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JPS584503B2 - Preliminary connection method for digital signal transmission line - Google Patents

Preliminary connection method for digital signal transmission line

Info

Publication number
JPS584503B2
JPS584503B2 JP53147321A JP14732178A JPS584503B2 JP S584503 B2 JPS584503 B2 JP S584503B2 JP 53147321 A JP53147321 A JP 53147321A JP 14732178 A JP14732178 A JP 14732178A JP S584503 B2 JPS584503 B2 JP S584503B2
Authority
JP
Japan
Prior art keywords
signal
address
working
transmission
service
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
Application number
JP53147321A
Other languages
Japanese (ja)
Other versions
JPS54100208A (en
Inventor
レギンハルト・ポスピシル
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Siemens AG
Original Assignee
Siemens AG
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Siemens AG filed Critical Siemens AG
Publication of JPS54100208A publication Critical patent/JPS54100208A/en
Publication of JPS584503B2 publication Critical patent/JPS584503B2/en
Expired legal-status Critical Current

Links

Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04BTRANSMISSION
    • H04B1/00Details of transmission systems, not covered by a single one of groups H04B3/00 - H04B13/00; Details of transmission systems not characterised by the medium used for transmission
    • H04B1/74Details of transmission systems, not covered by a single one of groups H04B3/00 - H04B13/00; Details of transmission systems not characterised by the medium used for transmission for increasing reliability, e.g. using redundant or spare channels or apparatus

Landscapes

  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Detection And Prevention Of Errors In Transmission (AREA)
  • Maintenance And Management Of Digital Transmission (AREA)
  • Time-Division Multiplex Systems (AREA)

Description

【発明の詳細な説明】 本発明は約2Mbit/sのビット速度と30個のチャ
ネルとを有する時分割多重方式で第1番目のチャネルと
第16番目のチャネルとの前に付加チャネルが挿入され
ており、その付加チャネル内で同期識別語や信号化情報
、ダイヤル情報等のサービス語を伝送するようにしたC
CITTの勧告G.732によるデイジタル信号のフレ
ーム構成を有するデイジタル現用系を予備系に接続する
デイジタルの信号伝送線路の予備接続方法に関する。
DETAILED DESCRIPTION OF THE INVENTION The present invention provides a time division multiplexing system having a bit rate of about 2 Mbit/s and 30 channels, in which an additional channel is inserted before the first channel and the 16th channel. A C that is designed to transmit service words such as synchronization identification words, signaling information, and dialing information within the additional channels.
CITT Recommendation G. The present invention relates to a preliminary connection method of a digital signal transmission line for connecting a digital working system having a digital signal frame structure according to G.732 to a protection system.

デイジタル伝送線路が頻繁に用いられるようになると、
自動的に障害のある現用系を予備系に切換えることが所
望される。
As digital transmission lines come into frequent use,
It is desirable to automatically switch a faulty working system to a backup system.

例えば(落雷などによって)遠隔給電装置が故障して少
くとも1つの線路パルス再生器に障害が発生した場合、
有効信号の伝送線路を障害のない予備系に切換える必要
がある。
If at least one line pulse regenerator fails, for example due to a failure of the remote power supply (e.g. due to a lightning strike),
It is necessary to switch the effective signal transmission line to a fault-free standby system.

斯様な場合のために、実際の現用系の他に少くとも1つ
の、場合によっては複数の予備系が設けてある。
For such cases, at least one, and possibly several, backup systems are provided in addition to the actual working system.

また予備系への切換は障害のある場合の他に、装置を保
守するためにも必要である。
Furthermore, switching to the standby system is necessary not only when there is a failure but also for equipment maintenance.

その場合特開昭51−53409号公報によって、予備
線路を介する接続を識別するために少くとも通信信号に
付加して伝送される監視信号または同期信号の1ビット
を用いることは公知である。
In this case, it is known from JP-A-51-53409 to use at least one bit of a supervisory signal or a synchronization signal, which is transmitted in addition to the communication signal, to identify the connection via the backup line.

本発明の課題は、予備系への切換が可能でありかつ予備
接続の場合でも殆んど伝送障害を発生しない予備系に接
続する方法を提供することである。
An object of the present invention is to provide a method for connecting to the protection system that allows switching to the protection system and hardly causes transmission failure even in the case of protection connection.

