KR19990042076A - Channel Monitoring Method for Multichannel Optical Transmission System - Google Patents

Abstract

The present invention relates to a channel monitoring method in a multi-channel optical transmission system. In a multi-channel system using wavelength division multiple optical transmission technology, the wavelength interval of each light source is aligned and transmitted through optical fibers before and after optical multiplexing and demultiplexing. To monitor the average intensity of the optical signal, the optical coupler is used to separate the optical signal before and after the optical multiplex and demultiplex to monitor the optical intensity of the optical signal for each channel, and the optical detector to investigate the magnitude of the separated signal. Using a microprocessor and amplifier, can be managed by a microprocessor, and also stabilizes the temperature of the optical multiple / demultiplexing element to make the transmission optical frequency constant according to the temperature change, to facilitate maintenance in a multi-channel optical transmission system The temperature control wavelength can be stabilized by stabilizing the optical multiplexing / demultiplexing device using a thermostat. The effect can be.

Description

Channel Monitoring Method for Multichannel Optical Transmission System

The present invention relates to a channel monitoring method in a multichannel optical transmission system.

Optical frequency division multiplexing, which transmits light through a single fiber optic transmission path by multiplexing channels having different optical frequencies or wavelengths, is an optical transmission technology that maximizes transmission capacity. A filter grating is used to extract the wavelength of the desired channel.

Conventional channel monitoring methods include a method of monitoring a channel using a modulated signal by modulating a laser diode at a low frequency and a method of monitoring by inserting a separate monitoring channel wavelength.

The channel monitoring method using a modulated signal by modulating the laser diode at a low frequency requires modulating each laser diode at a low frequency and requires a complicated circuit configuration to separate the modulated signal.

In addition, the method of inserting a monitoring channel requires a separate laser diode for monitoring and requires a separate channel for monitoring the channel.

In order to solve the above problems, the present invention, in the multi-channel optical transmission system using the wavelength division multiplexing optical transmission technology, the light intensity monitoring of each channel and the multiplexed optical signal before and after multiplexing the multi-channel light, and the optical signal before the demultiplexer The purpose of the present invention is to provide a channel monitoring method using multiple / demultiplexers, optical couplers, optical detectors, and microprocessors as a method for monitoring the optical intensity of optical signals of each channel demultiplexed with the optical intensity of the optical signal.

In the wavelength multi-channel optical transmission system, optical signal per channel before and after optical signal multiplexing, multiple optical signal monitoring, multiple optical signal before and after multiplexing, and optical signal monitoring per channel are essential for system maintenance.

For this purpose, it is convenient to monitor the signals in the input / output optical fiber of the multiplexing device which multiplexes the light beams per channel from the laser diode and the demultiplexing device which demultiplexes the multiplexed signal.

In the multi-channel optical transmission system, the optical signal of each channel can be monitored by separating the optical signal from the laser diode into the optical detector by separating a part of the light guided by the optical coupler and converting the optical signal into an electrical signal. .

The monitoring of the multiplexed output signal may be performed by converting a part of the multiplexed and guided light beams by using an optocoupler to separate a part of the guided light beams and inserting the optical signal into an optical detector.

In the same way, it is also necessary to monitor the signals entering the wide multiplexer and the demultiplexed channel signals.

1 is an exemplary channel monitoring method before and after optical multiplex in a multi-channel optical transmission system to which the present invention is applied;

2 is an exemplary channel monitoring method before and after multiplexing in multi-channel optical transmission according to the present invention.

<Description of Symbols for Main Parts of Drawings>

1-1, ......, 1-16,1-17: Optocoupler 2-1: Optical Multiplexing Device

2-2: multiplexer 3: temperature controller

4-1, ......, 4-17: Photodetector 5-1, ....., 5-17: Amplifier

6: Multiplexer 7: A / D

8: D / A 9: Decoder

10: alarm signal circuit

In order to achieve the above object, the present invention, by separating the optical signal for each channel and the multiple optical signal with an optical separator before and after the multiplexing device to monitor through a photo detector, and the optical signal and the optical signal for each channel multiplexed before and after the demultiplexing device It is characterized by separating by the optical separator and monitoring through the photodetector.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a channel monitoring method before and after optical multiplexing in a multi-channel optical transmission system to which the present invention is applied, and an optical signal emitted from a laser is modulated by a modulator and transmitted through an optical fiber at an output of a modulator.

The optical signal transmitted through the optical fiber is connected to the optical connector before being multiplexed to separate a part of the light wave guided by the optical coupler (1-1, ......, 1-16) and the photodetector 4-1. 4-16), and the rest of the light is guided and enters the optical multiplexer (2) to be multiplexed.

