EP0077249B1 - Chronometry method, centralized management system using this method and its application to the detection of leaks in a fluid transport network - Google Patents

Chronometry method, centralized management system using this method and its application to the detection of leaks in a fluid transport network Download PDF

Info

Publication number
EP0077249B1
EP0077249B1 EP19820401798 EP82401798A EP0077249B1 EP 0077249 B1 EP0077249 B1 EP 0077249B1 EP 19820401798 EP19820401798 EP 19820401798 EP 82401798 A EP82401798 A EP 82401798A EP 0077249 B1 EP0077249 B1 EP 0077249B1
Authority
EP
European Patent Office
Prior art keywords
counter
stations
chronometry
time
station
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
EP19820401798
Other languages
German (de)
French (fr)
Other versions
EP0077249A1 (en
Inventor
François Deslignieres
Philippe Nachan
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.)
EUROPEENNE DE TELETRANSMISSION C E T T Cie
Original Assignee
EUROPEENNE DE TELETRANSMISSION C E T T Cie
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 EUROPEENNE DE TELETRANSMISSION C E T T Cie filed Critical EUROPEENNE DE TELETRANSMISSION C E T T Cie
Publication of EP0077249A1 publication Critical patent/EP0077249A1/en
Application granted granted Critical
Publication of EP0077249B1 publication Critical patent/EP0077249B1/en
Expired legal-status Critical Current

Links

Images

Classifications

    • GPHYSICS
    • G04HOROLOGY
    • G04GELECTRONIC TIME-PIECES
    • G04G7/00Synchronisation

Definitions

  • the invention relates to operating assistance systems having a centralized management station and more particularly relates to a method and a system for developing and transmitting information making it possible to establish the relative timing of events. occurred in different stations managed by the centralized management station.
  • control and / or command stations are dispersed for controlling an entire network.
  • Each of these stations is connected by an information transmission channel to a central station intended for centralized management of the network; the stations have no links with each other but can cover adjacent areas and transmit information linked to the same event or to events related to each other to the management center.
  • the problem which then arises in the management center is to date the events which have occurred in the different stations in relation to each other and in relation to a common time reference. This problem occurs in most industrial installations, for example in fluid transport installations, as well as in surveillance installations.
  • Another solution consists in establishing the chronometry in one place, the central station having the time reference, with repatriation of all the information in this place as soon as it is received. This can only be achieved by providing a network of transmission lines connecting each of the stations to the central management station, this additional network having only this function. This solution is expensive.
  • the subject of the invention is a method for preparing and transmitting information for the establishment of a relative timing which does not have the drawbacks mentioned above, and which in particular can be implemented in computer systems. operating aid already existing without introducing additional transmission lines.
  • the invention also relates to a device intended for the implementation of this method.
  • the invention can advantageously be applied to the detection and rapid localization of leaks in a fluid transport network.
  • time references are transmitted from the management center to the stations, and the latter date the information captured by transmitting with this information hourly data derived from these time references.
  • each station is capable of decoding, in addition to its own address used for the transmission of orders which are only intended for it, a general address used for the simultaneous transmission of a single general order to all stations.
  • this general order function is used to transmit to all remote stations a time base synchronization order. local, this order constituting the time reference common to all the stations for a time interval determined by the interval between two successive synchronization orders.
  • this compensation linked to the geographical location of the different stations in relation to the management center is preset and stored in memory at each station.
  • the information concerning the events detected in an area covered by a station is transmitted by the normal link between station and management center, but it is transmitted with hourly data supplied by the local time base; thus they can be stored a certain time before their transmission in order not to interrupt a priority procedure in progress.
  • These local time bases are synchronized, as indicated above. This synchronization is carried out by a periodic general order which depends on the desired precision, but this periodicity is not a characteristic of the system and the general order can be delayed with respect to its normal maturity when the management center is being treatment of another procedure.
  • a local time base with specific structure is provided in each station which includes a clock associated with a double counter, the first reset to zero by the general synchronization order, the second, of capacity greater than the maximum period between two resets to zero by two consecutive general orders, is automatically loaded by the content of the first when it reaches its maximum capacity.
  • the content of this second counter is first time information which is stored with the information to be transmitted concerning an event.
  • the method according to the invention consists in transmitting, in addition to the first hourly datum, a second datum intended to resolve the ambiguity.
  • the information received is stored with the corresponding received time data and with additional information produced in the management center itself setting the corresponding time unit (between two synchronization orders).
  • the method for preparing and transmitting chronometry information comprises an additional step after each synchronization which consists in preparing and transmitting to the management center additional reporting information to notify it that the synchronization has been successful. been carried out.
  • This information can be transmitted by change of signaling state.
  • the operating assistance system represented in this figure comprises a management center, PC, connected by bilateral transmission lines T ,, T 2 , T, ... to stations S 1 , S 2 , S 3 , ... dispersed, for the control and command of a network, for example a pipeline.
  • a management center PC
  • the management center PC and one of the stations S have been detailed in an exemplary embodiment.
  • Each remote station includes information sensors, c ,, c z , c 3 giving network state characteristics.
  • the information is transmitted to a processor p, (for active stations) which stores (and possibly processes) the information, and transmits it during an interrogation by the management center to a modulator-demodulator, m,.
  • the output of this modulator-demodulator provides the information to be transmitted on the transmission channel T, connected to the management center.
  • the PC management center includes a modulator-demodulator M which receives the information transmitted by the remote stations and transmits it after demodulation to a processor P i.
  • the processor P manages the transmission of the data received from the stations which it transmits to a random access memory, MV, or to the associated operating means, ME, while a second processor P 2 manages the means operating from data stored in memory MV and orders, entered by an operator; a printer 1, which is an example of an operating aid unit, has been shown in this figure as a peripheral of the processor P z .
  • Other processors can also be provided for additional processing, as well as other memories.
  • the active station S includes the processor p , but other stations may be only passive and not include a processor.
  • each station for the preparation and transmission of timing information, each station includes a timing circuit, CH, for the station S ,.
  • the function of this chronometry circuit is to date the information transmitted by the sensors c ,, c 2 , c 3
  • the dated information is then transmitted via the processor p ,, the modem m, and the normal transmission line T, to the central management station PC.
  • FIG. 2 represents the detailed diagram of an embodiment of this CH, chronometry circuit. It includes a clock 10, the output of which is connected to the counting input of the two counters 11 and 12.
  • the clock can be made of a quartz associated with a series of dividers to obtain the desired counting rate.
  • One of the counters, 11, is synchronized by resynchronization ticks transmitted by the central management station PC to all the stations simultaneously, by a general order. In practice, this synchronization consists in zeroing the counter 11. For this, the synchronization order involved in the input E RESET of the chronometry circuit is transmitted via a shaping circuit 13 to the reset input to zero, RESET, of counter 11.
  • This signal is also applied to the control input of a rendered count loop, 22, which performs a change of state of the output S CR for transmission to the central station in order to indicate that the reset has been completed.
  • the second counter 12 counts at the same time as the first but progresses to its maximum counting capacity which is greater than the maximum number of pulses at the frequency of the clock 10 between two successive resets of the counter 11.
  • an impulse is supplied to the output D of this counter and applied to - the read input L of the counter 11.
  • the parallel outputs of this counter 11 are connected to the parallel inputs of the counter d12, the latter is loaded by the content of the counter 11 at this time and then continues to count from this new initial value, always different from zero.
  • the parallel outputs of the counter 12 give a time reference at any time to a first entry of time data from a memory 14.
  • the chronometry circuit further comprises a flip-flop, 21, the input of which is connected to the output of the shaping circuit 13, a pulse supplied to this input passing the output of this flip-flop to state 1.
  • This flip-flop comprises a reset input connected to the output D of the counter 11.
  • the output, S ,, of this flip-flop is connected to a second time data input from memory 14.
  • the sensors c ,, c 2 ' c 3 associated with this station provide the signals they detect to shaping circuits, respectively 15, 16 and 17.
  • the outputs of these circuits are connected to the input a filter circuit 18, the output of which is connected to an input for taking account of memory 14, which when it receives a pulse stores the content of counter 12 present at the first time data input and an information bit corresponding to the state of the second time data entry.
  • These data are transmitted to the output of the chronometry circuit for storage, with the corresponding information in the station's processor, then transmission to the management center.
  • the chronometry circuit must not introduce an error greater than 10 ms on the hourly data transmitted. For this, a maximum duration of 10 6 ms or sixteen minutes and forty seconds must be provided between two synchronizations.
  • the counting frequency 100 Hz (period 10 ms)
  • a counting capacity of the counters equal to 2 ' 6 or 65536 or 655 360 ms
  • a general resynchronization every 600,000 ms, or every ten minutes the desired precision is obtained.
  • the timing circuit further comprises a multiplexer 20 which transfers the content of the memory in two bytes, the first transmitted on the order 0 0 and the second immediately after on order 0 ,.
  • the state of the ambiguity removal signal SA can be stored in a bit of the byte reserved for entering the event, this entry generally not occupying 8 bits.
  • the transmission of state change information from the sensors of a station is controlled by the management center.
  • the processor of a station P can store in its processing stack 21 bytes. If it is assumed that the information originating from a sensor occupies three bytes as indicated above, it is possible to acquire the data corresponding to 7 information originating from the sensors between two interrogations of the station by the central management station.
  • the information from the sensors is read every 20 ms for example and detected by change of state during two consecutive periods.
  • the minimum interval for detecting information from the same sensor is therefore 40 ms. Consequently, if events occur and are detected by several sensors from the same station in a slot of less than 40 ms, they are associated with the same time information. On the other hand, they are associated with the time information corresponding to their arrival if they are offset by more than 40ms.
  • the content Cp c of the modulo counter 10mn (normal value of the counting time in the stations) commands, at the end of each 10mn cycle, the issuance of the order general synchronization and the increase of one unit of the content of this capacity counter 144.
  • the transmission of this general order can be delayed as much as possible until that the counter 11 reaches its maximum capacity. Indeed, it is automatically reset to zero if it reaches this value.
  • the information arriving at the management center is stored there with on the one hand the hourly data transmitted with them, which set the time in an hourly unit of approximately 10 minutes, and on the other hand the value of the counter. the management center setting the corresponding time unit among the 144 units forming 24 hours.
  • the processor P 2 of this same management center can control the printing of the results, that is to say the appearances of the events with the corresponding times, classified in the order of appearance in the different stations, for example for facilitate the recognition of events linked to each other.
  • the invention applies to all telecontrol or telesurveillance installations having a centralized technical management station in them it is necessary to obtain chronometric information with an accuracy better than the cycle time of the installation.
  • Such a system in fact comprises control stations associated with a central operating station to which they are connected by a transmission medium consisting of a telephone channel.
  • a leak appears at a point in the network, a pressure drop occurs which progresses on each side in the pipeline, in the form of a negative pressure wave.
  • These waves arrive in stations with offsets with respect to the time of appearance of the leak as a function of the distance between the point of escape and the stations, and the speed of this wave, (of the order of 900 m / s).
  • This system is very advantageous since it does not require a very precise clock in each station and nevertheless gives good precision.