本発明によれはこの課題は、それぞれの接続線路の2つ
の接続個所と、対応する個々の端末装置との間に被制御
スイッチを挿入接続し、それらのスイッチによって接続
線路をそれぞれの対応する端末装置から予備系の端末装
置に切換え、被制御スイッチの制御入力側をそれぞれの
端局に設けられた制御装置に接続し、フレーム識別語と
サービス語との監視によって予備系を監視し、現用識別
信号または切換えるべき現用系のアドレスを有するサー
ビス信号を伝送するために、デイジクル現用系のサービ
ス語の第5、第6および第7のビットを用い、送信方向
への現用識別信号として警報禁止信号と警報指示信号さ
を示す警報信号を用い、現用系を予備系に接続するため
にサービス語の第5、第6および第7のビットによって
、切換えるべき現用系のアドレスを供給し、アドレスを
受信する予備系の端末装置から受領信号として、アドレ
スの伝送に用いられない場合のサービス語の第5、第6
および第7のビット組を、アドレスを送信する予備系の
端末装置に返送し、かつ現用系の端末装置に障害通報信
号が生じた場合は先ずサービス語の第5、第6および第
7のビットの情報内容を予備系の2つの伝送方向で検査
するようにしたことによって解決される。
According to the invention, this problem is achieved by inserting and connecting controlled switches between the two connection points of each connection line and the corresponding individual terminal devices, and by means of these switches controlling the connection lines to the respective corresponding terminals. Switch from the device to the standby system terminal equipment, connect the control input side of the controlled switch to the control device installed in each terminal station, monitor the standby system by monitoring the frame identification word and service word, and check the working identification To transmit a signal or a service signal with the address of the working system to be switched, the 5th, 6th and 7th bits of the service word of the working system are used as the working identification signal in the transmission direction and the alarm inhibit signal. Using the alarm signal indicating the alarm indication signal, the fifth, sixth and seventh bits of the service word provide and receive the address of the active system to be switched to in order to connect the active system to the protection system. The fifth and sixth service words are used as a reception signal from a standby terminal device and are not used for address transmission.
and the seventh bit set are sent back to the standby terminal device that transmits the address, and if a failure notification signal is generated in the active terminal device, the fifth, sixth, and seventh bits of the service word are first transmitted. This problem can be solved by checking the information content in two transmission directions in the backup system.

次に本発明の方法を図を用いて詳しく説明する。Next, the method of the present invention will be explained in detail using figures.

図はAとBの端局間に設けられた3つの現用系1,2お
よび3ならびは予備系4を有する伝送装置に接続された
予備接続用装置を原理的に示す。
The figure shows in principle a protection connection device connected to a transmission device having three working systems 1, 2 and 3 and a protection system 4 provided between the A and B terminal stations.

またそれぞれ端局AとBに予備接続を行う制御装置ST
A.STBが設けてある。
Also, a control device ST makes preliminary connections to terminal stations A and B, respectively.
A. A STB is provided.

図示の実施例においてすべての伝送系および予備系6す
、端局AとBに設けられた端末装置LEA1,LEA2
,LEA3 ,LEAE; LEB1 .LEB2
,LEB3,LEBEによって監視される。
In the illustrated embodiment, all transmission systems and standby systems 6, terminal devices LEA1 and LEA2 provided at terminal stations A and B
, LEA3 , LEAE; LEB1 . LEB2
, LEB3, and LEBE.

端局Aで検出された伝送系n(n=1.2.3.4)の
1つに生じた障害は、端局Aの障害通報信号An1とし
て送出され、相応して端局Bで検出された障害は端局B
の障害通報信号An2として送出される。
A fault occurring in one of the transmission systems n (n = 1.2.3.4) detected by terminal station A is sent out as a fault notification signal An1 of terminal station A, and detected by terminal station B accordingly. The fault that occurred is at terminal B.
It is sent out as a failure notification signal An2.

また予備系4の端末装置は端局AとBに、サービス信号
MAまたはMBをAからBまたはBからAへの伝送装置
に対するデイジタル付加情報の中に供給する装置を有し
、更にそれぞれ他方の端局BまたはAで、BからAまた
はAからBへ逆方向に供給されるサービス信号MBまた
はMAに対する出力側を有する。
Further, the terminal equipment of the protection system 4 has a device for supplying the service signal MA or MB to the terminal stations A and B in the digital additional information for the transmission device from A to B or from B to A, and furthermore, At the terminal station B or A, it has an output for a service signal MB or MA which is supplied from B to A or from A to B in the opposite direction.

すべての障害通報信号An1またはAn2、ならびに他
方の端局BまたはAで受信されたサービス信号MBまた
はMAは端局AまたはBの制御装置STAまたはSTB
に供給されかつこれらの制御装置で評価される。
All fault reporting signals An1 or An2 as well as service signals MB or MA received at the other terminal station B or A are connected to the control device STA or STB of the terminal station A or B.
and evaluated by these control devices.

これらの評価の結果としてサービス信号MAまたはMB
が送出されかつスイッチan1,an2またはbn1.
bn2が切換えられる。
As a result of these evaluations the service signal MA or MB
is sent out and switches an1, an2 or bn1.
bn2 is switched.

スイッチanlまたはbn1の閉成によって、端局
AまたはBで予備系の送信側が現用系nと並列に接続さ
れる。
By closing the switch anl or bn1, the transmission side of the protection system is connected in parallel with the working system n at the terminal station A or B.

それ故予備系は現用系nのデイジタル信号に同期され.
る。
Therefore, the protection system is synchronized with the digital signal of the working system n.
Ru.

スイッチan2またはbn2の切換によつて、接続個所
VAおよびVBへの受信方向のーは現用系nの受信出力
側から予備系の出力側に切換えられる。
By switching the switch an2 or bn2, the reception direction to the connection points VA and VB is switched from the reception output side of the working system n to the output side of the protection system.

障害のない動作の場合予備系の送信側は端局AとBで閉
成されたスイッチa11とb11とによって、本発明の
実施例において最も重要な系としての現用系1の送信方
向に並列に接続されている,その他のすべてのスイッチ
an1とbn1は開放されており、またそれぞれスイッ
チan2とbn2を介して現用系の受信側は接続個所V
AとVBに接続されている。
In the case of fault-free operation, the transmission side of the protection system is connected in parallel to the transmission direction of the working system 1, which is the most important system in the embodiment of the invention, by means of switches a11 and b11, which are closed at the terminal stations A and B. All other connected switches an1 and bn1 are open, and the active receiving side is connected to the connection point V via switches an2 and bn2, respectively.
Connected to A and VB.

