JP3268605B2 - Optical amplification repeater transmission system - Google Patents
Optical amplification repeater transmission systemInfo
- Publication number
- JP3268605B2 JP3268605B2 JP22042592A JP22042592A JP3268605B2 JP 3268605 B2 JP3268605 B2 JP 3268605B2 JP 22042592 A JP22042592 A JP 22042592A JP 22042592 A JP22042592 A JP 22042592A JP 3268605 B2 JP3268605 B2 JP 3268605B2
- Authority
- JP
- Japan
- Prior art keywords
- optical
- signal
- output level
- control signal
- level
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Classifications
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04J—MULTIPLEX COMMUNICATION
- H04J14/00—Optical multiplex systems
- H04J14/02—Wavelength-division multiplex systems
- H04J14/0221—Power control, e.g. to keep the total optical power constant
Landscapes
- Engineering & Computer Science (AREA)
- Computer Networks & Wireless Communication (AREA)
- Signal Processing (AREA)
- Photo Coupler, Interrupter, Optical-To-Optical Conversion Devices (AREA)
- Optical Communication System (AREA)
Description
【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION
【0001】[0001]
【産業上の利用分野】本発明は、端局装置から光伝送路
に送出された光伝送信号を光増幅して中継する光増幅中
継伝送システムに関する。特に、光伝送路内の光増幅中
継伝送装置における光増幅器の光出力レベルを制御する
技術に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical amplification repeater transmission system for optically amplifying and relaying an optical transmission signal transmitted from a terminal device to an optical transmission line. In particular, the present invention relates to a technique for controlling an optical output level of an optical amplifier in an optical amplification repeater transmission device in an optical transmission line.
【0002】[0002]
【従来の技術】図7は、従来の光増幅中継伝送システム
の構成例を示すブロック図である。図において、端局装
置70に接続される光ファイバ伝送路71には、所定の
位置に光増幅中継伝送装置80が挿入される。光増幅中
継伝送装置80の光増幅器81の光出力レベルの制御に
用いられる光出力レベル制御信号aは、端局装置70の
ALC信号発生器72から変調器73に入力され、振幅
変調によって光伝送信号bに重畳して光ファイバ伝送路
71に送出される。2. Description of the Related Art FIG. 7 is a block diagram showing a configuration example of a conventional optical amplification repeater transmission system. In the figure, an optical amplification repeater transmission device 80 is inserted at a predetermined position in an optical fiber transmission line 71 connected to a terminal device 70. An optical output level control signal a used for controlling the optical output level of the optical amplifier 81 of the optical amplifying repeater transmission device 80 is input from the ALC signal generator 72 of the terminal device 70 to the modulator 73, and the optical transmission is performed by amplitude modulation. The signal b is transmitted to the optical fiber transmission line 71 while being superimposed on the signal b.
【0003】光出力レベル制御信号aが重畳された光信
号は、光ファイバ伝送路71を伝送中に減衰して光増幅
中継伝送装置80の光増幅器81に到達する。このと
き、重畳されている光出力レベル制御信号aは光伝送信
号bと等しい減衰を受けているので、光増幅中継伝送装
置80では光出力レベル制御信号aを用いて光伝送信号
bのレベル制御を行う。[0003] The optical signal on which the optical output level control signal a is superimposed attenuates during transmission through the optical fiber transmission line 71 and reaches the optical amplifier 81 of the optical amplification repeater transmission device 80. At this time, since the superimposed optical output level control signal a has undergone the same attenuation as the optical transmission signal b, the optical amplification repeater 80 uses the optical output level control signal a to control the level of the optical transmission signal b. I do.
