JPH0787016A - Optical transmission-reception circuit - Google Patents

Abstract

PURPOSE:To provide the optical transmission-reception circuit in which transmission is implemented while verifying whether or not transmitted information is accurately transmitted. CONSTITUTION:The optical transmission-reception circuit is provided with a comparison section 16 which discriminates coincidence of a pattern of a received electric signal and that of an electric signal resulting from converting a returned light of an optical signal converted by an electrooptic conversion section 12 in a directional coupler 14 at a photoelectric conversion section 13. A transmission timing detection section 15 monitors the level of the received electric signal to decide whether or not the information is transmitted and to allow the comparison section 16 to start comparison of the patterns of the two electric signals.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical transmitter / receiver circuit used for time-division 1-core bidirectional transmission such as time compression multiplex transmission, and in particular, an optical transmitter and an optical receiver operate normally. The present invention relates to an optical transmitter / receiver circuit that can be confirmed.

[0002]

2. Description of the Related Art There are various multiplexing techniques used in optical communication, and one of them is an optical communication system for bidirectional transmission using a single-core optical fiber. Among them, those that use light with different wavelengths for the upstream optical signal and the downstream optical signal, or use light of the same wavelength for the upstream optical signal and the downstream optical signal, and use an optical directional coupler to separate these signals. There is something to do with it. The former wavelength multiplexing system requires a plurality of light emitting circuits having different wavelengths and an optical circuit for separating optical signals having different wavelengths. On the other hand, in the latter system using an optical directional coupler, bidirectional transmission can be performed with a single optical fiber without preparing such a circuit, so that information can be economically transmitted. Have advantages. First, an optical communication system using an optical directional coupler will be briefly described.

FIG. 2 shows an outline of an optical transmission / reception circuit using an optical directional coupler.

The optical transmission / reception circuit is composed of an electric / optical converter 12, an optical / electrical converter 13, and an optical directional coupler 14.
The electrical / optical conversion unit 12 is a circuit that modulates an input electrical signal into an electrical signal suitable for transmission, converts the modulated electrical signal into an optical signal, and outputs the optical signal. On the contrary, the optical / electrical conversion unit 33 converts the received optical signal into an electric signal, demodulates the converted electric signal, and outputs the demodulated electric signal. Optical directional coupler 14
Connects the optical signal input from the connection unit 21 ₁ to the connection unit 21 ₂
It leads to, connect the optical signal input from the connection unit 21 ₂ 2
An optical circuit that leads to the 1 _3.

An optical transmission / reception circuit of the same shape as this is connected to the connecting portion 21 _{2 of the} optical directional coupler 14 via an optical fiber to form an optical communication system. In this system,
If the optical signals are completely coupled and separated by the optical directional coupler 14, the optical / electrical conversion unit 13 receives only the optical signals transmitted by the other optical transmission / reception circuits, and the bidirectional simultaneous transmission of the optical signals is performed. Can be done. However, since the coupling / separating function of the optical directional coupler 14 is not perfect, the optical signal received by the optical / electrical converter 13 is mixed with the optical signal output by the electrical / optical converter 12. Therefore, when such an optical transmission / reception circuit is used, information is often transmitted in a time division manner so that an optical signal from another station is not received when transmitting the optical signal.

By the way, such an optical communication system is usually provided with a function of checking the state of the optical fiber, that is, whether or not the optical fiber is broken or damaged.

FIG. 3 shows an outline of the function monitoring operation in the conventional optical communication system. The station _{A including the} optical transmitter 31 _A and the optical receiver 32 _B is the optical transmitter 31 _B and the optical receiver 32.
_When performing the function check with the B station having the B, the A station causes the loopback path 34 provided in the B station to function. This turnaround path 34 is
It is a route that has not been formed. And the optical transmitter 31 _A
Predetermined information is transmitted to the optical receiver 32 _B via the optical fiber 33 ₁ , and the transmitted information is input to the optical transmitter 31 _B via the return path 34 and transmitted to the A station side. The station A receiving this information compares the information with the transmitted information, and when the information matches, determines that each circuit and optical fiber in the transmission path are normal.