制御装置STAとSTBはそれぞれ予備系の端末装置の
送信側にサービス信号MA,MBとして現用識別信号B
A,BBを供給する。
The control devices STA and STB send working identification signals B as service signals MA and MB to the transmission side of the standby terminal devices, respectively.
Supply A and BB.

この場合予備系の伝送線路でサービス信号MA,MBと
して現用識別信号BA,BBが伝送すべき信号に挿入さ
れる。
In this case, the working identification signals BA and BB are inserted into the signal to be transmitted as the service signals MA and MB on the protection transmission line.

それによって予備系の受信個所からそこに接続された制
御装置に、当該の予備系がすでに使用されていることの
サービス信号を供給することができる。
This makes it possible for the receiving point of the protection system to supply a control device connected thereto with a service signal that the protection system in question is already in use.

現用系に障害がある場合、障害の原因が端局Aだけにあ
るか、または端局Bだけにあるか、または両端局にある
かにしたがって、障害通報信号を送出することができる
When there is a fault in the active system, a fault notification signal can be sent depending on whether the cause of the fault is only in terminal station A, only in terminal station B, or in both terminal stations.

次にこの障害通報信号を送出する方法につき説明する。Next, a method of transmitting this failure notification signal will be explained.

その場合先ず現用系nは端局Aからだけ障害通報信号を
発生し、端局Bからは障害通報信号が生じないものと仮
定する。
In this case, it is first assumed that in the working system n, only the terminal station A generates a failure notification signal, and that the terminal station B does not generate a failure notification signal.

また制御装置STBは現用識別信号BBを供給する。The control device STB also supplies a current identification signal BB.

端局Aに生ずぬ障害通報信号の原因は、端局Aの端末装
置の障害かまたはBからAへの伝送線路の障害かまたは
Bの端末装置の送信部の障害かまたは送信方向で接続個
所vAの接続端子11に前置接続された装置の障害かで
ある。
The cause of the failure notification signal that does not occur at terminal station A is a failure in the terminal device of terminal station A, a failure in the transmission line from B to A, a failure in the transmitter of the terminal device in B, or a connection in the transmission direction. This could be due to a failure in the device connected in advance to the connection terminal 11 at point vA.

この最後の場合は予備接続をしても効果がない、それは
障害のある個所を予備系に接続することができないから
である。
In this last case, a backup connection has no effect, since it is not possible to connect the faulty part to the backup system.

障害通報信号A21が生じた場合、先ず制御装置STA
は、予備系が警報信号A4lを発生していないかどうか
、および/または相手局から予備線路を介して現用識別
信号BBが受信されるかどうかを検査する。
When the fault notification signal A21 occurs, first the control device STA
checks whether the protection system is not generating the alarm signal A4l and/or whether the working identification signal BB is received from the other station via the protection line.

このような場合、予備系の送信側はスイッチa21を介
して、例えば障害のある現用系2の送信側に並列に接続
され、かつスイッチallは開放される。
In such a case, the transmission side of the backup system is connected in parallel to, for example, the transmission side of the faulty working system 2 via the switch a21, and the switch all is opened.

そこで予備系に障害通報信号を生ずると、障害は接続個
所の前段にあるので、制御装置は再び予備系の送信側を
第1の現用系の送信側に並列に接続し、かつ障害通報信
号A21が消失するまで現用系2に対する予備接続装置
を遮断する。
Therefore, when a failure notification signal is generated in the backup system, since the failure is in the previous stage of the connection point, the control device again connects the transmission side of the backup system in parallel to the transmission side of the first working system, and sends the failure notification signal A21. The standby connection device for the active system 2 is cut off until it disappears.

それに反し送信側で予備系を現用系2に並列に接続した
際、予備系に障害通報信号が生じないと、現用識別BA
の代りに、切換えるべき現用系2のアドレスがサービス
信号MAとして予備系の送信方向に供給される。
On the other hand, when the protection system is connected in parallel to the working system 2 on the transmitting side, if no fault notification signal is generated in the protection system, the working identification BA
Instead, the address of the active system 2 to be switched is supplied as a service signal MA to the transmission direction of the protection system.

更に予備系のAからBへの伝送方向で、現用系2から伝
送すべきデイジタル信号に対して同期がとられる。
Further, in the transmission direction from A to B in the protection system, synchronization is established with respect to the digital signal to be transmitted from the working system 2.

そして同期された後、端局Bで予備系の端末装置はサー
ビス信号MAとして、予備接続すべき現用系2のアドレ
スを受信する。
After synchronization, the standby terminal device at the terminal station B receives the address of the active system 2 to which it should be connected as a standby signal as a service signal MA.

このアドレスは制御装置STBに供給され、制御装置S
TBは対応する受信側のスイッチbn2、即ちこの場合
b22を切換えるようにする。
This address is supplied to the control device STB and the control device S
TB switches the corresponding receiving side switch bn2, ie, b22 in this case.

それによってAからBへの伝送方向が予備接続される。The transmission direction from A to B is thereby pre-connected.