Landscapes

  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Arrangements For Transmission Of Measured Signals (AREA)

Description

L'invention concerne les systèmes d'aide à l'exploitation possédant un poste de gestion centralisée et a plus particulièrement pour objet un procédé et un système d'élaboration et de trans mission d'informations permettant d'établir la chronométrie relative d'événements survenus en différentes stations gérées par le poste de gestion centralisée.The invention relates to operating assistance systems having a centralized management station and more particularly relates to a method and a system for developing and transmitting information making it possible to establish the relative timing of events. occurred in different stations managed by the centralized management station.

Un grand nombre de systèmes d'aide à l'exploitation, pour des réseaux de tous types, sont construits sur le schéma suivant : des stations de contrôle et/ou de commande sont dispersées pour le contrôle de l'ensemble d'un réseau. Chacune de ces stations est reliée par un canal de transmission d'informations à un poste central destiné à la gestion centralisée du réseau ; les stations n'ont pas de liaisons entre elles mais peuvent couvrir des domaines adjacents et transmettre au centre de gestion des informations liées à un même événement ou à des événements en relation les uns avec les autres.A large number of operating assistance systems, for networks of all types, are constructed on the following scheme: control and / or command stations are dispersed for controlling an entire network. Each of these stations is connected by an information transmission channel to a central station intended for centralized management of the network; the stations have no links with each other but can cover adjacent areas and transmit information linked to the same event or to events related to each other to the management center.

Le problème qui se pose alors au centre de gestion est de dater les événements survenus dans les différentes stations les uns par rapport aux autres et par rapport à une référence de temps commune. Ce problème se pose dans la plupart des installations industrielles, par exemple dans les installations de transport de fluide, ainsi que dans les installations de surveillance.The problem which then arises in the management center is to date the events which have occurred in the different stations in relation to each other and in relation to a common time reference. This problem occurs in most industrial installations, for example in fluid transport installations, as well as in surveillance installations.

Une solution évidente consiste à établir la chronométrie des événements à partir d'une référence de temps absolue. La mise en oeuvre de cette solution est difficile car elle impose une même référence de temps précise dans toutes les stations et dans le poste de gestion, ce qui ne peut être obtenu qu'en transmettant à partir de la station de référence des messages de resynchronisation qui peuvent éventuellement être longs.An obvious solution is to establish the timing of events from an absolute time reference. The implementation of this solution is difficult because it imposes the same precise time reference in all the stations and in the management station, which can only be obtained by transmitting resynchronization messages from the reference station. which can possibly be long.