【0004】すなわち、光増幅器81で増幅された光信
号は、分岐回路82でその一部が分岐され、さらに光/
電気変換器(O/E)83を介してALC信号検出部8
4に入力され、光出力レベル制御信号aのレベルが検出
される。比較器85は、この光出力レベル制御信号aの
レベルと、あらかじめ設定してある参照レベルcとを比
較し、差分信号を光増幅器出力制御部86に送出する。
光増幅器出力制御部86は、その差分信号に応じて光出
力レベル制御信号aのレベルが参照レベルcに一致する
ように光増幅器81を制御する。光増幅器出力制御部8
6は、光増幅器81が光ファイバ型であれば励起光源の
光電力制御を行い、半導体レーザ型であれば注入電流の
制御を行うことにより、光出力レベルを制御することが
できる。That is, a part of the optical signal amplified by the optical amplifier 81 is branched by the branch circuit 82 and
ALC signal detector 8 via electrical converter (O / E) 83
4 and the level of the optical output level control signal a is detected. The comparator 85 compares the level of the optical output level control signal a with a preset reference level c, and sends a difference signal to the optical amplifier output controller 86.
The optical amplifier output control unit 86 controls the optical amplifier 81 according to the difference signal so that the level of the optical output level control signal a matches the reference level c. Optical amplifier output controller 8
6 controls the optical power of the pumping light source when the optical amplifier 81 is an optical fiber type, and controls the injection current when the optical amplifier 81 is a semiconductor laser type, thereby controlling the optical output level.
【0005】[0005]
【発明が解決しようとする課題】ところで、従来の光増
幅中継伝送装置80の構成では、光増幅器81の光出力
レベルがあらかじめ設定されている参照レベルcにより
決定される。したがって、中継区間の損失変動や、光伝
送信号の伝送速度あるいは多重波長数に変更があった場
合でも、それに応じた光出力レベルを設定することは不
可能であった。By the way, in the configuration of the conventional optical amplification repeater transmission device 80, the optical output level of the optical amplifier 81 is determined by a preset reference level c. Therefore, it is impossible to set the optical output level in accordance with the loss fluctuation in the relay section or the change in the transmission speed of the optical transmission signal or the number of multiplexed wavelengths.
【0006】本発明は、光伝送信号を中継する光増幅器
の光出力レベル制御を端局装置からの遠隔制御により行
い、中継区間の損失変動や光伝送信号の伝送速度あるい
は多重波長数に変更に柔軟に対応させることができる光
増幅中継伝送システムを提供することを目的とする。According to the present invention, the optical output level of an optical amplifier for relaying an optical transmission signal is controlled by remote control from a terminal device, and the loss fluctuation in a relay section, the transmission speed of an optical transmission signal, or the number of multiplexed wavelengths can be changed. It is an object of the present invention to provide an optical amplification repeater transmission system that can flexibly cope with it.
【0007】[0007]
【0008】[0008]
【課題を解決するための手段】 請求項1 に記載の発明
は、端局装置は、光出力レベル制御信号の周波数を可変
する周波数制御手段を備え、光増幅中継伝送装置は、光
出力レベル制御信号の周波数に対応したレベルを検出す
る周波数依存型レベル検出手段を備えたことを特徴とす
る。 According to a first aspect of the present invention, a terminal device includes frequency control means for varying the frequency of an optical output level control signal, and the optical amplifying repeater transmission apparatus includes an optical output level control device. A frequency-dependent level detecting means for detecting a level corresponding to the frequency of the signal is provided.
【0009】[0009]
【0010】[0010]
【作用】従来の光増幅中継伝送システムの問題点は、光
出力レベル制御信号およびそのレベルと比較される参照
レベルがともに固定であったことに起因する。The problem of the conventional optical amplification repeater transmission system is that the optical output level control signal and the reference level to be compared with the level are both fixed.
【0011】したがって、本発明では、端局装置側で
光出力レベル制御信号のレベルを可変するか、光出力
レベル制御信号の周波数を可変し、光増幅中継伝送装置
の光出力レベル制御機能に周波数依存性を持たせるか、
端局装置からの遠隔制御によって参照レベルを可変さ
せ、光出力レベル制御信号aと参照レベルcとの差を強
制的に作ることにより、端局装置側から光増幅中継伝送
装置の光増幅器における光出力レベルを最適に制御する
ことができる。すなわち、中継区間の損失変動や光伝送
信号の伝送速度あるいは多重波長数の変更に対応した柔
軟な光出力レベル制御を実現させることができる。Therefore, according to the present invention, the terminal equipment changes the level of the optical output level control signal or the frequency of the optical output level control signal, and the To have dependencies,
By varying the reference level by remote control from the terminal equipment and forcibly creating a difference between the optical output level control signal a and the reference level c, the optical power in the optical amplifier of the optical amplifying repeater transmission device is transmitted from the terminal equipment. The output level can be controlled optimally. That is, it is possible to realize flexible optical output level control corresponding to a change in the loss of the relay section, a change in the transmission speed of the optical transmission signal, or a change in the number of multiplexed wavelengths.