同時に制御装置STBはスイッチb21を閉成すること
によって、障害のある現用系2と予備系4との逆の伝送
方向の送信側の並列接続が行われる。
At the same time, the control device STB closes the switch b21, thereby establishing a parallel connection between the faulty working system 2 and the protection system 4 on the transmitting side in the opposite transmission direction.

前述のように端局Bでは障害通報信号An2が生じない
と仮定したので、制御装置STBはサービス信号MAと
して切換えるべき系のアドレス信号だけを受信する。
Since it is assumed that the fault notification signal An2 is not generated at the terminal station B as described above, the control device STB receives only the address signal of the system to be switched as the service signal MA.

そして制御装置STBはサービス信号MBとして端局A
の方向に受領信号QBを送信する。
Then, the control device STB sends the terminal station A as a service signal MB.
A reception signal QB is transmitted in the direction of.

そこで端局Bから端局Aへの方向も切換えるべき系に同
期される。
Therefore, the direction from terminal station B to terminal station A is also synchronized with the system to be switched.

この同期がとられた後制御装置STAは予備線路の端末
装置からサービス信号MBとして受領信号QBを受信す
る。
After this synchronization is established, the control device STA receives the reception signal QB as the service signal MB from the terminal device of the backup line.

さらに同時に制御装置STAは、障害通報信号An1即
ち例えばA21を受信すると、スイッチA22を用いて
受信側で現用系を予備系に切換えるようにする。
Furthermore, at the same time, when the control device STA receives the fault notification signal An1, ie, A21, for example, it switches the active system to the standby system on the receiving side using the switch A22.

障害が除去された後障害.通報信号A21が消失した場
合、先ず端局Aにおいて再び受信側が制御装置STAに
よってスイッチa22を用いて現用系2に切換えられる
Fault after the fault has been removed. When the notification signal A21 disappears, first, the receiving side at the terminal station A is switched again to the working system 2 by the control device STA using the switch a22.

その場合送信側の並列接続は、制御装置STAが受領信
号QBを受信している間は保持される。
The parallel connection on the transmitting side is then maintained as long as the control device STA receives the acceptance signal QB.

再び端局Aではサービス信号MAとして現用識別信号B
Aが発生する。
Terminal A again uses the working identification signal B as the service signal MA.
A occurs.

端局Bで現用識別信号BAが検出されると、端局Bでス
イッチbn1とbn2は再び現用位置に切換えられる。
When the working identification signal BA is detected at the terminal station B, the switches bn1 and bn2 at the terminal station B are switched to the working position again.

同時に制御装置STBによってサービス信号MBとして
現用信号BBが送出される。
At the same time, the control device STB sends out the working signal BB as the service signal MB.

これによって端局Aでスイッチan1は現用位置に切換
えられる。
As a result, the switch an1 at the terminal station A is switched to the current position.

これ以外の場合1つの現用系で同時に端局AとBから障
害通報信号anlとAn2が生ずるような障害が起きる
と、2つの端局で同時に、送信側は制御装置によって対
応するスイッチanlとbn1とを用いて並列接続され
る。
In other cases, if a fault occurs in one active system in which the fault notification signals anl and An2 are generated from terminal stations A and B at the same time, the transmitting side will control the corresponding switches anl and bn1 by the control device at the same time in the two terminal stations. and are connected in parallel.

それ故制御装STBとSTBから予備系の両伝送方向へ
、それぞれサビス信号MAおよびMBとして、障害のあ
る現用系のアドレス信号が発生される。
Address signals of the faulty working system are therefore generated from the control devices STB and STB in both transmission directions of the protection system as service signals MA and MB, respectively.

そこで2つの制御装置STAとSTBはそれぞれ相手局
のアドレス信号と障害通報信号とを受信する。
Therefore, the two control devices STA and STB each receive the address signal and fault notification signal of the other station.

これらの2つの信号が同じ現用系に関するものであると
、制御装置によってスイッチan2とbn2とを用いて
受信側が切換えられる。
If these two signals relate to the same working system, the receiver is switched by the control device using switches an2 and bn2.

そこで2つの端局AまたはBのうち1つで障害通報信号
が消失する場合、相手局によってアドレス信号が受信さ
れている限り、対応する制御装置から前述の受領信号Q
AまたはQBが発生される。
Therefore, if the failure notification signal disappears in one of the two terminal stations A or B, as long as the address signal is received by the other station, the corresponding control device will send the above-mentioned reception signal Q.
A or QB is generated.

また予備系は、第2の端局で障害通報信号が消失するま
で接続されたままである。
Further, the backup system remains connected until the failure notification signal disappears at the second terminal station.

それから予備接続は第1の例で示したようにして遮断さ
れる。
The preliminary connection is then interrupted as shown in the first example.

線路障害によって複数の現用系が同時に端局Aおよび/
またはBに障害を通報する場合に関して、制御装置ST
AとSTBに、予備系に接続する順序を制御する優先制
御回路が設けてある。
Due to a line fault, multiple working systems are simultaneously disconnected from terminals A and/or
or in the case of reporting a failure to B, the control device ST
A and STB are provided with a priority control circuit that controls the order in which they are connected to the backup system.

このために先ず、どのサービス信号MBまたはMAが相
手局から受信されたか、そしてどのサービス信号MAま
たはMBがすでに相手局の方向に供給されたかを検出す
る。
For this purpose, it is first detected which service signals MB or MA have been received from the partner station and which service signals MA or MB have already been supplied in the direction of the partner station.