Une autre solution consiste à établir la chronométrie en un seul endroit, le poste central possédant la référence de temps, avec rapatriement de toutes les information à cet endroit dès qu'elles sont captées. Ceci ne peut être pbtenu qu'en prévoyant un réseau de lignes de transission reliant chacune des stations au poste central de gestion, ce réseau supplémentaire ayant uniquement cette fonction. Cette solution est chère.Another solution consists in establishing the chronometry in one place, the central station having the time reference, with repatriation of all the information in this place as soon as it is received. This can only be achieved by providing a network of transmission lines connecting each of the stations to the central management station, this additional network having only this function. This solution is expensive.

L'invention a pour objet un procédé d'élaboration et de transmission d'informations pour l'établissement d'une chronométrie relative qui ne présente pas les inconvénients mentionnés ci- dessus, et qui en particulier peut être mis en oeuvre dans des systèmes d'aide à l'exploitation déjà existants sans introduire de lignes de transmission supplémentaires.The subject of the invention is a method for preparing and transmitting information for the establishment of a relative timing which does not have the drawbacks mentioned above, and which in particular can be implemented in computer systems. operating aid already existing without introducing additional transmission lines.

Selon l'invention, le procédé de chronométrie relative d'évènements détectés par des stations éloignées d'un poste central de gestion auquel elles sont reliées par des lignes de transmission, est principalement caractérisé en ce qu'il consiste :

  • - dans le poste central à élaborer et à transmettre simultanément aux stations des signaux de référence de temps l'intervalle entre deux desdits siguaux quisont consécutifs définissant des unités horaires de durée très supérieure au temps de cycle d'interrogations- réponses du poste central à toutes les stations ;
  • - dans chaque station à réinitialiser un premier copteur par le signal de référence reçu, a fou'inir àl'aide d'une horloge simultanément des impulsions de comptage dans ce premier compteur et dans un second compteur, à charger par le contenu du premier compteur, le second compteur lorsque ce dernier a atteint sa capacité maximum, cette capacité maximum étant supérieure au nombre maximum d'impulsion de comptage dans une unité horaire, à affecter chaque événement détecté de données horaires constituées du contenu du second compteur lors de la détection de l'événement et d'une information de levée d'ambiguïté ayant des états différents au début et à la fin d'une unité horaire, et à transmettre lors des interrogations des stations par le poste central les informations relatives aux événements avec les données horaires correspondantes ;
  • - et dans le poste central à affecter les informations reçues d'une donnée horaire supplémentaire correspondant à un numéro d'unité horaire.
According to the invention, the method of relative timing of events detected by stations distant from a central management station to which they are connected by transmission lines, is mainly characterized in that it consists:
  • - in the central station to be developed and to transmit simultaneously to the stations time reference signals the interval between two of said signals which are consecutive defining hourly units of duration much longer than the cycle of interrogation-response cycle from the central station to all the stations ;
  • - in each station to reset a first coptor by the reference signal received, to be supplied using a clock simultaneously counting pulses in this first counter and in a second counter, to be loaded by the contents of the first counter , the second counter when the latter has reached its maximum capacity, this maximum capacity being greater than the maximum number of counting pulses in an hourly unit, to assign each detected event of hourly data consisting of the contents of the second counter during the detection of the event and ambiguity clearing information having different states at the start and at the end of a time unit, and to transmit during the interrogations of the stations by the central station the information relating to the events with the time data corresponding;
  • - And in the central station to assign the information received from an additional hourly data corresponding to a time unit number.

L'invention a aussi pour objet un dispositif destiné à la mise en oeuvre de ce procédé.The invention also relates to a device intended for the implementation of this method.

L'invention peut avantagensement itre appliquée à la détection et la localisation rapide de fuites dans un réseau de transport de fluides.The invention can advantageously be applied to the detection and rapid localization of leaks in a fluid transport network.

L'invention sera mieux comprise et d'autres caractéristiques d'une forme d'exécution avantagense apparaîtront à l'aide de la description qui suit en référence aux figures annexées :

  • - la figure 1 représente schématiquement un système d'aide à l'exploitation à gestion centralisée selon l'invention ;
  • - la figure 2 représente, en détails, une partie d'une station éloignée de ce système ;
  • - la figure 3 représente un chronogramme de l'évolution du contenu des compteurs.
The invention will be better understood and other characteristics of an advantageous embodiment will appear from the following description with reference to the appended figures:
  • - Figure 1 schematically shows an operating assistance system with centralized management according to the invention;
  • - Figure 2 shows, in detail, a part of a station remote from this system;
  • - Figure 3 shows a timing diagram of the evolution of the content of the counters.

Pour l'élaboration d'une chronométrie relative, des références de temps sont transmises du centre de gestion aux stations, et ces dernières datent les informations captées en transmettant avec ces informations des données horaires dérivées de ces références de temps.For the development of a relative chronometry, time references are transmitted from the management center to the stations, and the latter date the information captured by transmitting with this information hourly data derived from these time references.

Dans les systèmes d'aide à l'exploitation du type décrit ci-dessus, certaines procédures sont communes à toutes les stations et commandées à partir du centre de gestion par un ordre général, c'est-à-dire destiné simultanément à toutes les stations. A cette fin, chaque station est capable de décoder, en plus de son adresse propre utilisée pour la transmission des ordres qui lui sont uniquement destinés, une adresse générale utilisée pour une transmission simultanée d'un ordre général unique à toutes les stations.In the operating assistance systems of the type described above, certain procedures are common to all the stations and controlled from the management center by a general order, that is to say intended simultaneously for all the stations. To this end, each station is capable of decoding, in addition to its own address used for the transmission of orders which are only intended for it, a general address used for the simultaneous transmission of a single general order to all stations.

Dans une première étape du prcédé selon l'invention, cette fonction ordre général est utilisée pour transmettre à toutes les stations éloignées un ordre de synchronisation de bases de temps locales, cet ordre constituant la référence de temps commune à toutes les stations pour un intervalle de temps déterminé par l'intervalle entre deux ordres de synchronisation successifs. Lorsque les différences de temps de propagation de cet ordre général, entre le centre de gestion et les différentes stations, sont supérieures à la précision souhaitée, un décalage supplémentaire destiné à la compensation de ces différences peut être réalisé à chaque station ; cette compensation liée à localisation géographique des différentes stations par rapport au centre de gestion est préétablie et mise en mémoire à chaque station.In a first step of the method according to the invention, this general order function is used to transmit to all remote stations a time base synchronization order. local, this order constituting the time reference common to all the stations for a time interval determined by the interval between two successive synchronization orders. When the differences in propagation time of this general order, between the management center and the different stations, are greater than the desired precision, an additional offset intended to compensate for these differences can be achieved at each station; this compensation linked to the geographical location of the different stations in relation to the management center is preset and stored in memory at each station.