【0012】[0012]
【実施例】図1は、本発明の参考例の構成を示すブロッ
ク図である。図において、光ファイバ伝送路71に挿入
されて光伝送信号の光増幅を行う光増幅中継伝送装置8
0は、従来と同様に光増幅器81,分岐回路82,光/
電気変換器(O/E)83,ALC信号検出部84,比
較器85,光増幅器出力制御部86により構成される。FIG. 1 is a block diagram showing the configuration of a reference example of the present invention . In the figure, an optical amplification repeater transmission device 8 inserted into an optical fiber transmission line 71 and performing optical amplification of an optical transmission signal
0 indicates the optical amplifier 81, the branch circuit 82, the optical /
It comprises an electrical converter (O / E) 83, an ALC signal detector 84, a comparator 85, and an optical amplifier output controller 86.
【0013】本参考例の特徴とするところは、端局装置
10において、ALC信号発生器72と変調器73との
間に、光出力レベル制御信号のレベル制御手段として可
変減衰器11を備えた構成にある。この可変減衰器11
の減衰量を制御して光出力レベル制御信号aのレベルを
可変させ、変調器73で光伝送信号bに重畳する際の変
調度を変えることにより、光増幅中継伝送装置80の参
照レベルcとの差を強制的に作り出すことができる。The feature of this embodiment is that the terminal device 10 has a variable attenuator 11 between the ALC signal generator 72 and the modulator 73 as a level control means for an optical output level control signal. In the configuration. This variable attenuator 11
The level of the optical output level control signal a is varied by controlling the amount of attenuation of the optical transmission signal b, and the modulation level when superimposed on the optical transmission signal b is changed by the modulator 73. Difference can be forcibly created.
【0014】すなわち、端局装置70の可変減衰器11
において光出力レベル制御信号aのレベルを制御するこ
とにより、光増幅中継伝送装置80の光増幅器81の光
出力レベルを変化させることができる。これにより、中
継区間の損失変動や光伝送信号の伝送速度あるいは多重
波長数に変更が生じた場合には、光出力レベル制御信号
aのレベルを可変させることにより、光増幅中継伝送装
置80の光出力レベルを最適に制御することができる。That is, the variable attenuator 11 of the terminal device 70
By controlling the level of the optical output level control signal a in the above, the optical output level of the optical amplifier 81 of the optical amplification repeater transmission device 80 can be changed. As a result, in the event that a change in the loss of the relay section or a change in the transmission speed or the number of multiplexed wavelengths of the optical transmission signal occurs, the level of the optical output level control signal a is varied, thereby making the optical amplification The output level can be controlled optimally.
【0015】図2は、請求項1に記載の発明の第一実施
例の構成を示すブロック図である。図において、本実施
例の端局装置20は、光出力レベル制御信号aの周波数
を変えることができるALC信号発生器21を備え、光
増幅中継伝送装置30のALC信号検出部31に、図3
に示すような検出レベルの周波数依存性をもたせること
を特徴とする。その他の構成は、従来のものと同様であ
る。[0015] Figure 2 is a block diagram showing a configuration of a first embodiment of the invention described in claim 1. In the figure, the terminal device 20 of the present embodiment includes an ALC signal generator 21 that can change the frequency of the optical output level control signal a.
It is characterized in that the detection level has frequency dependency as shown in FIG. Other configurations are the same as the conventional one.
【0016】図3において、横軸はALC信号検出部3
1で検出された光出力レベル制御信号aの周波数を示
し、縦軸はALC信号検出部31から出力される光出力
レベル制御信号aのレベルを示す。また、実線は光出力
レベル制御信号aの周波数特性を示し、一点鎖線は参照
レベルcを示す。In FIG. 3, the horizontal axis represents the ALC signal detector 3.