当該端局で障害通報信号とアドレスの供給が既に行われ
ている現用系のアドレスまたは受領信号が相手局から受
信される場合、予備接続はすでに他の端局で行われてい
る。
If a working address or a reception signal is received from the other station, for which the fault reporting signal and address have already been supplied at the terminal station, a backup connection has already been made at another terminal station.

その場合他の障害通報信号は考慮されないままである。Other fault reporting signals then remain unconsidered.

然るに現用系のアドレスまたは受領信号が順方向に既に
供給されていないで遠隔地の相手局から現用識別信号が
受信されるか、または現用系のアドレスが受信される場
合、障害通報信号Anは優先的に、同時に生ずる障害通
報信号A( n+m)に先行して処理される。
However, if the working identification signal or the working address is received from a remote partner station without the working address or reception signal already being supplied in the forward direction, the failure notification signal An has priority. Generally, it is processed prior to the fault notification signal A(n+m) occurring at the same time.

付加的に制御装置STAとSTBとに、親用系が自動的
に予備線路から現用線路に復帰接続されるのを阻止する
装置を設けることができる。
In addition, the control devices STA and STB can be provided with devices that prevent the parent system from being automatically reconnected from the protection line to the working line.

斯様な装置は、制御装置STAとSTBとに対する障害
通報信号An1またはAn2が現用系の端末装置から生
ずるのではなく、接続個所VAまたはVBに前置接続ま
たは後置接続された装置から生ずる場合に必要である。
In such a device, the failure notification signal An1 or An2 for the control devices STA and STB does not originate from the active terminal device, but from a device connected upstream or downstream of the connection point VA or VB. is necessary.

このような場合に前述の付加装置が必要であるのは、予
備系に接続した後で、予備接続された現用系の障害通報
は消失するからである。
The reason why the above-mentioned additional device is necessary in such a case is that after connecting to the backup system, the fault notification of the active system connected to the backup system disappears.

また制御装置STAとSTBとにスイッチSAとSBが
前置接続されており、これらのスイッチを用いて手動操
作で、現用系を予備系に予備接続することができる。
Further, switches SA and SB are connected upstream of the control devices STA and STB, and the active system can be connected to the backup system by manual operation using these switches.

スイッチSAまたはSBの作動によって、切換えるべき
現用系に対して相応する制御装置の入力側で障害通報信
号がシミュレートされる。
By actuating switch SA or SB, a fault reporting signal is simulated at the input of the corresponding control device for the active system to be switched over.

そこで予備系への接続は第1の例で記載したように自動
的に行われる。
Therefore, connection to the standby system is automatically performed as described in the first example.

また手動操作で予備系に接続する際、それぞれ受信側の
スイッチに対応して遅延線路を設け、その遅延線路によ
ってそれぞれの現用線路を介する遅延時間を、予備線路
の遅延時間に合わせると、装置を保守する場合に有利で
ある。
Also, when manually connecting to the backup line, you can install a delay line corresponding to each switch on the receiving side, and use the delay line to match the delay time through each working line to the delay time of the backup line. This is advantageous for maintenance.

理想的な場合中断することなく予備接続を行うことがで
きる。
In an ideal case, preliminary connections can be made without interruption.

次にCCITTの観告G.732によるデイジタル信号
のフレーム構成を有するデイジタル伝送系で予備接続を
行う方法につき説明する。
Next, CCITT's observation G. A method for making a preliminary connection in a digital transmission system having a digital signal frame structure according to G.732 will be explained.

このCCITTの勧告は約2Mビット/秒のビット速度
と30個のチャネルとを有する時分割多重方式に関し、
その場合第1番目のチャネルと第16番目のチャネルと
の前に付加チャネルが挿入されており、その付加チャネ
ル内で同期信号と、信号化や選択信号等のサービス信号
の伝送とに関連する信号が伝送される。
This CCITT Recommendation concerns a time division multiplexing system with a bit rate of approximately 2 Mbit/s and 30 channels:
In that case, an additional channel is inserted before the 1st channel and the 16th channel, and in the additional channel, signals related to the synchronization signal and the transmission of service signals such as signaling and selection signals are transmitted. is transmitted.

この場合予備線路の監視をフレーム識別語およびサービ
ス語の監視によって行う。
In this case, the backup line is monitored by monitoring the frame identification word and service word.

フレーム識別語とサービス語とは通信信号用の第1のチ
ャネルの前の付加チャネル内で交互に伝送されかつフレ
ームの開始を指示する。
A frame identification word and a service word are transmitted alternately in an additional channel preceding the first channel for communication signals and indicate the start of a frame.

フレーム識別語とサービス語とは他のチヤネルの信号と
同じようにそれぞれ8ビットから成り、その場合フレー
ム識別語とサービス語との第1のビットは国際的な利用
のためリザーブされており、また他のビットは警報信号
を伝送し往復の伝送方向を識別しならびに情報に対して
、伝送ざれる時分割多重信号が個々のチャネルを占有し
ていないことについての情報のために用いられる。
The frame identifier and service word each consist of 8 bits like other channel signals, where the first bit of the frame identifier and service word is reserved for international use, and Other bits are used for transmitting alarm signals and identifying the round-trip transmission direction, as well as for information that the time division multiplexed signal being transmitted does not occupy individual channels.