Les informations concernant les événements détectés dans un domaine couvert par une station sont transmises par la liaison normale station- centre de gestion, mais elles sont transmises avec des données horaires fournies par la base de temps locale ; ainsi elles peuvent être stockées un certain temps avant leur transmission pour ne pas interrompre une procédure prioritaire en cours. Ces bases de temps locales sont synchronisées, comme indiqué ci-dessus. Cette synchronisation est réalisée par un ordre général périodique qui dépend de la précision souhaitée, mais cette périodicité n'est pas une caractéristique du système et l'ordre général peut être retardé par rapport à son échéance normale lorsque le centre de gestion est en cours de traitement d'une autre prcédure.The information concerning the events detected in an area covered by a station is transmitted by the normal link between station and management center, but it is transmitted with hourly data supplied by the local time base; thus they can be stored a certain time before their transmission in order not to interrupt a priority procedure in progress. These local time bases are synchronized, as indicated above. This synchronization is carried out by a periodic general order which depends on the desired precision, but this periodicity is not a characteristic of the system and the general order can be delayed with respect to its normal maturity when the management center is being treatment of another procedure.

Pour éviter qu'une information soit perdue lorsque l'ordre général de synchronisation arrive à la station à l'instant où celle-ci doit dater un évènement qui survient, il est prévu dans chaque station une base de temps locale de structure particulière qui comporte une horloge associée à un double compteur, le premier remis à zéro par l'ordre général de synchronisation, le second, de capacité supérieure à la période maximum entre deux remises à zéro par deux ordres généraux consécutifs, est automatiquement chargé par le contenu du premier lorsqu'il arrive à sa capacité maximale. Le contenu de ce second compteur est une première information horaire qui est mise en mémoire avec l'information à transmettre concernant un événement.To prevent information from being lost when the general synchronization order arrives at the station at the time when it has to date an event that occurs, a local time base with specific structure is provided in each station which includes a clock associated with a double counter, the first reset to zero by the general synchronization order, the second, of capacity greater than the maximum period between two resets to zero by two consecutive general orders, is automatically loaded by the content of the first when it reaches its maximum capacity. The content of this second counter is first time information which is stored with the information to be transmitted concerning an event.

Compte tenu du procédé de chronométrie décrit ci-dessus, entre deux remises à zéro du premier compteur, le contenu du second peut passer deux fois par une même série de valeurs. Pour lever cette ambiguité, le procédé suivant l'invention consiste à transmettre en plus de la première donnée horaire, une seconde donnée destinée à lever l'ambiguité. Enfin, dans le centre de gestion, les informations reçues sont mises en mémoire avec les données horaires reçues correspondantes et avec une information supplémentaire élaborée dans le centre de gestion lui-même fixant l'unité horaire (entre deux ordres de synchronisation) correspondante.Given the chronometry method described above, between two resets of the first counter, the content of the second can pass twice through the same series of values. To resolve this ambiguity, the method according to the invention consists in transmitting, in addition to the first hourly datum, a second datum intended to resolve the ambiguity. Finally, in the management center, the information received is stored with the corresponding received time data and with additional information produced in the management center itself setting the corresponding time unit (between two synchronization orders).

Dans un mode préféré, le procédé d'élaboration et de transmission des informations de chronométrie comporte une étape supplémentaire après chaque synchronisation qui consiste à élaborer et à transmettre au centre de gestion une information supplémentaire de compte rendu pour l'aviser que la synchronisation a bien été réalisée. Cette information peut être transmise par changement d'état d'une signalisation.In a preferred mode, the method for preparing and transmitting chronometry information comprises an additional step after each synchronization which consists in preparing and transmitting to the management center additional reporting information to notify it that the synchronization has been successful. been carried out. This information can be transmitted by change of signaling state.

La description qui suit concerne les moyens de mise en oeuvre du procédé décrit ci-dessus dans un système d'aide à l'exploitation tel que celui représenté sur la figure 1.The description which follows relates to the means for implementing the method described above in an operating aid system such as that shown in FIG. 1.

Le système d'aide à l'exploitation représenté sur cette figure comporte un centre de gestion, PC, relié par des lignes de transmission bilatérales T,, T2, T, ... à des stations S1, S2, S3, ... dispersées, pour le contrôle et la commande d'un réseau, par exemple un pipe-line. Sur le schéma de la figure 1, le centre de gestion PC et l'une des stations S, ont été détaillés dans un exemple de réalisation.The operating assistance system represented in this figure comprises a management center, PC, connected by bilateral transmission lines T ,, T 2 , T, ... to stations S 1 , S 2 , S 3 , ... dispersed, for the control and command of a network, for example a pipeline. In the diagram of FIG. 1, the management center PC and one of the stations S, have been detailed in an exemplary embodiment.

Chaque station éloignée comporte des capteurs d'information, c,, cz, c3 donnant des caractéristiques d'état du réseau. Les informations sont transmises à un processeur p, (pour les stations actives) qui met en mémoire (et traite éventuellement) l'information, et la transmet lors d'une interrogation par le centre de gestion à un modulateurdémodulateur, m,. La sortie de ce modulateur-démodulateur fournit l'information à transmettre sur le canal de transmission T, relié au centre de gestion.Each remote station includes information sensors, c ,, c z , c 3 giving network state characteristics. The information is transmitted to a processor p, (for active stations) which stores (and possibly processes) the information, and transmits it during an interrogation by the management center to a modulator-demodulator, m,. The output of this modulator-demodulator provides the information to be transmitted on the transmission channel T, connected to the management center.

Le centre de gestion PC comporte un modulateur-démodulateur M qui reçoit les informations transmises par les stations éloignées et les transmet après démodulation à un processeur P,. Dans le système représenté, le processeur P, gère la transmission des données reçues des stations qu'il transmet à une mémoire vive, MV, ou aux moyens d'exploitation, ME, associés, tandis qu'un second processeur P2 gère les moyens d'exploitation à partir des données mises en mémoire dans la mémoire MV et des ordres, entrés par un opérateur ; une imprimante 1, qui est un exemple d'unité d'aide à l'exploitation, a été représentée sur cette figure comme périphérique du processeur Pz. D'autres processeurs peuvent également être prévus pour des traitements complémentaires, ainsi que d'autres mémoires. Par ailleurs, la station S,, active, comporte le processeur p,, mais d'autres stations peuvent être seulement passives et ne pas comporter de processeur.The PC management center includes a modulator-demodulator M which receives the information transmitted by the remote stations and transmits it after demodulation to a processor P i. In the system shown, the processor P, manages the transmission of the data received from the stations which it transmits to a random access memory, MV, or to the associated operating means, ME, while a second processor P 2 manages the means operating from data stored in memory MV and orders, entered by an operator; a printer 1, which is an example of an operating aid unit, has been shown in this figure as a peripheral of the processor P z . Other processors can also be provided for additional processing, as well as other memories. Furthermore, the active station S ,, includes the processor p ,, but other stations may be only passive and not include a processor.

