JPH08279785A - Detecting system for discontinuity of optical fiber cable - Google Patents

Abstract

PURPOSE: To surely detect optical fiber cable discontinuity by reproducing transmitted data at the reception side and discriminating the optical fiber cable discontinuity corresponding to the interruption of a received identification output longer than a fixed period. CONSTITUTION: In a transmission circuit 1, a light emitting element drive circuit 12 drives a light emitting element 13 corresponding to the output of a selector (1)11 so that the light emitting element 13 can output an optical signal from the transmission circuit 1 to an optical fiber cable 3. On the other hand, in a reception circuit, a light receiving element 21 converts the received optical signal to an electric signal, a preamplifier 22 performs the DC amplification of this electric signal, and an identification circuit 23 identifies a preamplifier output and fixes a logical level. Then, an inverter circuit 24 generates output data R of the same waveform and inverted output data R* inverting this waveform corresponding to the logical output from the identification circuit 23. Then, a '0' continuation detection circuit 26 outputs a cable discontinuity alarm by detecting the output of the circuit 23 longer than the time for the selector (1)11 to perform switching more than twice.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical fiber cable disconnection detecting system for detecting the disconnection of an optical fiber cable.

In an optical communication system, an optical fiber cable is used for transmitting an optical signal. Therefore, if the optical fiber cable is cut for some reason, communication cannot be performed. It is necessary to detect a cable break quickly and reliably.

It is desirable that such an optical fiber cable disconnection detection system can reliably detect an optical fiber cable disconnection without performing special coding on an optical signal.

[0004]

2. Description of the Related Art As an example (1) of a conventional optical fiber cable disconnection detection method, there is an optical signal input disconnection detection device described in Japanese Patent Laid-Open No. 3-40538.

In this known optical signal input break detection device, a photoelectric conversion circuit converts a received optical signal into an electric signal,
The clock extraction circuit extracts the clock from the received signal,
The discriminating circuit discriminates the received signal by the extracted clock and outputs the data, and the optical input interruption judging circuit judges the optical input interruption.

In this case, in the light input break judgment circuit, the average voltage calculation circuit calculates the average voltage of the output data, and the comparison circuit compares this output with the reference voltage to determine the light input break output. To occur.

Further, as an example (2) of the conventional optical fiber cable disconnection detection method, there is an optical input signal disconnection detection method disclosed in Japanese Patent Laid-Open No. 2-17744.

In this known optical input signal disconnection detection method, the violating bit detecting means periodically violates a certain coding rule contained in the received output with respect to the received output from the optical / electrical conversion element. Output that detects the disconnection of the optical input signal by detecting a violation bit and temporarily storing the received output at the time of detection of the violation bit by the comparison detection means and comparing this output value with a predetermined detection level. To occur.

[0009]

In the example (1) of the conventional optical fiber cable disconnection detection method, since the optical signal is converted into an electric signal and the timing component is extracted from the signal waveform to perform clock extraction, The optical signal needs to be coded so that the number of change points is large, the transmission circuit needs the coding circuit for performing such coding, and the reception circuit needs the decoding circuit for decoding such signal. At the same time, if "0" continues in the optical signal, there is a problem that the optical fiber cable disconnection is erroneously detected on the receiving side.

Further, in the example (2) of the conventional optical fiber cable disconnection detection method, it is possible to perform coding so that the optical signal includes violating bits at a constant cycle, and to detect such violating bits on the receiving side. In addition to the necessity, there is a problem that the optical fiber cable disconnection is erroneously detected on the receiving side when "0" continues in the optical signal.

The present invention is intended to solve such a problem of the prior art. The transmitting side inverts the polarity of the transmission signal at a constant cycle and transmits the signal, and the receiving side transmits the reception signal at the same cycle. By reversing the polarity and reproducing the transmission signal, if the optical signal is not encoded and even if the transmission signal is continuously "0", it is possible to detect the disconnection of the optical fiber cable and output an alarm. The purpose is to be able to.