2つの端局AとB間のサービス信号MAまたはMBに対
して、サービス語の第5、第6および第7のビットが用
いられる。
For the service signal MA or MB between the two terminal stations A and B, the fifth, sixth and seventh bits of the service word are used.

また送信方向で現用識別信号BAまたはBBとして警報
信号(AIS)が供給される。
An alarm signal (AIS) is also supplied in the transmission direction as a working identification signal BA or BB.

警報信号は英語でAISと略され、警報禁止信号と同時
に警報指示信号をも示す。
The alarm signal is abbreviated as AIS in English, and indicates an alarm instruction signal as well as an alarm prohibition signal.

警報信号AISはシステム内で障害のある伝送区間と関
連して伝送され、伝送系の接続部分での同期を保証する
The alarm signal AIS is transmitted within the system in conjunction with the faulty transmission section and ensures synchronization in the connected parts of the transmission system.

また伝送系の部分にそれ自体では警報を行わない信号が
含まれる場合でも、その信号を受信端局で評価しかつ到
来信号の形により、それがデイジタル伝送信号でないこ
とを検出することができる。
Furthermore, even if the transmission system contains a signal that does not itself cause an alarm, the receiving terminal station can evaluate the signal and detect from the shape of the incoming signal that it is not a digital transmission signal.

それ故簡単に識別できるようにするために警報信号AI
Sとして、例えば+1 ,−1 ,+1 ,−1の形を
有する簡単にビット列を用いる。
Therefore, in order to be easily identified, the alarm signal AI
As S, we simply use a bit string having the form, for example, +1, -1, +1, -1.

この場合この信号を伝送線路の送信側でスクランブル化
しかつ受信側ではデスクランブル化することができる。
In this case, this signal can be scrambled on the transmitting side of the transmission line and descrambled on the receiving side.

現用系を予備系に接続開始するために、サービス語の第
5、第6および第7のビットに予備接続すべき系のアド
レスを挿入する。
In order to start connecting the active system to the protection system, the address of the system to be connected to the protection system is inserted into the fifth, sixth, and seventh bits of the service word.

受領信号QAとQBは、送信されたアドレスに対する応
答語として伝送されるので、アドレス信号を含む必要は
ない。
Since the acceptance signals QA and QB are transmitted as a response to the transmitted address, there is no need to include an address signal.

それ故アドレスを含まないサービス語の第5、第6およ
び第7のビットを組合わせて、受領信号として用いるか
、また交互に周期的に、現用識別信号および切換えるべ
き系のアドレスとして送信することができる。
Therefore, the 5th, 6th and 7th bits of the service word, which do not contain an address, may be combined and used as an acceptance signal, and alternately and periodically transmitted as a working identification signal and the address of the system to be switched. I can do it.

それ故障害信号が生じた場合、先ず制御装置によって2
つの伝送方向のサービス語の第5、第6および第7のビ
ットの情報内容が検査される。
Therefore, if a fault signal occurs, first the control device
The information content of the fifth, sixth and seventh bits of the service word of the two transmission directions is examined.

第1の場合AIS一信号は障害通報信号が発生するまで
予備系の2つの方向に伝送される。
In the first case, the AIS signal is transmitted in two directions on the standby system until a failure notification signal occurs.

そこで先ず予備系の送信側を障害のある現用系の送信側
に並列に接続する。
Therefore, first, the backup transmission side is connected in parallel to the failed active transmission side.

同時に予備系の送信方向に、障害のある系のアドレスを
供給する。
At the same time, the address of the faulty system is supplied to the protection system in the transmission direction.

同じ端局で予備系を介して受領信号を受信した後、受信
側を現用系から予備系に切換える。
After receiving the received signal via the protection system at the same terminal station, the receiving side is switched from the working system to the protection system.

第2の場合予備系の受信方向で障害のある系のアドレス
が受信される。
In the second case, the address of the faulty system is received in the receiving direction of the protection system.

そこで系のアドレスが受信される端局で、障害通報信号
が生じない場合、当該の現用系は送信側が予備系に並列
接続され、かつ受信側が予備系に切換えられる。
If a fault notification signal is not generated at the terminal station where the address of the system is received, the transmitting side of the relevant working system is connected in parallel to the protection system, and the receiving side is switched to the protection system.

同時に予備系のサービス語に受領信号が挿入される。At the same time, a reception signal is inserted into the standby service word.

それに対して系のアドレスが受信される端局に、同時に
同じ系の障害通報信号が生ずるさ、前述の場合と同じ方
法で切換が行われるが、サービス語には同じ系のアドレ
スが挿入される。
On the other hand, if a fault notification signal for the same system is generated at the same time at the terminal station where the address of the system is received, switching is performed in the same manner as in the previous case, but the address of the same system is inserted in the service word. .

更に障害のある系のアドレスが受信される端局に、同時
に優先度の高い系の障害通報信号が生ずる場合、受領信
号または受信される系のアドレスが送信方向に供給され
ない限り、高い優先度の糸は送信側で予備系に並列に接
続され、かつその系のアドレスは送信されるサービス語
に挿入される。
Furthermore, if a fault notification signal of a higher priority system occurs at the same time at the terminal station where the address of the faulty system is received, the terminal station of the higher priority system receives the address of the faulty system, unless the receiving signal or the address of the system to be received is supplied in the transmitting direction. The thread is connected in parallel to the standby system on the sending side, and the address of that system is inserted into the transmitted service word.