Dans un tel système, pour l'élaboration et la transmission d'informations de chronométrie, chaque station comporte un circuit de chronométrie, CH, pour la station S,. Ce circuit de chronométrie a pour fonction de dater les informations transmises par les capteurs c,, c2, c3 In such a system, for the preparation and transmission of timing information, each station includes a timing circuit, CH, for the station S ,. The function of this chronometry circuit is to date the information transmitted by the sensors c ,, c 2 , c 3

... lorsqu'elles apparaissent, les informations datées étant ensuite transmises via le processeur p,, le modem m, et la ligne de transmission normale T, au poste central de gestion PC.... when they appear, the dated information is then transmitted via the processor p ,, the modem m, and the normal transmission line T, to the central management station PC.

La figure 2 représente le schéma détaillé d'un mode de réalisation de ce circuit de chronométrie CH,. Il comporte une horloge 10 dont la sortie est reliée à l'entrée de comptage des deux compteurs 11 et 12. En pratique, l'horloge peut être constituée d'un quartz associé à une série de diviseurs pour obtenir le rythme de comptage souhaité. L'un des compteurs, 11, est synchronisé par des tops de resynchronisation transmis par le poste central de gestion PC à toutes les stations simultanément, par un ordre général. En pratique, cette synchronisation consiste à mettre à zéro le compteur 11. Pour cela, l'ordre de syncronisation oppliqué à l'entrée ERAZ du circuit de chronométrie est transmis via un circuit de mise en forme 13 à l'entrée de remise à zéro, RAZ, du compteur 11. Ce signal est également appliqué à l'entrée de commande d'une boucle de comte rendu, 22, qui réalise un changement d'état de la sortie SCR pour transmission vers le poste central afin d'indiquer que la remise à zéro a bien été réalisée. Le second compteur 12 compte en même temps que le premier mais évolue jusqu'à sa capacité maximale de comptage qui est supérieure au nombre maximal d'impulsions à la fréquence de l'horloge 10 entre deux remises à zéro successives du compteur 11. Lorsque ce compteur 12 est arrivé à sa capacité maximum, une impulsion est fournie sur la sortie D de ce compteur et appliquée à - l'entrée de lecture L du compteur 11. Les sorties parallèles de ce compteur 11 étant reliées aux entrées parallèles du compteur d12, ci dernier est chargé par le contenu du compteur 11 à cet instant puis continue à compter à partir de cette nouvelle valeur initiale, toujours différente de zéro. Les sorties parallèles du compteur 12 donnent à tout moment une référence de temps à une première entrée de données horaires d'une mémoire 14.FIG. 2 represents the detailed diagram of an embodiment of this CH, chronometry circuit. It includes a clock 10, the output of which is connected to the counting input of the two counters 11 and 12. In practice, the clock can be made of a quartz associated with a series of dividers to obtain the desired counting rate. One of the counters, 11, is synchronized by resynchronization ticks transmitted by the central management station PC to all the stations simultaneously, by a general order. In practice, this synchronization consists in zeroing the counter 11. For this, the synchronization order involved in the input E RESET of the chronometry circuit is transmitted via a shaping circuit 13 to the reset input to zero, RESET, of counter 11. This signal is also applied to the control input of a rendered count loop, 22, which performs a change of state of the output S CR for transmission to the central station in order to indicate that the reset has been completed. The second counter 12 counts at the same time as the first but progresses to its maximum counting capacity which is greater than the maximum number of pulses at the frequency of the clock 10 between two successive resets of the counter 11. When this counter 12 has reached its maximum capacity, an impulse is supplied to the output D of this counter and applied to - the read input L of the counter 11. The parallel outputs of this counter 11 are connected to the parallel inputs of the counter d12, the latter is loaded by the content of the counter 11 at this time and then continues to count from this new initial value, always different from zero. The parallel outputs of the counter 12 give a time reference at any time to a first entry of time data from a memory 14.

Pour lever l'ambiguité lorsqu'un évènement est affecté de données horaires appartenant à une série reproduite deux fois dans un intervalle entre deux remises à zéro du premier compteur, le circuit de chronométrie comporte en outre une bascule, 21, dont l'entrée est reliée à la sortie du circuit de mise en forme 13, une impulsion fournie à cette entrée faisant passer la sortie de cette bascule à l'état 1. Cette bascule comporte une entrée de remise à zéro reliée à la sortie D du compteur 11. La sortie, S,, de cette bascule est reliée à une seconde entrée de donnée horaire de la mémoire 14.To resolve the ambiguity when an event is affected by hourly data belonging to a series reproduced twice in an interval between two resets of the first counter, the chronometry circuit further comprises a flip-flop, 21, the input of which is connected to the output of the shaping circuit 13, a pulse supplied to this input passing the output of this flip-flop to state 1. This flip-flop comprises a reset input connected to the output D of the counter 11. The output, S ,, of this flip-flop is connected to a second time data input from memory 14.

Par ailleurs, les capteurs c,, c2' c3 associés à cette station foournissent les signaux qu'ils détectent à des circuits de mise en forme, respectivement 15, 16 et 17. Les sorties de ces circuits sont reliées à l'entrée d'un circuit de filtrage 18 dont la sortie est reliée à une entrée d'ordre de prise en compte de la mémoire 14, qui lorsqu'elle reçoit une impulsion met en mémoire le contenu du compteur 12 présent à la première entrée de données horaires et un bit d'information correspondant à l'état de la seconde entrée de données horaires. Ces données sont transmises à la sortie du circuit de chronométrie pour mise en mémoire, avec l'information correspondante dans le processeur de la station puis transmission, au centre de gestion.Furthermore, the sensors c ,, c 2 ' c 3 associated with this station provide the signals they detect to shaping circuits, respectively 15, 16 and 17. The outputs of these circuits are connected to the input a filter circuit 18, the output of which is connected to an input for taking account of memory 14, which when it receives a pulse stores the content of counter 12 present at the first time data input and an information bit corresponding to the state of the second time data entry. These data are transmitted to the output of the chronometry circuit for storage, with the corresponding information in the station's processor, then transmission to the management center.

A titre d'exemple, si une précision courante de l'ordre de 10 ms sur les bases de temps des stations est suffisante, le circuit de chronométrie ne doit pas introduire une erreur supérieure à 10 ms sur les données horaires transmises. Pour cela, une durée maximum de 106 ms soit seize minutes et quarante secondes doit être prévue entre deux synchronisations. En choisissant la fréquence de comptage égale à 100 Hz (période 10 ms), une capacité de comptage des compteurs égale à 2'6 soit 65536 ou encore 655360 ms, et une resynchronisation générale toutes les 600 000 ms, soit toutes les dix minutes, la précision souhaitée est obtenue.By way of example, if a current precision of the order of 10 ms on the time bases of the stations is sufficient, the chronometry circuit must not introduce an error greater than 10 ms on the hourly data transmitted. For this, a maximum duration of 10 6 ms or sixteen minutes and forty seconds must be provided between two synchronizations. By choosing the counting frequency equal to 100 Hz (period 10 ms), a counting capacity of the counters equal to 2 ' 6 or 65536 or 655 360 ms, and a general resynchronization every 600,000 ms, or every ten minutes, the desired precision is obtained.