[0012]

SUMMARY OF THE INVENTION The present invention is intended to achieve the above-mentioned object by adopting the constitution described below.

(1) A transmitter 11 is provided with a selector 11 for alternately switching between transmission data (S) and inverted transmission data (S ^* ) obtained by inverting the transmission data in accordance with a logic switching timing signal. The output data (R) obtained by converting the signal into a signal and transmitting the signal via the optical fiber cable 3 and having the selector 21 on the receiving side and identifying the received optical signal and the inverted output data (R ^* ) obtained by inverting the output data (R ^*) ) And are alternately switched according to the logic switching timing signal to generate reception data, and in the reception identification output,
The disconnection of the optical fiber cable is detected by continuing the non-output state for the period exceeding the logic switching timing signal cycle.

(2) In the case of (1), the logic switching timing signal on the receiving side is sent from the transmitting side through a cable different from the optical fiber cable 3.

[0015]

[Action]

(1) On the transmitting side, the transmission data (S) and the inverted transmission data (S
^* ) Are alternately switched by the selector 11 according to the logic switching timing signal, converted into an optical signal and transmitted through the optical fiber cable 3, and output data (identified by the optical signal on the receiving side) ( R) and inverted output data (R
^* ) And are alternately switched according to the logic switching timing signal to generate received data.

At this time, when the optical fiber cable 3 is normal, in the reception identification output, the non-output state does not continue for a period exceeding the logic switching timing signal cycle, but the optical fiber cable 3 is disconnected. In this case, in the reception identification output, the non-output state continues for the period exceeding the logic switching timing signal cycle, so by judging this state, the disconnection of the optical fiber cable between the transmission circuit and the reception circuit can be detected. You can

(2) The logical switching timing signal on the receiving side may be the logical switching timing signal on the transmitting side sent from the transmitting side via a cable different from the optical fiber cable 3. .

[0018]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the drawings. FIG. 1 shows an embodiment of the present invention, and shows a transmission circuit 1 and a reception circuit 2 in a block diagram.

In the transmission circuit 1, the selector 11 is
Transmission data S and inverted transmission data S ^* (
^(Indicated by an inversion signal) is alternately switched and output at a constant cycle ΔT corresponding to N (N is an arbitrary integer) bits according to the logic switching timing signal K. The light emitting element drive circuit 12 drives the light emitting element 13 according to the output of the selector 11, and the light emitting element 13 outputs an optical signal from the transmission circuit 1 to the optical fiber cable 3 by this.

In the receiving circuit 2, the light receiving element 21 converts the received optical signal into an electric signal, the preamplifier 22 amplifies this electric signal with direct current, and the discrimination circuit 23 discriminates the preamplifier output to determine the logic level. . The inverting circuit 24 outputs the output data R having the same waveform and the inverted output data R ^{* obtained} by inverting the output data R having the same waveform with respect to the output of the logic level from the identification circuit 23 ^.
And generate. The selector 25 alternately switches the output data R and the inverted output data R ^* at the same fixed cycle ΔT as the transmission side in accordance with the logical switching timing signal K sent from the transmission side by another cable,
It reproduces the transmitted data and outputs the received data.

The 0 continuity detecting circuit 26 detects, in the output of the discriminating circuit 23, a time longer than the time for which the selector 11 performs switching two or more times, that is, a continuation of "0" of N + 1 bit, thereby detecting a cable disconnection alarm A. Is output.

FIG. 2 shows the output signal waveform of each part of the embodiment, (a) shows the signal in the normal case,
(B) shows a signal when the optical fiber cable is disconnected.

In FIG. 2A, on the transmitting side, the transmission data S as shown and the inverted transmission data S obtained by inverting the transmission data S are shown.
^{Suppose *} and are entered. The selector initially selects the transmission data S in positive logic according to the logic switching timing signal K, but at time T = t ₁ ,
It becomes negative logic and the inverted transmission data S ^* is selected, and the time T
= T ₂ becomes positive logic again and the transmission data S is selected. As a result, the transmission data S and the inverted transmission data S
^* And N are alternately selected in N-bit (= ΔT) cycle to generate an optical signal output.

