KR19980060350A - Channel Power Control System of Wavelength Division Multiplexing (WDM) System - Google Patents

Abstract

The present invention relates to a channel power control apparatus of a wavelength division multiplexing (WDM) system for controlling the power of each channel passing through an optical amplifier to be constant when the number of input channels changes.

The output stage of the conventional optical amplifier is always output at a constant power level, there is a problem that the gain response of each channel passing through the optical amplifier is different according to the number of channels input to the optical coupler.

In order to solve this problem, the present invention provides an optical coupler for multiplexing and outputting a signal according to the number of input channels, an adder filter for adding and filtering a signal output from the optical coupler and a signal output from a laser diode, An optical amplifier for optically amplifying and transmitting the signal, a power level detector for detecting a power level of the signal filtered from the addition filter through a tap, and an automatic power control unit for automatically controlling the power of the signal output from the power level detector. And a laser diode for generating laser light emission in accordance with a power signal automatically controlled from a power automatic control unit.

Description

Channel Power Control System of Wavelength Division Multiplexing (WDM) System

The present invention relates to a channel power control apparatus of a wavelength division multiplexing (WDM) system, and more particularly, to control the power of each channel that has passed through an optical amplifier when the number of input channels changes.

Channel power control apparatus of the conventional wavelength division multiplexing (WDM) system, as shown in Figure 4, an optical coupler (5) for receiving and multiplexing the four channels (1 to 4) consisting of different wavelengths, and the optical coupler It consists of an optical amplifier 6 which amplifies and transmits the signal output from (5).

The operation of the channel power control apparatus of the conventional wavelength division multiplexing (WDM) system configured as described above is as follows.

First, the optical coupler 5 receives and multiplexes 2.5G bps 4 channels 1 to 4 having different wavelengths and outputs them.

Here, the channel CHANNEL represents the wavelength WAVELENGTH.

Then, the optical amplifier 6 optically amplifies the signal output from the optical coupler 5 and transmits the signal at 10G bps.

At this time, the optical amplifier 6 always outputs a constant output power level (usually +12 dBm ± α), thereby enabling long-distance transmission.

However, in the channel power control device of the conventional WDM system, the output stage of the optical amplifier is always output at a constant power level. The gain response of each channel that has passed through the optical amplifier depends on the number of channels input to the optical coupler. There was a wrong problem.

Accordingly, an object of the present invention is to provide a channel power control apparatus of a wavelength division multiplexing (WDM) system for controlling the power of each channel passing through an optical amplifier to be constant when the number of input channels changes.

1 is a block diagram of a channel power control apparatus of a conventional wavelength division multiplexing (WDM) system.

2 is a block diagram of a channel power control apparatus of a wavelength division multiplexing (WDM) system according to the present invention;

Explanation of symbols for the main parts of the drawings

101 to 104: channel 1 to channel 4 105: optical coupler

106: addition filter 107: optical amplifier

108: tap 109: power level detector

110: automatic power control 111: laser diode

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

FIG. 2 is a block diagram illustrating a channel power control apparatus of a wavelength division multiplexing (WDM) system, and includes an optical coupler 105 for multiplexing and outputting the channel according to the number of channels 101 to 104 to be input. An adder filter 106 for adding and filtering the signal output from the optical coupler 105 and the signal output from the laser diode 111, and an optical amplifier for optically amplifying and transmitting the filtered signal from the adder filter 106 ( 107, a power level detector 109 for detecting the power level of the signal filtered from the addition filter 106 through the tap 108, and a power of the signal output from the power level detector 109. Power automatic control unit 110 for controlling the laser beam, and a laser diode 111 for generating laser light emission in accordance with the power signal automatically controlled from the power automatic control unit 110.

Referring to the operation and effect of the present invention configured as described above are as follows.

First, the optical coupler 105 is multiplexed according to the number of input channels 101 to 104 and output.

Then, the adder filter 106 adds the signal output from the optical coupler 105 and the signal output from the laser diode 111 to filter and output the added signal.

Accordingly, the optical amplifier 107 optically amplifies and transmits the signal filtered from the addition filter 106.

Meanwhile, the power level detector 109 detects and outputs the power level of the signal filtered from the addition filter 106 through the tap 108.

Here, the tap 108 is about 1% to 5% of the transmission line of the signal filtered from the addition filter 106.

Then, the power automatic controller 110 may or may not operate according to the number of channels 101 to 104 input to the optical coupler 105.

That is, the power level controller 110 operates when the number of channels input to the optical coupler 105 is 1 or 2 to 3 to automatically control and output the power of the signal output from the power level detector 109. .

Accordingly, the laser diode 111 generates laser light emission according to the power signal automatically controlled from the power automatic control unit 110.

Then, the add filter 106 adds and filters the signal emitted from the laser diode 111 and the signal output from the optical combiner 105.

Accordingly, the optical amplifier 107 optically amplifies and outputs the signal filtered by the addition filter 106.

In addition, the power level detection unit 109 repeats the above-described process by detecting and outputting the power level of the signal filtered from the addition filter 106 through the tap 108.

On the other hand, the power automatic control unit 110 does not operate if all four channels 101 to 104 input to the optical coupler 105 are inputted, and the signal filtered by the addition filter 106 is an optical amplifier ( Amplified by 107).

As described above, the present invention has the effect of controlling the power of each channel passing through the optical amplifier to be constant when the number of input channels changes.

Claims (1)

An adder filter for adding and filtering the optical coupler 105 multiplexed and output according to the number of input channels 101 to 104, and the signal output from the optical coupler 105 and the signal output from the laser diode 111; (106), an optical amplifier (107) for optically amplifying and transmitting the signal filtered from the add filter (106), and detecting the power level of the signal filtered from the add filter (106) through the tap (108). A power level detection unit 109 for controlling the power of the signal output from the power level detection unit 109, and a power signal automatically controlled by the power automatic control unit 110. And a laser diode (111) for generating a laser emission according to the channel power control apparatus of a wavelength division multiplexing (WDM) system.