Les données horaires à la sortie du compteur 14 sont donc codées sur 16 bits. Dans un système où les bus de transfert d'informations comportent 8 bits, le circuit de chronométrie comporte en outre un multiplexeur 20 qui transfère le contenu de la mémoire en deux octets, le premier transmis sur l'ordre 00 et le second immédiatement après sur ordre 0,. L'état du signal SA de levée d'ambiguité peut être mis en mémoire dans un bit de l'octet réservé à la saisie de l'évènement, cette saisie n'occupant généralement pas 8 bits.The hourly data at the output of the counter 14 are therefore coded on 16 bits. In a system where the information transfer buses comprise 8 bits, the timing circuit further comprises a multiplexer 20 which transfers the content of the memory in two bytes, the first transmitted on the order 0 0 and the second immediately after on order 0 ,. The state of the ambiguity removal signal SA can be stored in a bit of the byte reserved for entering the event, this entry generally not occupying 8 bits.

La transmission des informations de changement d'état des capteurs d'une station est commandée par le centre de gestion. Dans un exemple de réalisation, le processeur d'une station P, peut mettre en mémoire dans sa pile de traitement 21 octets. Si l'on suppose que l'information issue d'un capteur occupe trois octets comme indiqué cidessus, il est possible d'acquérir les données correspondant à 7 informations en provenance des capteurs entre deux interrogations de la station par le poste central de gestion.The transmission of state change information from the sensors of a station is controlled by the management center. In an exemplary embodiment, the processor of a station P, can store in its processing stack 21 bytes. If it is assumed that the information originating from a sensor occupies three bytes as indicated above, it is possible to acquire the data corresponding to 7 information originating from the sensors between two interrogations of the station by the central management station.

En ce qui concerne la station elle-même, les informations des capteurs sont lues toutes les 20 ms par exemple et détectées par variation d'état lors de deux périodes consécutives. L'intervalle minimum de détection des informations en provenance d'un même capteur est donc de 40ms. En conséquence, si des événements surviennent et sont détectés par plusieurs capteurs d'une même station dans un créneau inférieur à 40ms, ils sont associés à une même information horaire. Par contre, elles sont associées aux informations horaires correspondant à leur arrivée si elles sont décalées de plus de 40ms.With regard to the station itself, the information from the sensors is read every 20 ms for example and detected by change of state during two consecutive periods. The minimum interval for detecting information from the same sensor is therefore 40 ms. Consequently, if events occur and are detected by several sensors from the same station in a slot of less than 40 ms, they are associated with the same time information. On the other hand, they are associated with the time information corresponding to their arrival if they are offset by more than 40ms.

La figure 3 représente, pour les capacités des compteurs indiquées, ci-dessus l'évolution du contenu Cpc du compteur du centre de gestion ; ceux C,, et C12 des deux compteurs 11 et 12 à partir d'un instant où leurs contenus sont égaux à une même valeur 4000 et le signal SA. La première remise à zéro du compteur 11 est effectuée à son échéance normale c'est-à-dire dix minutes après la précédente, lorsque le compteur 11 a atteint le contenu 60000. Le second compteur 12 continue à compter jusqu'à 65536. Lors de l'impulsion d'horloge suivante, il est chargé par le contenu du premier compteur, alors à 5537, puis il continue de compter à partir de cette nouvelle valeur initiale. La seconde remise à zéro du premier est supposée effectuée plus tardivement, soit lorsque le contenu du compteur C,, arrive à 65000. Le second n'est de toute façon pas encore arrivé à sa capacité maximale et continue de compter comme à la période précédente jusqu'à 65536. A l'impulsion suivante il est chargé par le contenu du compteur 11, C,, soit 537 et compte à partir de cette nouvelle valeur initiale. Les informations horaires qui seront transmises avec les information d'état correspondantes appartiendront donc aux intervalles suivants :

  • (0,65536), (5537, 65536), (537, 65536) etc...
FIG. 3 represents, for the capacities of the counters indicated, above the evolution of the content Cp c of the counter of the management center; those C ,, and C 12 of the two counters 11 and 12 from an instant when their contents are equal to the same value 4000 and the signal SA. The first reset of counter 11 is carried out at its normal expiry, that is to say ten minutes after the previous one, when counter 11 has reached the content 60000. The second counter 12 continues to count until 65536. During of the next clock pulse, it is loaded by the content of the first counter, then at 5537, then it continues to count from this new initial value. The second reset to zero of the first is assumed to be carried out later, when the content of the counter C ,, arrives at 65000. The second has not yet reached its maximum capacity and continues to count as in the previous period up to 65536. On the next pulse it is loaded by the content of the counter 11, C ,, or 537 and counts from this new initial value. Hourly information which will be transmitted with the corresponding status information will therefore belong to the following intervals:
  • (0.65536), (5537, 65536), (537, 65536) etc ...

Entre les deux remises à zéro, définissant dans un comteur du centre de gestion, l'unité horaire de numéro n, les références comprises entre les valeurs avant initialisation 60000 et 65000 apparaissent deux fois. Le signal S" à deux niveaux donne l'information qui lève l'ambiguité.Between the two resets, defining in a counter of the management center, the hourly unit of number n, the references between the values before initialization 60000 and 65000 appear twice. The two-level signal S " gives the information which removes the ambiguity.

Dans le processeur P, du poste central de gestion PC, le contenu Cpc du compteur modulo 10mn (valeur normale de la durée du comptage dans les stations) commande, à la fin de chaque cycle de 10mn, l'émission de l'ordre général de synchronisation et l'augmentation de une unité du contenu de ce compteur de capacité 144. Comme indiqué ci-dessus, lorsqu'une procédure prioritaire est en cours, l'émission de cet ordre général peut être retardée au maximum jusqu'à ce que le compteur 11 atteigne sa capacité maximum. En effet, il est remis automatiquement à zéro s'il atteint cette valeur. En retour, les informations arrivant au centre de gestion y sont mises en mémoire avec d'une part les données horaires transmises avec elles, gui fixent l'heure dans une unité horaire d'environ 10mn, et d'autre part la valeur du compteur du centre de gestion fixant l'unité horaire correspondante parmi les 144 unités formant 24 heures.In the processor P, of the central management station PC, the content Cp c of the modulo counter 10mn (normal value of the counting time in the stations) commands, at the end of each 10mn cycle, the issuance of the order general synchronization and the increase of one unit of the content of this capacity counter 144. As indicated above, when a priority procedure is in progress, the transmission of this general order can be delayed as much as possible until that the counter 11 reaches its maximum capacity. Indeed, it is automatically reset to zero if it reaches this value. In return, the information arriving at the management center is stored there with on the one hand the hourly data transmitted with them, which set the time in an hourly unit of approximately 10 minutes, and on the other hand the value of the counter. the management center setting the corresponding time unit among the 144 units forming 24 hours.