1 indicates the frequency of the optical output level control signal a detected, and the vertical axis indicates the level of the optical output level control signal a output from the ALC signal detector 31. The solid line indicates the frequency characteristic of the optical output level control signal a, and the dashed line indicates the reference level c.
【0017】ここに示すように、端局装置20のALC
信号発生器21で光出力レベル制御信号aの周波数を変
えることにより、光増幅中継伝送装置30のALC信号
検出部31で検出される光出力レベル制御信号aのレベ
ルが変わり、図1に示す実施例と同様に参照レベルcと
の差を強制的に作り出すことができる。したがって、中
継区間の損失変動や光伝送信号の伝送速度あるいは多重
波長数に変更が生じた場合には、光出力レベル制御信号
aの周波数を可変させることにより、光増幅中継伝送装
置30の光出力レベルを最適に制御することができる。As shown here, the ALC of the terminal device 20 is
By changing the frequency of the optical output level control signal a by the signal generator 21, the level of the optical output level control signal a detected by the ALC signal detector 31 of the optical amplifying repeater transmission device 30 is changed. As in the example, a difference from the reference level c can be forcibly created. Therefore, when a change in the loss of the repeater section or a change in the transmission speed or the number of multiplexed wavelengths of the optical transmission signal occurs, the frequency of the optical output level control signal a is varied to thereby control the optical output of the optical amplification relay transmission apparatus 30. The level can be controlled optimally.
【0018】図4は、請求項1に記載の発明の第二実施
例の構成を示すブロック図である。図において、本実施
例の端局装置20は光出力レベル制御信号aの周波数を
変えることができるALC信号発生器21を備え、光増
幅中継伝送装置40はALC信号検出部84と比較器8
5との間に、周波数に依存した出力レベルを得るフィル
タ41を備えたことを特徴とする。その他の構成は、第
一実施例と同様である。[0018] FIG. 4 is a block diagram showing a configuration of a second embodiment of the invention described in claim 1. In the figure, the terminal device 20 of the present embodiment includes an ALC signal generator 21 that can change the frequency of the optical output level control signal a, and the optical amplification repeater transmission device 40 includes an ALC signal detector 84 and a comparator 8.
5, a filter 41 for obtaining an output level dependent on frequency is provided. Other configurations are the same as in the first embodiment.
【0019】本実施例では、光増幅中継伝送装置40の
ALC信号検出部84で検出された光出力レベル制御信
号aは、フィルタ41を通すことにより、端局装置20
のALC信号発生器21で設定された光出力レベル制御
信号aの周波数に対応したレベルとなり、第一実施例と
同様に参照レベルcとの差を強制的に作り出すことがで
きる。したがって、中継区間の損失変動や光伝送信号の
伝送速度あるいは多重波長数に変更が生じた場合には、
光出力レベル制御信号aの周波数を可変させることによ
り、光増幅中継伝送装置40の光出力レベルを最適に制
御することができる。In this embodiment, the optical output level control signal a detected by the ALC signal detector 84 of the optical amplifying repeater transmission device 40 is passed through the filter 41 so that the terminal device 20
The level becomes the level corresponding to the frequency of the optical output level control signal a set by the ALC signal generator 21, and the difference from the reference level c can be forcibly created as in the first embodiment. Therefore, if there is a change in the loss fluctuation of the relay section, the transmission speed of the optical transmission signal, or the number of multiplexed wavelengths,
By varying the frequency of the optical output level control signal a, the optical output level of the optical amplifying repeater transmission device 40 can be optimally controlled.
【0020】図5は、本発明の参考例の構成を示すブロ
ック図である。図において、本実施例の端局装置50
は、例えば特願平3−19046号「中継伝送装置」に
示す構成により、光増幅中継伝送装置60の参照レベル
cを変える遠隔制御信号を送出する機能を備える。ま
た、光増幅中継伝送装置60は、端局装置50から転送
された遠隔制御信号を検出する遠隔制御信号検出部61
と、検出された遠隔制御信号に応じて比較器85に与え
る参照レベルを設定する処理部62とを備える。その他
の構成は、従来のものと同様である。FIG. 5 is a block diagram showing the configuration of a reference example of the present invention . In the figure, the terminal device 50 of the present embodiment is shown.