Such a system is described, for example, in JP-A-61-170158 and JP-A-2-94718.

In the above-mentioned system, the function of the entire transmission path is checked, but a large number of those which mainly monitor the state of the optical fiber have been proposed. For example, Japanese Patent Laid-Open No. 3-2
In Japanese Patent No. 1127, the occurrence of breakage of an optical fiber or the like is detected by monitoring the level of an optical signal on the receiving station side.

Further, there have been proposed a number of devices for checking individual circuits such as an optical / electrical conversion section (optical transmission section) and an electric / optical conversion section (optical reception section). For example, in the optical transmission unit, the light output of a light source such as a laser diode is received by using a light receiving element, the average value is monitored, and an alarm is issued when the monitor value is below a certain value. Is being carried out.

[0011]

DISCLOSURE OF THE INVENTION Problems to be Solved by the Invention
The systems described in Japanese Patent No. 70158 and Japanese Patent Application Laid-Open No. 2-94718 do not perform one-core bidirectional transmission, but this technique is also applicable to an optical transceiver circuit for one-core bidirectional transmission. However, for that purpose, it is necessary to add a function of returning the received signal and transmitting the signal, which causes a problem that the configuration of the optical transmission / reception circuit becomes complicated. Further, this technique has a problem that information transmission and operation check cannot be performed at the same time.

Further, in the device for monitoring the level of the optical signal for monitoring the state of the optical fiber, even if the electric signal is not converted into the optical signal accurately on the optical transmitter side, the level of the optical signal is constant. If it is more than the value, it will be judged as normal. Similarly, when the optical signal level of each circuit is monitored, the abnormality may not be found even if the electrical / optical signal conversion is not performed accurately.

SUMMARY OF THE INVENTION An object of the present invention is to provide an optical transmission / reception circuit which has a simple structure and can judge whether or not information to be transmitted has been accurately converted into an optical signal.

[0014]

The invention according to claim 1 is
An electrical / optical conversion unit that outputs an optical signal corresponding to an electrical signal input as an information signal, a first connection unit to which an optical signal output by the electrical / optical conversion unit is input, and a first connection unit A second connection part from which the optical signal input to the first connection part is output, and a third connection part from which the optical signal input from the second connection part and a part of the optical signal input to the first connection part are output. An optical directional coupler provided with a connection part of the electric directional coupler, and an electric circuit for outputting an electric signal corresponding to an optical signal from the third connection part of the optical directional coupler.
An optical conversion unit and a comparison unit that determines whether or not a pattern of an electric signal input as an information signal and an electric signal output from the electric / optical conversion unit match and outputs the determination result. .

That is, according to the first aspect of the invention, by utilizing the fact that the coupling and decoupling performance of the optical directional coupler is not perfect, the optical signal output from the electrical / optical converter is output in the optical directional coupler. The return light is converted into an electric signal by the optical-electrical conversion unit, and the comparison unit is used to determine whether or not the electric signal has the same pattern as the original electric signal. This makes it possible to determine whether or not the optical transceiver circuit is functioning normally. The optical transmission method used by this optical transmission / reception circuit is time division transmission in which it is certain that no optical signal is received during transmission.

The invention described in claim 2 applies the invention described in claim 1 to time compression multiplex transmission.

According to a third aspect of the present invention, there is provided a first aspect of the present invention in which an electric / optical conversion section for outputting an optical signal corresponding to an electric signal input as an information signal and an optical signal output by the electric / optical conversion section are inputted. 1 connection part, a 2nd connection part from which the optical signal input to the 1st connection part is output, and an optical signal input from this 2nd connection part and the 1st connection part An optical directional coupler having a third connection portion for outputting a part of the optical signal, and an optical signal from the third connection portion of the optical directional coupler when an information signal is input. Determining means for detecting the level and determining that the optical transmission system connected to the second connecting portion is abnormal when the level is equal to or higher than a predetermined value; and a third connecting portion of the optical directional coupler. Electrical-optical converter that outputs an electrical signal corresponding to the optical signal from the optical signal, and the electrical signal input as an information signal It is determined whether the pattern of the electrical signal output from the electric-optical conversion portion is matched and a comparing section for outputting the determination result.