障害通報信号が消失した後では、常に逆方向から予備線
路を介してAIS一信号が受信された場合にはじめて、
予備線路から現用線路に復帰接続される。
After the failure notification signal disappears, only if the AIS signal is always received from the opposite direction via the backup line.
The backup line will be reconnected to the working line.

【図面の簡単な説明】[Brief explanation of the drawing]

図は本発明によるデイジタル信号伝送線路を予備系に接
続する方法を実施する装置を原理的に示すブロック図で
ある。 LEAI ,LEA2 .LEA3 ,LEAE ,L
EB1 ,LEB2.LEB3,LEBE・・・・・・
端末装置、STA,STB・・・・・・制御装置、VA
,VB・・・・・・接続個所。
The figure is a block diagram showing the principle of an apparatus for implementing the method of connecting a digital signal transmission line to a backup system according to the present invention. LEAI, LEA2. LEA3, LEAE, L
EB1, LEB2. LEB3, LEBE・・・・・・
Terminal device, STA, STB...control device, VA
, VB...Connection point.

Claims (1)

【特許請求の範囲】 1 約2Mbit/sのビット速度と30個のチャネル
とを有する時分割多重方式で第1番目のチャネルと第1
6番目のチャネルとの前に付加チャネルが挿入されてお
り、その付加チャネル内で同期識別語や信号化情報、ダ
イヤル情報等のサービス語を伝送するようにしたCCI
TTの勧告G.732によるデイジタル信号のフレーム
構成を有するデイジタル現用系を予備系に接続するデイ
ジタル信号伝送線路の予備接続方法において、それぞれ
の接続線路の2つの接続個所VA,VBと、対応する個
々の端末装置LEA1 ,LEA2 .LEA3;LE
B1 .LEB2 ,LEB3との間に被制御スイツチ
a11 ,a12,a21 ,a22.a31,a32
;b12,b11,b22.b21.b32,b31を
挿入接続し、前記スイッチによって前記接続線路をそれ
ぞれの対応する端末装置から予備系LEAE,LEBE
の端末装置に切換え、被制御スイッチの制御入力側をそ
れぞれの端局に設けられた制御装置STA,STBに接
続し、フレーム識別語とサービス語との監視によって予
備系を監視し、現用識別信号BA,BBまたは切換える
べき現用系のアドレスを有するサービス信号MA,MB
を伝送するために、デイジクル現用系のサービス語の第
5,第6および第7のビットを用い、送信方向への現用
識別信号BA.BBとして警報禁止信号さ警報指示信号
とを示す警報信号AISを用り、現用系を予備系に接続
するためにサービス語の第5、第6および第7のビット
によって、切換えるべき現用系のアドレスを供給し、前
記アドレスを受信する予備系の端末装置から受領信号Q
.A,QBとして、前記アドレスの伝送に用いられない
場合の前記サービス語の第5、第6および第7のビット
組を、アドレスを送信する予備系の端末装置に返送し、
かつ現用系の端末装置に障害通報信号が生じた場合は先
ず前記サービス語の第5、第6および第7のビットの情
報内容を前記予備系の2つの伝送方向で検査するように
したことを特徴とするディジタル信号伝送線路の予備接
続方法。 2 予備系の両伝送方向に障害通報信号が生ずるまで警
報信号AISを伝送し、障害通報信号の発生の場合は先
ず予備系の送信側を障害のある現用系の送信側に並列に
接続し、前記予備系の送信方向に障害のある系のアドレ
スを供給し、かつ前記送信方向とは逆方向に送信された
受領信号を受信した際、同じ制御装置によって現用系の
受信側を予備系に切換えるようにしたことを特徴とする
特許請求の範囲第1項記載の方法。 3 予備系の受信方向で障害のある系のアドレスが受信
された場合、前記系のアドレスの受信端局でその同じ現
用系の障害通報信号が生じないと、制御装置によって制
御して前記受信端局において当該の現用系を、送信側で
前記予備系に並列に接続し、かつ受信側で前記予備系に
切換えるように接続し、また予備系のサービス語の第5
、第6および第7のビットを用いて受領信号を伝送し、
系のアドレスの受信端局に同じ現用系の障害通報信号が
生じた場合、前記現用系を、送信側で予備系に並列接続
し、かつ受信側で予備系に切換えるように接続し、更に
サービス語の第5、第6および第7のビットを用いて前
記の同じ系のアドレスを伝送するようにし、付加的に系
のアドレスの受信端末に、同時に他の優先の高い現用系
の障害通報信号が生じた場合は、まだ受領信号または受
信する系のアドレスが送信方向に供給されていない限り
、前記優先の高い系を送信側で予備系に並列に接続しか
つその系のアドレスを、サービス語の第5、第6および
第7のビットを用いて伝送するようにし、障害通報信号
が消失した後では、予備系を介して前記それぞれの場合
とは反対の方向で制御装置から警報信号AISが受信さ
れた場合にはじめて予備系から現用系に切換接続するよ
うにしたことを特徴とする特許請求の範囲第1項記載の
方法。
[Scope of Claims] 1 In a time division multiplexing system having a bit rate of about 2 Mbit/s and 30 channels, the first channel and the first
A CCI in which an additional channel is inserted before the sixth channel, and service words such as synchronization identification words, signaling information, and dialing information are transmitted within the additional channel.
TT Recommendation G. In a preliminary connection method of a digital signal transmission line for connecting a digital working system having a digital signal frame structure according to G.732 to a protection system, two connection points VA, VB of each connection line and corresponding individual terminal devices LEA1, LEA2. LEA3;LE
B1. Controlled switches a11, a12, a21, a22 . a31, a32
; b12, b11, b22. b21. b32 and b31 are inserted and connected, and the switch connects the connection lines from the respective corresponding terminal devices to the standby systems LEAE and LEBE.
The control input side of the controlled switch is connected to the control devices STA and STB installed in each terminal station, and the standby system is monitored by monitoring the frame identification word and service word, and the working identification signal is BA, BB or service signals MA, MB with the address of the working system to be switched
The fifth, sixth and seventh bits of the service word of the daily active system are used to transmit the working identification signal BA. Using the alarm signal AIS indicating an alarm prohibition signal or an alarm instruction signal as BB, the address of the working system to be switched is determined by the 5th, 6th, and 7th bits of the service word in order to connect the working system to the protection system. a reception signal Q from a standby terminal device that supplies the address and receives the address.
.. As A and QB, the fifth, sixth, and seventh bit sets of the service word when not used for transmitting the address are returned to the standby terminal device that transmits the address,
In addition, when a failure notification signal is generated in the active terminal device, the information contents of the fifth, sixth and seventh bits of the service word are first checked in the two transmission directions of the protection system. Features of a preliminary connection method for digital signal transmission lines. 2. Transmit the alarm signal AIS in both transmission directions of the backup system until a failure notification signal is generated, and if a failure notification signal occurs, first connect the transmission side of the backup system in parallel to the transmission side of the active system with the failure, When the address of the faulty system is supplied to the transmission direction of the protection system and a reception signal transmitted in the opposite direction to the transmission direction is received, the receiving side of the working system is switched to the protection system by the same control device. A method according to claim 1, characterized in that: 3. When the address of a faulty system is received in the receiving direction of the standby system, if the fault notification signal of the same working system is not generated at the receiving terminal station of the address of the said system, the control device controls and the receiving terminal At the station, the relevant working system is connected in parallel to the protection system on the transmitting side, and connected to switch to the protection system on the receiving side, and the fifth service word of the protection system is connected in parallel to the protection system on the transmission side.
, using the sixth and seventh bits to transmit an acceptance signal;
If the same working system failure notification signal occurs at the receiving end station of the system address, the working system is connected in parallel to the protection system on the transmitting side, and connected so as to be switched to the protection system on the receiving side. The 5th, 6th, and 7th bits of the word are used to transmit the address of the same system, and additionally, to the receiving terminal of the address of the system, a fault notification signal of another high-priority active system is transmitted simultaneously. If this occurs, unless a receiving signal or the address of the receiving system has been supplied in the transmitting direction, the system with the higher priority is connected in parallel to the protection system on the transmitting side and the address of that system is set as the service word. After the fault notification signal disappears, the alarm signal AIS is transmitted from the control device in the opposite direction to the above respective cases via the backup system. 2. The method according to claim 1, wherein the connection is switched from the standby system to the active system only when the signal is received.
JP53147321A 1977-11-30 1978-11-30 Preliminary connection method for digital signal transmission line Expired JPS584503B2 (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
DE2753420A DE2753420C3 (en) 1977-11-30 1977-11-30 Device for equivalent switching of operating systems for digital signals