Has a function of transmitting a remote control signal for changing the reference level c of the optical amplification relay transmission device 60, for example, according to the configuration shown in Japanese Patent Application No. 3-19046 "Relay Transmission Device". The optical amplifying repeater 60 transmits a remote control signal detector 61 for detecting a remote control signal transferred from the terminal device 50.
And a processing unit 62 for setting a reference level to be given to the comparator 85 in accordance with the detected remote control signal. Other configurations are the same as the conventional one.
【0021】処理部62では、図6に示すように、遠隔
制御信号ref1,ref2 に応じた参照レベルc1,c2を出
力することにより、上述した実施例と同様に光出力レベ
ル制御信号aと参照レベルcとの差を強制的に作り出す
ことができる。したがって、中継区間の損失変動や光伝
送信号の伝送速度あるいは多重波長数に変更が生じた場
合には、端局装置50から対応する遠隔制御信号を送出
させることにより、光増幅中継伝送装置60の光出力レ
ベルを最適に制御することができる。As shown in FIG. 6, the processing section 62 outputs the reference levels c1 and c2 in accordance with the remote control signals ref1 and ref2, and thereby outputs the light output level control signal a and the reference signal a in the same manner as in the above-described embodiment. The difference from the level c can be forcibly created. Therefore, when a change in the loss of the relay section or a change in the transmission speed or the number of multiplexed wavelengths of the optical transmission signal occurs, the corresponding remote control signal is transmitted from the terminal device 50 so that the optical amplification relay transmission device 60 The light output level can be controlled optimally.
【0022】なお、光ファイバ伝送路71を建設する場
合には、あらかじめ光増幅中継伝送装置間の光ファイバ
損失を測定しておくので、端局装置ではこの測定値を基
に、光出力レベル制御信号aのレベルあるいは周波数を
設定し、また対応する参照レベルcを設定させる遠隔制
御信号を送出すことにより、各光増幅中継伝送装置にお
ける光出力レベルを最適に制御する。When the optical fiber transmission line 71 is constructed, the optical fiber loss between the optical amplifying repeater transmission devices is measured in advance. By transmitting a remote control signal for setting the level or frequency of the signal a and setting the corresponding reference level c, the optical output level in each optical amplification repeater transmission device is optimally controlled.
【0023】また、光増幅中継伝送システムでは、通
常、各光増幅中継伝送装置の入出力レベルを遠隔制御で
モニタできる機能を備えている(KEC発行「光海底ケ
ーブル通信」,第7章(pp.205〜215)) 。このモニタ情
報から光ファイバ伝送路71の損失や、環境温度変動や
経時変化による光増幅器81の利得変動を推定し、これ
を補償するように端局装置において、光出力レベル制御
信号aのレベルあるいは周波数を設定し、また対応する
参照レベルcを設定させる遠隔制御信号を送出すことに
より、光増幅中継伝送装置の光出力レベルを変化させ
る。Also, the optical amplification repeater transmission system usually has a function of monitoring the input / output level of each optical amplifier repeater by remote control ("Optical Submarine Cable Communication" published by KEC, Chapter 7 (pp. .205-215)). From the monitor information, the loss of the optical fiber transmission line 71 and the gain fluctuation of the optical amplifier 81 due to the environmental temperature fluctuation and the aging change are estimated, and the terminal equipment sets the level of the optical output level control signal a or By transmitting a remote control signal for setting a frequency and setting a corresponding reference level c, the optical output level of the optical amplifying repeater transmission apparatus is changed.
【0024】また、伝送速度や多重波長数の増加に対す
る各光増幅中継伝送装置の光出力レベルの最適値はあら
かじめ設計されているので、その設計値に合わせるよう
に光出力レベル制御信号aのレベルあるいは周波数を設
定し、また対応する参照レベルcを設定させる遠隔制御
信号を送出することにより、光増幅中継伝送装置の光出
力レベルを最適に制御する。Also, since the optimum value of the optical output level of each optical amplifying repeater transmission device with respect to the increase of the transmission speed and the number of multiplexed wavelengths is designed in advance, the level of the optical output level control signal a is adjusted to the designed value. Alternatively, the optical output level of the optical amplifying repeater transmission apparatus is optimally controlled by setting a frequency and transmitting a remote control signal for setting a corresponding reference level c.