On the receiving side, the output of the identification circuit has the same logic as the output of the selector because the optical level is identified by DC amplification of the optical signal input. The selector alternately transmits the output data R having the same waveform as the output of the identification circuit and the inverted output data R ^* obtained by inverting the output data R in the same cycle as that of the transmission side in accordance with the logic switching timing signal K. Output the received data with the same waveform as the data. 0 Cable disconnection alarm A output from the continuous detection circuit, the identification circuit output at time T = t ₀ becomes "1" since "L". Since then also it has a "1" to the identification circuit output between times T = t ₁ and T = t _2, the cable loss alarm A is followed by "L".

In FIG. 2B, if the same transmission data is input, the output up to the selector is the same, but since the optical fiber cable is disconnected, the optical signal input is ^.
0 "is continuous. Therefore, the output of the discrimination circuit is also continuous" 0 ".

It is assumed that the optical fiber cable is connected immediately before time T = t ₀ and the cable break alarm A output from the 0 continuous detection circuit is "L". Time T
= ₀ , a cable disconnection occurs, and even at time T = t ₂ at which N + 1 bits have elapsed, "0" continues in the identification circuit output, so at the next time T = t ₃ , the cable disconnection alarm A
"H" is output to.

If the optical fiber cable is not disconnected but the data such that "0" continues for a time longer than 2ΔT is input to the output of the selector, the receiving side once generates a cable disconnection alarm and the receiving side By sending a notification to the transmitting side from the transmitting side, the transmitting side confirms whether or not the optical fiber cable is broken by inputting data such that “0” continues to the input of the selector for a time longer than 2ΔT. To do. As a result of this processing, when the cable disconnection alarm is detected again, it is surely determined that the optical fiber cable is disconnected. If the cable disconnection alarm is not detected as a result of this processing, it is determined to be an erroneous detection, and the time is sufficiently long for 2ΔT (for example, 2000Δ).
Only in T), the cable disconnection alarm is masked and ignored.

[0028]

As described above, according to the present invention, the transmitting side alternately selects the logic of "1" and "0" of the transmission data at a constant cycle and transmits the same, and the receiving side is the same as the transmitting side. In cycles
The logic of “1” and “0” of the reception identification output is alternately selected to reproduce the transmission data, and the disconnection of the reception identification output for a certain period or more determines the disconnection of the optical fiber cable. Without any special encoding
It is possible to reliably detect the disconnection of the optical fiber cable.

[Brief description of drawings]

FIG. 1 is a diagram showing an embodiment of the present invention.

FIG. 2 is a diagram showing an output signal waveform of each part of the embodiment, FIG. 2 (a) shows a signal in a normal case, and FIG.
Indicates a signal when the optical fiber cable is disconnected.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 transmitter circuit 11 selector 12 light emitting element drive circuit 13 light emitting element 2 receiving circuit 21 light receiving element 22 preamplifier 23 identification circuit 24 selector 25 0 continuous detection circuit 3 optical fiber cable

Claims (3)

[Claims] 1. A transmission side is provided with a selector, and transmission data (S) and inverted transmission data (S) obtained by inverting the transmission data (S).
^* ) And are switched alternately according to the logic switching timing signal, converted into an optical signal and sent out through the optical fiber cable, and a selector is provided on the receiving side to identify the received optical signal and obtain the output data. (R) and inverted output data (R ^* ) obtained by inverting the output data are alternately switched according to the logical switching timing signal to generate received data, and the logical switching timing signal cycle at the identification output is changed. An optical fiber cable disconnection detection method, characterized in that the disconnection of the optical fiber cable is detected by continuing a non-output state for a period exceeding the above period. 2. The optical fiber cable disconnection detection method according to claim 1, wherein the logic switching timing signal on the receiving side is sent from the transmitting side via the optical fiber cable. 3. The optical fiber cable disconnection according to claim 1, wherein the logic switching timing signal on the receiving side is sent from the transmitting side via a cable different from the optical fiber cable. Detection method.