Light rays entering the optical multiplexer 2-1 separate a part of the multiplexed light rays from the optical coupler 1-17, enter the photodetector 4-17, and the remaining light rays are transmitted.

The optical signals entered into the photodetectors 4-1,..., And 4-17 are converted into electrical signals and amplified by the amplifiers 5-1,..., 5-17, respectively. Signals entering the multiplexer 6 and entering the multiplexer are changed to analog / digital (hereinafter referred to as A / D) so that the signal can be connected to a computer through a decoder (DECODER) 9 to check for abnormalities. .

When the size of each converted signal is smaller than the set value, the alarm signal can be displayed through a light emitting diode (hereinafter, referred to as LED) through the circuit 10 for indicating the alarm signal.

The temperature controller 3 determines the reference transmission wavelength by keeping the temperature of the optical multiplexer 2-1 constant.

2 is a diagram illustrating a method for monitoring a channel before and after multiplexing in multi-channel optical transmission according to the present invention, in which a signal multiplexed and transmitted through an optical fiber is connected through an optical connector and guided by an optical coupler (1-17) Some of the light beams are separated and sent to the photodetector 4-17, and the remaining light beams are guided to enter the multiplexer 2-2.

Light rays entering the demultiplexer are separated by channel and come out through the optical fiber, and part of the light rays by channel through each optical fiber is separated by the optocoupler (1-1, ......., 1-16). Are sent to the photodetectors 4-1,..., 4-16, respectively.

The optical signals entering the photo detector are converted into electrical signals and amplified by the amplifiers 5-1,..., 5-17, respectively, into the multiplexer 6, and the signals entering the multiplexer 6 It is A / D converted and connected to the computer through the decoder 9 to check whether there is an abnormality for each channel.

When the magnitude of each converted electrical signal is smaller than the set value, the alarm signal can be displayed through the LED through the circuit 10 for indicating the alarm signal.

The temperature controller 3 determines the reference transmission wavelength by making the temperature of the demultiplexer 2-2 constant.

As described above, the present invention separates a signal using an optical coupler before and after the optical multiplexer / demultiplexer which is used as the optical multiplex demultiplexer, and converts the optical signal into an electrical signal using an optical detector to detect an abnormality of a channel. To be monitored.

This facilitates maintenance in a multi-channel optical transmission system, and stabilizes the optical multiplexing and demultiplexing apparatus using a temperature controller, thereby making it possible to make the reference transmission wavelength constant.

Claims (3)

In the channel monitoring method using a multi / demultiplexer, an optical coupler, a photodetector, a microprocessor in a multi-channel optical transmission system using wavelength division multiplex optical transmission technology, A first step of separating the optical signals for each channel and the multiple optical signals into optical splitters before and after the multiplexing apparatus and monitoring the optical signals through an optical detector; And a second process of separating the multiplexed optical signals and the channel-specific optical signals before and after the demultiplexing apparatus into an optical separator and monitoring the optical signals through an optical detector. The method of claim 1, wherein the first process is A first step of connecting the optical signal transmitted through the optical fiber to the optical connector before multiplexing, separating a part of the light guided through the optical coupler, and sending the remaining light to the optical detector; A second step of separating some of the multiplexed rays of the light rays entering the optical multiplexing device from the optocoupler and sending the light rays to the photodetector; A third step of converting optical signals entered into the photodetectors into electrical signals, amplifying each of the optical signals through an amplifier, and sending them to a multiplexer; A fourth step of analogue / digital changing the signals input to the multiplexer and connecting the signals to a computer through a decoder to check for abnormalities; A fifth step of displaying the alarm signal through the light emitting diode through a circuit for indicating the alarm signal when the magnitude of each converted signal is smaller than the set value; And a sixth step of determining a reference transmission wavelength by setting a constant temperature of the demultiplexer through a temperature controller. The method of claim 1, wherein the second process A first step of optically multiplexing a signal transmitted through the optical fiber through an optical connector to separate a part of the multiplexed light guided by the optical coupler, and to send the remaining light to a photodetector; A second step of separating the light beams entering the demultiplexer into the channel and exiting the light beams through the optical fiber, and separating a part of the light beams from the channel through the optical coupler through the optical coupler and respectively sending the light beams to the photodetectors; A third step of converting optical signals entering the photo detector into electrical signals, amplifying each of them in an amplifier, and sending the signals to a multiplexer; A fourth step of A / D converting the signals input to the multiplexer and connecting them to a computer through a decoder to check for abnormalities for each channel; A fifth step of displaying the alarm signal through the LED through a circuit for indicating the alarm signal when the magnitude of each converted electric signal is smaller than the set value; And a sixth step of determining a reference transmission wavelength by making it constant through a temperature controller temperature controller of the demultiplexer.