not burdened with additional attenuation

«Should as well as orders for the implementation of the procedure to specify.

According to the invention, the object is achieved with regard to the method in that the optical Transmitter at the output of a regenerator emitted light signal converted into an electrical signal this is forwarded via a line containing a loop switch behind the loop switch electrical signal is converted into an optical signal and the optical signal is sent to the optical receiver at the input of the other regenerator is supplied.

The solution to the problem with regard to an arrangement for a transmission line in the case of the optical Transmitter at the output of a regenerator a laser diode is, is that the loop switch

6c containing electrical line with the output of a arranged in front of a mirror of the laser diode, in the Control circuit for the laser diode current switched opto-electrical converter is connected and that one is connected The light-emitting diode connected to the electrical line produces an optical signal proportional to the electrical signal into an optical fiber directed towards the optical receiver at the entrance of the other regenerator feeds.

The solution to the problem with regard to an arrangement for a transmission path in the case of the optical sender at the output of a regenerator is a light emitting diode, is that an optical waveguide Jas transmits the optical signal of the light-emitting diode to an opto; electrical converter to which the loop switch containing electrical line is connected, and that one connected to the electrical line Light-emitting diode proportional to the electrical signal optical signal in one directed to the optical receiver at the input of the other regenerator Optical fiber feeds

The invention will now be explained in more detail with the aid of two exemplary embodiments shown in the drawing. It shows! 5

F i g. 1 a monitoring loop coupled to a laser diode and

F i g. 2 a monitoring loop coupled to a light emitting diode.

The F i g. 1 shows a monitoring loop between a regenerator with a laser diode LD at its output, which feeds an optical signal into the optical waveguide 1 of one transmission direction, and an adjacent regenerator with an optical receiver OE at its input, which receives an optical signal from an optical waveguide 2 of the opposite direction Receive direction of transmission.

A laser diode usually has a light-emitting mirror on the front and rear. The optical signal which emerges from the front mirror and is proportional to the diode current is coupled into the optical waveguide 1 of the transmission path. The same optical signal emerging at the rear mirror is converted into an electrical signal via an opto-electrical converter OE1, which is used in a known manner to regulate the diode current. The electrical controlled system contains a control circuit LR, which controls a controllable amplifier, which is switched into the circuit of the laser diode. A line 3 of the monitoring loop is connected to the output of the opto-electrical converter OE 1, at which the electrical signal proportional to the optical signal of the laser diode is applied. It contains a loop switch 4, which from the monitoring point z. B. be electronically controlled kar.n.

The transition from an optical signal to an electrical signal enables a very simple electrical signal to be used Switch that is significantly less expensive than an optical one inserted into a fiber optic cable Counter.

Behind the loop switch 4, the electrical signal is converted back into an optical signal with the aid of a light-emitting diode LED 1. The light-emitting diode feeds the optical signal into an optical waveguide 5, which transmits the signal to the optical receiver OE of the regenerator in the opposite direction. It is also possible to arrange the light-emitting diode LED 1 on the optical receiver OE in such a way that the light-emitting diode transmits its optical signal directly to the optical receiver OE without the interposition of an optical waveguide.

The F i g. 2 shows the implementation of a monitoring loop in the event that the optical transmitter at the output of one regenerator is a light-emitting diode LED . Here, together with the optical waveguide 1 of the transmission path, an optical waveguide 6 of the monitoring loop is directed onto the light-emitting surface of the light-emitting diode LED. This optical waveguide 6 transmits the optical signal of the light emitting diode to an opto-electrical converter OE 2, to which the electrical line 3 with the loop switch 4 is connected. The remainder of the monitoring loop is the same as that in FIG. 1 shown arrangement.

1 sheet of drawings

Claims (3)

Patent claims: 1. A method for locating faults on an optical transmission link provided with regenerators, in which a test signal is given in one direction on the transmission link and via a monitoring loop that is switched from the output of a selected regenerator of this transmission direction to the input of the adjacent regenerator in the opposite direction Input of the transmission path is fed back, characterized in that the light signal emitted by an optical transmitter (LD, LED) at the output of one regenerator is converted into an electrical signal, this signal is passed on via a line (3) containing a loop switch (4) Loop switch converts the electrical signal into tia optical and the optical signal is fed to the optical receiver (OE) at the input of the other regenerator. 2. Arrangement for performing the method according to claim 1, for a transmission path in which the optical transmitter at the output of a regenerator is a laser diode ^ LD) , characterized in that the loop switch (4) containing the electrical line (3) to the output an opto-electrical converter (OE 1) arranged in front of a mirror of the laser diode (LD) connected to the control circuit for the laser diode current is connected ^ nd daF line connected to the electrical line ι light emitting diode (LEDi) an optical signal proportional to the electrical signal feeds an optical waveguide (5) gcrkhietened to the optical receiver (OE) at the input of the other regenerator 3. Arrangement for performing the method according to claim 1, for a transmission path in which the optical transmitter at the output of a regenerator is a light-emitting diode (LED) , characterized in that an optical fiber transmits the optical signal of the light-emitting diode to an opto-electrical converter (OE 2) transmits, to which the electrical line (3) containing the loop switch (4) is connected, and that a light-emitting diode (LED 1) connected to the electrical line transmits an optical signal proportional to the electrical signal into an optical receiver (OE) at the input of the other regenerator directed optical fiber (5) feeds