RU96114955A - METHOD FOR CONTROL OF OPTICAL WIDELINE BAND CONNECTING LINES UP TO PASSIVE JOINT - Google Patents

Claims (6)

1. The method of monitoring the connection between the fiber-optic connection unit (LT), in particular, the subscriber input on the side of the switching station, and a certain passive optical junction (PNT1) of the part of the optical broadband trunk line (OAL), in particular, the subscriber line, according to which - from the optical fiber connection unit (LT) transmit the optical Downstream signal formed from the information signal and the binary pseudo-random noise signal to be transmitted via the optical broadband trunk in the Downstream direction, the optical optical interface (PNT1) transmit a small part of the optical Downstream signal back in the Upstream direction back to the light guide block (LT), where it is in the optical receiver provided there together with the components reflected, in particular, at other places of reflection of the optical broadband connecting line the optical Downstream signal and the optical Upstream signal received over the optical broadband trunk (OAL) are converted into an electrical signal, and the reflected control signal there is evaluated about regarding its reflection at the passive optical interface (PNT1), while the named electrical signal, as well as delayed by the delay time interval, which corresponds to the signal transit time on the broadband connecting line (OAL) from the light guide connection unit (LT) to the passive optical interface (PNT1) round-trip, the binary pseudo-random noise signal is fed to the containing corrector (X) followed by an integrating device (I), the signal correlator, the amplitude of the output signal of which taking into account the transit time Signal driving is monitored for the appearance of a binary signal component of pseudo-random noise reflected from a passive junction (PNT1); characterized in that the binary pseudo-random noise signal needed on the transmission side and the time-delayed binary pseudo-random noise signal supplied to the correlator are created by two pseudo-random noise generators with correspondingly different starting parameters.  2. The method according to claim 1, characterized in that in the fiber-optic connection unit (LT), the direct current of the laser diode provided there as an optical transmitter is modulated in amplitude with a binary pseudo-random noise signal.  3. The method according to p. 1, characterized in that in the light guide block of the connection (LT) on the electrical control signal of the optical transmitter (e / o) provided therein, a binary pseudo-random noise signal is additively applied.  4. The method according to p. 1, characterized in that in the light guide block of the connection (LT) to the electric control signal of the optical transmitter provided therein, a pilot signal modulated by a binary pseudo-random noise signal is added, which is outside the busy information signal transmitted in the Upstream direction, and on the receiving side, the reflection received, superimposed on the carrier sequence of binary pseudo-random noise signals, is demodulated again before correlation.  5. The method according to one of paragraphs. 1 to 4, characterized in that the correlation signal is subjected to determining a threshold value, the result of which indicates the appearance or, accordingly, the appearance of a binary pseudo-random noise signal reflected from the passive junction (PNT1).  6. The method according to one of paragraphs. 1 to 5, characterized in that the correlation signal is subjected to multistage determination of the threshold value, the result of which additionally forms a measure of the quality of the optical connecting line (OAL) between the fiber-optic connection unit (LT) and the passive interface (PNT1).