Il n'y a pas d'ambiguité sur l'affectation des unités horaires aux informations reçues des stations car le cycle d'interrogation réponse de toutes les stations par le centre de gestion a une durée très inférieure à l'unité horaire et que ces interrogations sont prioritaires par rapport à l'émission de l'ordre général de synchronisation.There is no ambiguity on the allocation of time units to the information received from the stations because the response interrogation cycle of all the stations by the management center has a duration much less than the time unit and that these interrogations have priority over the issue of the general synchronization order.

Le processeur P2 de ce même centre de gestion peut commander l'impression des résultats, c'est-à-dire les apparitions des événements avec les heures correspondantes, classés dans l'ordre d'apparition dans les différentes stations, par exemple pour faciliter la reconnaissance d'évènements liés les uns aux autres.The processor P 2 of this same management center can control the printing of the results, that is to say the appearances of the events with the corresponding times, classified in the order of appearance in the different stations, for example for facilitate the recognition of events linked to each other.

L'invention s'applique à toutes les installations de téléconduite ou de télésurveillance disposant d'un poste de gestion technique centralisée dans lesguels il est nécessaire d'obtenir des informations de chronométrie avec une précision meilleure que le temps de cycle de l'installation.The invention applies to all telecontrol or telesurveillance installations having a centralized technical management station in them it is necessary to obtain chronometric information with an accuracy better than the cycle time of the installation.

Elle s'applique notamment à un système d'aide à l'exploitaion des pipe-lines pour la détection et la localisation rapide de fuites. Un tel système comporte en effet des stations de contrôle associées à poste central d'exploitation auquel elles sont reliées par un support de transmission constitué d'une voie téléphonique. Lorsqu'une fuite apparaît à un endroit du réseau, il se produit une chute de pression qui se progage de chaque côté dans la canalisation, sous la forme d'une onde de pression négative. Ces ondes arrivent dans les stations avec des décalages par rapport à l'instant d'apparition de la fuite fonction de la distance entre le point de fuite et les stations, et de la vitesse de cette onde, (de l'ordre de 900 m/s).It applies in particular to a system for assisting in the operation of pipelines for the detection and rapid localization of leaks. Such a system in fact comprises control stations associated with a central operating station to which they are connected by a transmission medium consisting of a telephone channel. When a leak appears at a point in the network, a pressure drop occurs which progresses on each side in the pipeline, in the form of a negative pressure wave. These waves arrive in stations with offsets with respect to the time of appearance of the leak as a function of the distance between the point of escape and the stations, and the speed of this wave, (of the order of 900 m / s).

A partir des données horaires associées à la détection dans deux stations, d'ondes de pression consécutives à l'apparition d'une fuite et de la distance entre ces stations, il est facile de localiser la fuite rapidement et avec une très bonne précision.From the hourly data associated with the detection in two stations, of pressure waves consecutive to the appearance of a leak and of the distance between these stations, it is easy to locate the leak quickly and with very good accuracy.

Ce système est très avantageux car il ne nécessite pas d'horloge très précise dans chaque station et donne néanmoins une bonne précision.This system is very advantageous since it does not require a very precise clock in each station and nevertheless gives good precision.

Claims (5)

1. A method of relative chronometry of events detected by stations which are remotely located from a central managing post, the stations being connected by transmission lines to said post, characterized in
- that in the central post, time reference signals are generated and simultaneously transmitted to the stations, the time interval between two said successive signals defining time units of a duration which is by far longer than the cyckle duration of interrogations-replies of the central post to all the stations;
- that in each station, a first counter is initialized by the received reference signal, that by means of a clock counting pulses are delivered simultaneously to said first and a second counter, that the second counter is charged with the contents of the first counter as soon as the second counter has reached its maximum capacity, this capacity being greater than the maximum number of counting pulses in a time unit, that to each event, time data are associated which are constituted by the contents of the second counter at the moment of the detection of the event, and by an information concerning the removal of ambiguity and having different states at the beginning and at the end of a time unit, and that the information relating to the event, together with corresponding time data, are transmitted during the interrogations of the stations by the central post,
- and that in the central post, the received informations are allocated with supplementary time data corresponding to a time unit number.
2. A method according to claim 1, characterized in that in each station, a confirmation information of the initialization is generated during the initialization of the first counter, this information being transmitted to the managing center.
3. A method according to one of the preceding claims, characterized in that the initialization consists of setting the first counter to zero.
4. A device of a centralized technical management for realizing the chronometry method according to any one of the preceding claims, in which the central management post and the remote stations communicate via a line constituting a transmission channel, the central post communicating with the stations either by general orders taken into account by all the stations, or by particular orders taken into account only by a fraction of the stations, the stations comprisning probes for measuring the events subject to the chronometry, characterized in that it comprises
- in the central post, means for generating and transmitting the time reference signal defining the time units throght a general order, and a counter for counting the time units,
- and i each station, a chronometry circuit (CH,) comprising a clock (10) which is connected to the count input of the first and a second counter (11, 12), a reference signal input being connected to the input of a bistable (21) and to an initialization input (RAZ) of the first counter, the second counter comprising a multiple charge input connected to the multiple output of the first counter, and an output (D) connected on the one hand to a read input (L) of the first counter for controlling the charge operation of the second counter, and on the other hand to a change control input for changing the state of the bistable (21), the chronometry circuit further comprising a transfer circuit (14, 20), a control input of which is coupled to the probes and data inputs of which are coupled to the outputs of the second counter and of the bistable in order to transmit the corresponding time data to the output of the chronometry circuit as soon as an event is detected, the station further comprisning means for registering the detected events and the corresponding time data.
5. A device according to claim 4, characterized in that it is conceived to be usable for rapidly detecting and localizing leaks in a fluid transport network, the stations being distributed along the network and the detected events being waves of negative pressure, consecutive to a leak, these waves being detected by the probes of stations located respectively upstream and downstream of the leak, the localization and the moment of appearance of a leak being determined through time data associated to the detected events.
EP19820401798 1981-10-09 1982-10-01 Chronometry method, centralized management system using this method and its application to the detection of leaks in a fluid transport network Expired EP0077249B1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
FR8119074A FR2514599B1 (en) 1981-10-09 1981-10-09 CHRONOMETRY PROCESS, CENTRALIZED MANAGEMENT SYSTEM IMPLEMENTING THIS METHOD, AND ITS APPLICATION TO DETECTION OF LEAKS IN A FLUID TRANSPORT NETWORK
FR8119074 1981-10-09

Publications (2)

Publication Number Publication Date
EP0077249A1 EP0077249A1 (en) 1983-04-20
EP0077249B1 true EP0077249B1 (en) 1986-01-15

Family

ID=9262909

Family Applications (1)