【0025】[0025]
【発明の効果】以上説明したように本発明は、端局装置
からの遠隔制御により、各光増幅中継伝送装置の光増幅
器に求められる最適な光出力レベルを制御することがで
きる。これにより、実際の光ファイバ伝送路の光損失
に応じて、光増幅器の光出力レベルを最適化することが
できる。光ファイバ伝送路の損失や光増幅器の増幅特
性の環境温度変動や経時変動に対して、光増幅器の光出
力レベルを適正に保つことができる。光増幅中継伝送
システムにおいて、伝送速度を変更したり、光波長多重
数を変更した場合でも、各光増幅器の光出力レベルを最
適に調整することができる。As described above, according to the present invention, the optimum optical output level required for the optical amplifier of each optical amplifying repeater transmission device can be controlled by remote control from the terminal equipment. Thereby, the optical output level of the optical amplifier can be optimized according to the actual optical loss of the optical fiber transmission line. The optical output level of the optical amplifier can be appropriately maintained with respect to the loss of the optical fiber transmission line and the environmental temperature fluctuation and the temporal fluctuation of the amplification characteristic of the optical amplifier. In the optical amplification repeater transmission system, the optical output level of each optical amplifier can be adjusted optimally even when the transmission speed is changed or the number of optical wavelength multiplexes is changed.
【0026】なお、これらの効果は、光ファイバ伝送路
を一旦建設した後では容易に光増幅中継伝送装置を取り
替えることができない海底伝送システムにおいて特に有
効である。These effects are particularly effective in a submarine transmission system in which once an optical fiber transmission line is once constructed, an optical amplification repeater transmission device cannot be easily replaced.
【図1】本発明の参考例の構成を示すブロック図。FIG. 1 is a block diagram showing a configuration of a reference example of the present invention .
【図2】請求項1に記載の発明の第一実施例の構成を示
すブロック図。FIG. 2 is a block diagram showing a configuration of a first embodiment of the invention described in claim 1 ;
【図3】ALC信号検出部31の周波数特性を示す図。FIG. 3 is a diagram illustrating frequency characteristics of an ALC signal detection unit 31;
【図4】請求項1に記載の発明の第二実施例の構成を示
すブロック図。FIG. 4 is a block diagram showing a configuration of a second embodiment of the invention described in claim 1 ;
【図5】本発明の参考例の構成を示すブロック図。FIG. 5 is a block diagram showing a configuration of a reference example of the present invention .
【図6】遠隔制御信号と参照レベルcとの関係を示す
図。FIG. 6 is a diagram showing a relationship between a remote control signal and a reference level c.
【図7】従来の光増幅中継伝送システムの構成例を示す
ブロック図。FIG. 7 is a block diagram showing a configuration example of a conventional optical amplification repeater transmission system.