That is, in the third aspect of the invention, the level of the optical signal from the third connecting portion of the optical directional coupler is detected when the information signal is input to the invention of the first aspect. If the level of the optical fiber is equal to or higher than a predetermined value, a determining means for determining that the optical fiber connected to the second connector is abnormal is added. When the optical fiber connected to the second connection section is cut, the optical signal transmitted by the cut surface is reflected, so that the optical-electrical conversion section has a higher level than that during normal transmission. An optical signal is input. The judging means judges the abnormality of the optical fiber by monitoring the difference between the levels.

[0019]

EXAMPLES The present invention will be described in detail below with reference to examples.

FIG. 1 shows the configuration of an optical transmitter / receiver circuit according to an embodiment of the present invention. The optical transmission / reception circuit includes an electrical / optical conversion unit 12, an optical / electrical conversion unit 13, a directional coupler 14, a transmission timing detection unit 15, and a comparison unit 16. Electrical·
The optical conversion unit 12 is a circuit that modulates an input digital electric signal into an electric signal suitable for transmission, converts the modulated electric signal into an optical signal, and outputs the optical signal. The optical / electrical conversion unit 13 is
Conversely, the input optical signal is converted into an electrical signal,
The converted electric signal is demodulated and output. It should be noted that there is a step of comparing the electric signal with a predetermined threshold value and performing digitization in the process of converting the inputted optical signal into a digital electric signal by the optical / electrical converting section 13. The electrical conversion unit 13 stores the data stored inside according to its operating state.
It is configured so that different thresholds can be used.

The optical directional coupler 14 guides the optical signal input from the connection section 21 ₁ to the connection section _{3 12} , and the connection section 21 ₂
It is an optical circuit that guides the optical signal input from the connection unit 21 ₃ . The optical signal output from the electrical / optical conversion unit 12 is input to the connection unit 21 ₁ of the optical directional coupler 14, and the connection unit 21 ₃
The optical signal from is input to the optical / electrical conversion unit 13. The connection unit 21 ₂ is connected to another station via an optical fiber.

The transmission timing detector 15 is a circuit that outputs a control signal when the input signal is at a predetermined level or higher. This control signal is output to the optical / electrical conversion unit 13 and the comparison unit 16. The comparison unit 16 receives the input 2
It is a circuit that compares two electrical signals, determines whether or not they match, and outputs the determination result.

The optical transmitter / receiver circuit of the embodiment will be described with reference to FIG.
The operation will be described below. Electricity input from the input end 22
The signals are the electric / optical conversion unit 12 and the transmission timing detection unit 1.
5 and the comparison unit 16 are input. Transmission timing detector 1
5 receives this input and instructs the comparison unit 16 to start comparison.
It outputs a control signal for indicating. The same control signal is light
-The light-to-electricity conversion unit 13 outputs to the electricity-to-electricity conversion unit 13,
Electricity as an information signal is converted from an electric signal converted from an optical signal.
Change the threshold when extracting signals. Electric / optical converter 1
2 is a form suitable for transmission by modulating the input electric signal.
Converted into an electric signal having a state, and the electric signal is converted into an optical signal.
The connection portion 21 of the optical directional coupler 14 is converted.₁Output to
It Connection part 21₁Most of the optical signal input from the
Sequel 21 ₂Output from the connection part 21₃From
Is output.

The function of branching the optical signal is not intentionally provided to the optical directional coupler 14, but is based on the incompleteness of the existing separation and coupling function of the optical directional coupler. .

The optical signal output from the connection unit 21 _{3 of the} optical directional coupler 14 is converted into an electric signal by the optical / electrical conversion unit 13, and further demodulated into an electric signal as an information signal. . At this time, the threshold value used in the optical / electrical conversion unit 13 is changed to a value different from that at the time of normal reception, as described above. The output of the optical / electrical converter 13 is
It is output to the comparison unit 16 and the output terminal 23. The comparison unit 16
It is determined whether or not the output signal and the input signal match each other, and a determination signal corresponding to the determination result is output to the determination signal output end 24.