Application Number Title Priority Date Filing Date
EP19820401798 Expired EP0077249B1 (en) 1981-10-09 1982-10-01 Chronometry method, centralized management system using this method and its application to the detection of leaks in a fluid transport network

Country Status (3)

Country Link
EP (1) EP0077249B1 (en)
DE (1) DE3268577D1 (en)
FR (1) FR2514599B1 (en)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP3618169B2 (en) * 1996-05-16 2005-02-09 カシオ計算機株式会社 Electronic device and system using the electronic device
JP3959552B2 (en) * 1996-06-03 2007-08-15 忠弘 大見 Plumbing tightening management method

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3798650A (en) * 1972-10-02 1974-03-19 Bendix Corp Means for synchronizing clocks in a time ordered communications system

Also Published As

Publication number Publication date
DE3268577D1 (en) 1986-02-27
EP0077249A1 (en) 1983-04-20
FR2514599A1 (en) 1983-04-15
FR2514599B1 (en) 1987-11-13

Similar Documents

Publication Publication Date Title
EP0026135B1 (en) Method of testing a digital data transmission line between two modems and device for carrying out this method
EP0138717B1 (en) Asynchronous digital time-multiplex system with a distributed bus
FR2482807A1 (en) INTERFACE DEVICE FOR RECEIVING PCM SIGNALS OR MODULATED SIGNALS BY PULSE
EP0298810B1 (en) Method and device for the aquisition of synchronisation bits in data transmission systems
FR2466921A1 (en) APPARATUS FOR ASSIGNING AND SELECTING DATA TRANSMISSION CHANNEL PARTS
EP0769748B1 (en) Integrable microprocessor-dedicated DDC cell
FR2463560A1 (en) SWITCHED NETWORK OF TELECOMMUNICATION CENTER IDENTIFYING FAILURES
FR2463553A1 (en) METHOD AND DATA ALIGNMENT CIRCUIT FOR TELEPHONE CENTRAL
EP0077249B1 (en) Chronometry method, centralized management system using this method and its application to the detection of leaks in a fluid transport network
EP0082054B1 (en) Method of synchronising transceiver sets of a frequency-hopping network, and set for carrying out this method
EP0454246B1 (en) Phase-adjusting circuit for signals in a system with double digital links
EP3257254B1 (en) Method for synchronising and rendering multimedia streams
EP0056208A1 (en) Process and device for synchronizing messages
EP0018618B1 (en) Multiplex synchronisation device in a tdm exchange
FR2526249A1 (en) METHOD AND DEVICE FOR AUTOMATICALLY TIMING STATIONS IN A TIME MULTIPLEX FOR OPTICAL BUS AND DATA TRANSMISSION AND PROCESSING SYSTEM COMPRISING SUCH A DEVICE
EP0343083B1 (en) Loss of synchronisation detection device, and its use in a digital transmission network
FR2884035A1 (en) System on chip for forming complex circuit on silicon chip, has transmitter circuit with data bus connecting receiver circuit`s input port to transmitter circuit`s output port, and two links connecting terminals of circuits
WO1996012360A1 (en) Common-wave telecommunication network synchronisation method and system
FR2583946A1 (en) Television system with access control using a variable electronic key
EP0328448B1 (en) Process and device for the synchronisation of terminals communicating via a chain without temporary transparency
FR2487145A1 (en) SYSTEM FOR SYNCHRONIZING SUBSCRIBER TERMINALS OF A DIGITAL TELECOMMUNICATION NETWORK
BE896089R (en) Echo control for two-wire duplex data circuits - has monitor and control circuits to terminate correlation computation at specific value or time
FR2504759A1 (en) Multiplex and demultiplex transmission system for tropospheric link - has control obtained from microprocessor in frame control circuit acting on frame synchronising and descriptive elements
BE1000170A6 (en) Timing unit for circuit analysis data multiplexing in time.
FR2793624A1 (en) Communication network method for synchronization between 2 communication networks exchanging data by frame of informations uses clockm and several clock pulses monitored by counter and uses read information to make synchronization

Legal Events

Date Code Title Description
PUAI Public reference made under article 153(3) epc to a published international application that has entered the european phase

Free format text: ORIGINAL CODE: 0009012

AK Designated contracting states

Designated state(s): BE CH DE GB IT LI NL

17P Request for examination filed

Effective date: 19831007

RAP1 Party data changed (applicant data changed or rights of an application transferred)

Owner name: COMPAGNIE EUROPEENNE DE TELETRANSMISSION C.E.T.T.

GRAA (expected) grant

Free format text: ORIGINAL CODE: 0009210

AK Designated contracting states

Designated state(s): BE CH DE GB IT LI NL

PG25 Lapsed in a contracting state [announced via postgrant information from national office to epo]

Ref country code: NL

Effective date: 19860115

Ref country code: IT

Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT;WARNING: LAPSES OF ITALIAN PATENTS WITH EFFECTIVE DATE BEFORE 2007 MAY HAVE OCCURRED AT ANY TIME BEFORE 2007. THE CORRECT EFFECTIVE DATE MAY BE DIFFERENT FROM THE ONE RECORDED.

Effective date: 19860115

REF Corresponds to:

Ref document number: 3268577

Country of ref document: DE

Date of ref document: 19860227

NLV1 Nl: lapsed or annulled due to failure to fulfill the requirements of art. 29p and 29m of the patents act
PLBE No opposition filed within time limit

Free format text: ORIGINAL CODE: 0009261

STAA Information on the status of an ep patent application or granted ep patent

Free format text: STATUS: NO OPPOSITION FILED WITHIN TIME LIMIT

26N No opposition filed
PGFP Annual fee paid to national office [announced via postgrant information from national office to epo]

Ref country code: GB

Payment date: 19900823

Year of fee payment: 9

PGFP Annual fee paid to national office [announced via postgrant information from national office to epo]

Ref country code: CH

Payment date: 19900921

Year of fee payment: 9

PGFP Annual fee paid to national office [announced via postgrant information from national office to epo]

Ref country code: BE

Payment date: 19900927

Year of fee payment: 9

PGFP Annual fee paid to national office [announced via postgrant information from national office to epo]

Ref country code: DE

Payment date: 19901029

Year of fee payment: 9

PG25 Lapsed in a contracting state [announced via postgrant information from national office to epo]

Ref country code: GB

Effective date: 19911001

PG25 Lapsed in a contracting state [announced via postgrant information from national office to epo]

Ref country code: LI

Effective date: 19911031

Ref country code: CH

Effective date: 19911031

Ref country code: BE

Effective date: 19911031

BERE Be: lapsed

Owner name: CIE EUROPEENNE DE TELETRANSMISSION CETT

Effective date: 19911031

GBPC Gb: european patent ceased through non-payment of renewal fee
REG Reference to a national code

Ref country code: CH

Ref legal event code: PL

PG25 Lapsed in a contracting state [announced via postgrant information from national office to epo]

Ref country code: DE

Effective date: 19920701