Publications (2)

Publication Number Publication Date
JPS54100208A JPS54100208A (en) 1979-08-07
JPS584503B2 true JPS584503B2 (en) 1983-01-26

Family

ID=6025003

Family Applications (1)

Application Number Title Priority Date Filing Date
JP53147321A Expired JPS584503B2 (en) 1977-11-30 1978-11-30 Preliminary connection method for digital signal transmission line

Country Status (6)

Country Link
JP (1) JPS584503B2 (en)
DE (1) DE2753420C3 (en)
FR (1) FR2410918A1 (en)
GB (1) GB2012526B (en)
IT (1) IT1100376B (en)
NL (1) NL183377C (en)

Families Citing this family (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5484403A (en) * 1977-12-19 1979-07-05 Hitachi Ltd Double system transmission line switching system
DE2939253A1 (en) * 1979-09-27 1981-04-30 Siemens AG, 1000 Berlin und 8000 München Multiple redundant data transmission system - uses test signal to control change-over of transmission lines if line failure occurs
DE3330683A1 (en) * 1983-08-25 1985-03-14 Siemens AG, 1000 Berlin und 8000 München TRANSMISSION SYSTEM FOR DIGITAL SIGNALS, HIGH STEP-SPEED WITH ADDITIONAL SIGNAL TRANSMISSION
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Also Published As

Publication number Publication date
DE2753420B2 (en) 1979-10-04
FR2410918A1 (en) 1979-06-29
GB2012526A (en) 1979-07-25
DE2753420A1 (en) 1979-06-07
IT7830132A0 (en) 1978-11-24
NL183377C (en) 1988-10-03
GB2012526B (en) 1982-03-10
NL183377B (en) 1988-05-02
JPS54100208A (en) 1979-08-07
DE2753420C3 (en) 1980-06-19
IT1100376B (en) 1985-09-28
NL7811771A (en) 1979-06-01
FR2410918B1 (en) 1984-01-20

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