As described above, if the circuit is configured to generate an alarm or the like in response to the signal output to the determination signal output terminal 24, optical transmission / reception can be performed without providing a return path or the like in another station. Information can be transmitted while verifying whether the circuit is functioning normally.

Further, by adding a comparison circuit for comparing the output signal level of the light receiving element in the optical / electrical converting section 13 with a predetermined value, the state of the optical fiber connected to the connecting section 21 ₃ can be detected. Become. That is, when the optical fiber is cut for some reason, the optical signal transmitted by the electrical-optical converter is reflected not only in the optical directional coupler but also on the cut surface of the optical fiber. The optical signal level received by the optical / electrical conversion unit is higher than that in normal times. Therefore, by detecting this level in synchronization with the control signal of the transmission timing detection unit, it becomes possible to detect the abnormality of the optical fiber.

Since the optical transmission / reception circuit of the embodiment is used in a system for converting a digital electric signal into an optical signal and transmitting information, a control signal for changing the threshold value is output to the optical / electrical conversion section. It is configured as follows. But,
When an optical / electrical conversion unit that simply converts the received optical signal into an electric signal according to the level is used, such a configuration is not necessary. However, in this case, the output signal of the optical-electrical conversion unit becomes smaller than the input signal, so it is possible to compare after amplification or to determine whether the comparison unit matches or does not match the pattern. Will be needed. Such a circuit can be easily configured by using a well-known technique.

[0029]

As described above, according to the first to third aspects of the present invention, information can be accurately transmitted at the time of information transmission by simply adding a simple circuit to the conventional optical transmission / reception circuit. You will be able to confirm that it has been done.

According to the invention described in claim 3, in addition to the above effects, it becomes possible to detect an abnormality in the optical fiber.

[Brief description of drawings]

FIG. 1 is a configuration diagram showing an outline of an optical transmission / reception circuit in an embodiment of the present invention.

FIG. 2 is a configuration diagram showing an outline of an optical transmission / reception circuit according to a conventional example.

FIG. 3 is an explanatory diagram showing a monitoring system of an operating state of an optical communication system according to a conventional example.

[Explanation of symbols]

 12 ... Electric / optical conversion unit 13 ... Optical / electrical conversion unit 14 ... Optical directional coupler 15 ... Transmission timing detection unit 16 ... Comparison unit 21 ... Connection unit 22 ... Input end 23 ... Output end 24 ... Determination signal output end 31 ... optical transmitter 32 ... optical receiver 33 ... optical fiber 34 ... folding path

Claims (3)

[Claims] 1. An electric / optical conversion unit for outputting an optical signal according to an electric signal input as an information signal, and a first for inputting an optical signal output by this electric / optical conversion unit.
Connection part, a second connection part from which an optical signal input to the first connection part is output, an optical signal input from the second connection part, and an optical signal input to the first connection part. An optical directional coupler having a third connection part for outputting a part of the signal, and an electric / electrical device for outputting an electric signal according to the optical signal from the third connection part of the optical directional coupler. An optical conversion unit and a comparison unit that determines whether or not the pattern of the electric signal input as an information signal and the pattern of the electric signal output from the electric / optical conversion unit match and outputs the determination result. An optical transmitter / receiver circuit comprising. 2. The optical transmission / reception circuit according to claim 1, wherein the signal transmitted through the second connection unit is an optical signal based on a time compression multiplex transmission system. 3. An electric / optical conversion unit for outputting an optical signal according to an electric signal input as an information signal, and a first for inputting an optical signal output by this electric / optical conversion unit.
Connection part, a second connection part from which an optical signal input to the first connection part is output, an optical signal input from the second connection part, and an optical signal input to the first connection part. An optical directional coupler having a third connection part for outputting a part of a signal, and an optical signal from the third connection part of the optical directional coupler when an information signal is input. Determining means for detecting a level and determining that the optical fiber connected to the second connecting portion is abnormal when the level is equal to or higher than a predetermined value; and a third connecting portion of the optical directional coupler. Whether the electric / optical conversion unit that outputs an electric signal according to the optical signal from the electric signal and the pattern of the electric signal that is the output of the electric / optical conversion unit and the electric signal input as the information signal match And a comparison unit that outputs the determination result. Circuit.