10,20,50,70 端局装置 11 可変減衰器(レベル制御手段) 21 ALC信号発生器(周波数制御手段) 31 ALC信号検出部(周波数依存型レベル検出手
段) 41 フィルタ(周波数依存型レベル検出手段) 61 遠隔制御信号検出部(参照レベル制御手段) 62 処理部(参照レベル制御手段) 71 光ファイバ伝送路 72 ALC信号発生器 73 変調器 81 光増幅器 82 分岐回路 83 光/電気変換器(O/E) 84 ALC信号検出部 85 比較器 86 光増幅器出力制御部10, 20, 50, 70 Terminal equipment 11 Variable attenuator (level control means) 21 ALC signal generator (frequency control means) 31 ALC signal detection unit (frequency-dependent level detection means) 41 Filter (frequency-dependent level detection) Means) 61 Remote control signal detection unit (reference level control unit) 62 Processing unit (reference level control unit) 71 Optical fiber transmission line 72 ALC signal generator 73 Modulator 81 Optical amplifier 82 Branch circuit 83 Optical / electrical converter (O) / E) 84 ALC signal detector 85 Comparator 86 Optical amplifier output controller
フロントページの続き (56)参考文献 特開 平1−93224(JP,A) 特開 平4−204719(JP,A) 特開 平4−8023(JP,A) 特開 平3−9626(JP,A) (58)調査した分野(Int.Cl.7,DB名) H04B 10/00 - 10/28 H04J 14/00 - 14/08 Continuation of the front page (56) References JP-A-1-93224 (JP, A) JP-A-4-204719 (JP, A) JP-A-4-8023 (JP, A) JP-A-3-9626 (JP) , A) (58) Fields studied (Int. Cl. 7 , DB name) H04B 10/00-10/28 H04J 14/00-14/08
Claims (1)
光伝送信号に重畳して光伝送路に送出する端局装置と、 前記光伝送路内で前記光伝送信号に重畳された光出力レ
ベル制御信号を検出し、そのレベルと所定の参照レベル
とを比較して前記光伝送信号を光増幅する光増幅器の光
出力レベルを一定に制御する光増幅中継伝送装置とを備
えた光増幅中継伝送システムにおいて、 前記端局装置は、前記光出力レベル制御信号の周波数を
可変する周波数制御手段を備え、 前記光増幅中継伝送装置は、前記光出力レベル制御信号
の周波数に対応したレベルを検出する周波数依存型レベ
ル検出手段を備えたことを特徴とする光増幅中継伝送シ
ステム。1. A terminal device for superimposing an optical output level control signal on an optical transmission signal by amplitude modulation and transmitting the signal to an optical transmission line, and an optical output level control superimposed on the optical transmission signal in the optical transmission line. An optical amplifying repeater transmission system comprising: an optical amplifying repeater transmitting device that detects a signal, compares the level with a predetermined reference level, and controls the optical output level of an optical amplifier that amplifies the optical transmission signal to be constant. In the terminal device, the terminal device includes frequency control means for changing a frequency of the optical output level control signal, and the optical amplification repeater transmission device detects a level corresponding to a frequency of the optical output level control signal. An optical amplification repeater transmission system comprising a mold level detecting means.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP22042592A JP3268605B2 (en) | 1992-08-19 | 1992-08-19 | Optical amplification repeater transmission system |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP22042592A JP3268605B2 (en) | 1992-08-19 | 1992-08-19 | Optical amplification repeater transmission system |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH0669890A JPH0669890A (en) | 1994-03-11 |
| JP3268605B2 true JP3268605B2 (en) | 2002-03-25 |
Family
ID=16750916
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP22042592A Expired - Lifetime JP3268605B2 (en) | 1992-08-19 | 1992-08-19 | Optical amplification repeater transmission system |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP3268605B2 (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US8208812B2 (en) | 2006-05-25 | 2012-06-26 | Mitsubishi Electric Corporation | Optical relay device and optical relay transmission system |
Families Citing this family (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| DE19538753A1 (en) * | 1995-10-18 | 1997-04-24 | Bosch Gmbh Robert | Level control method for fiber optic transmission links |
| US5745274A (en) * | 1995-12-27 | 1998-04-28 | Lucent Technologies Inc. | Maintenance of optical networks |
| JPH09321701A (en) * | 1996-05-31 | 1997-12-12 | Fujitsu Ltd | Optical communication system and optical amplifier |
| JPH10327108A (en) | 1997-05-23 | 1998-12-08 | Nec Corp | Nb-wdm system and wavelength number setting system for the nb-wdm system |
| JP4937690B2 (en) * | 2006-10-05 | 2012-05-23 | Dxアンテナ株式会社 | Optical subscriber terminal |
| JP5277528B2 (en) * | 2006-10-11 | 2013-08-28 | 日本電気株式会社 | Surveillance system, optical transmission apparatus, optical transmission system, and monitoring level setting method |
-
1992
- 1992-08-19 JP JP22042592A patent/JP3268605B2/en not_active Expired - Lifetime
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US8208812B2 (en) | 2006-05-25 | 2012-06-26 | Mitsubishi Electric Corporation | Optical relay device and optical relay transmission system |
Also Published As
| Publication number | Publication date |
|---|---|
| JPH0669890A (en) | 1994-03-11 |
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