BE503645A - - Google Patents

Description

       

  IMPROVEMENTS TO AUTOMATIC TELEPHONE SYSTEMS.

  
The present invention relates to improvements to automatic telephone systems and similar devices and, more particularly-

  
ment, to equipment intended to establish connections thanks to the distinctive arrangement of switching devices used for this purpose.

  
In the control of several switching devices in tandem, according to well-known practice, a control recorder is used by means of which successive switching devices are actuated.

  
in turn, each switching device, except the last, seeking,

  
once activated, to find a free switching device in the next floor. Usually, in such apparatus, the control of each switch is effected through circuits which pass through the preceding switch. When the switching devices are of the static type comprising several control members, it has been proposed to combine several devices of this type in the form of an overall unit comprising

  
both digital and non-digital switching devices,

  
such assemblies being provided for each stage of a connection, except the last. In this case, the command recorder actuates the switching devices of each of the sets which are necessary to establish a given connection each in turn, through circuits extending from one set to the next.

  
The main object of the present invention is to obtain control of the switching devices of the main gear independently.

  
such feed-through circuits and, incidentally, to eliminate the use of non-digital switching at each stage of a connection. In general, the invention resides in the constitution of the command recorder by a certain number of switching devices acting as a device.

  
 <EMI ID = 1.1>

  
n the main gear switching devices by direct control independent of the previous switching devices of this train. Preferably, the switching devices are of the static type responding to a number.

  
According to a feature of the invention, a system of

  
 <EMI ID = 2.1>

  
main are arranged in several stages in tandem and following several distinctive paths, and in which the control devices are also arranged in several stages in tandem, in number one unit less than that of the stages following which the conversation switching devices are arranged ., each of these control devices being

  
 <EMI ID = 3.1>

  
analogous meric, both according to the numerical significance and according to the way to which they belong,

  
 <EMI ID = 4.1>

  
traffic in an indicator area comprising seven indicator digits and a two, three, or four-digit satellite exchange intended to operate in conjunction with a main exchange.,

  
Another feature of the invention, 9 more particularly applicable to the exchanges of an indicator zone, relates to a device by means of which the digits which designate all or part of the number of a called station are first recorded on of individual collecting devices forming part of an order recorder and are subsequently

  
 <EMI ID = 5.1>

  
digits, until all of these digits have been recorded on the various switch-control devices of a train.

  
The description which follows, - with reference to the accompanying drawings by way of nonlimiting examples, will make it clear how the invention

  
 <EMI ID = 6.1>

  
FIG. 8 illustrates the application of the invention to operation with a satellite exchange, where the satellite exchange has three digits.

  
 <EMI ID = 7.1> calling lines (e.g. thousand lines) ,, the corresponding outputs of <EMI ID = 8.1>

  
layers being interconnected, as well as 3D third digit selectors. It will be assumed that each digit selector is constituted by a group of relays, ten for example, but it could equally well be constituted by other devices "such as a total or partial row of contacts of a" crossbar "switch; , or a group of electronic devices, or other kinds of multi-position switching devices including both static-type and "displacement" type multi-position switching devices, but it is more particularly applicable static multi-position switching devices.

  
Figure 1 also shows an IR pulse receiver with an associated pulse receiver IRF finder by means of which an available channel is selected once the destination of a call is <EMI ID = 9.1>

  
be a calling line and the LF equipment is not shown, but the operation is such that at the start of a call, the IR pulse receiver is put into service by means of a free LF equipment

  
 <EMI ID = 10.1>

  
patent filed today by the Applicant for-. "Improvements to automatic telecommunication systems", according to which the dial operation signal or "transmission signal" is given to the calling subscriber who then forms the requested number on the dial.

  
The first digit is recorded by 1DR. By operating,

  
1DR searches for a free 2DR second digit pulse receiver, corresponding to the first digit transmitted, so that 1DR operates as a group selector, although it may only consist of relays or similar devices, as described in the patent application mentioned above. 2DR, which does not function as a group selector, then responds to the second digit transmitted and the third digit transmitted is recorded on 3DR

  
 <EMI ID = 11.1>

  
described in the patent applications filed today by the Applicant for: "Improvements to automatic telecommunications systems" and for "Improvements to automatic telephone systems" and, if this line is available, the start of channel selection is triggered by connecting the battery to the CTL driver. The choice of the path, as described in a patent application filed today by the same Applicant ;, is determined by means of certain test leads connected to the CTL lead. These conductors include TL1D which is connected directly to CTL, to indicate whether the first digit 1D selectors of the different channels are free or busy and which is assigned to the group of lines to which the calling line belongs.

   TL2D is connected to CTL through 1DR to give the indication "occupied" or "free" of the 2D second digit selectors (corresponding to the first digit formed on the dial) through the intermediary.

  
 <EMI ID = 12.1>

  
to indicate whether the 3D third digit selectors of the various channels having access to the desired line are free or occupied, is connected to CTL via 1DR and 2DR. The process for marking TL1D conductors,

  
 <EMI ID = 13.1>

  
free or occupied, is suitably carried out in the manner described in the Belgian patents of the applicant 486,835, 486,836 and 493,564 and in another application filed today, also by the applicant for improvements to automatic telecommunication systems ", that is to say - say using a periodic generator which energizes, at different times of a cycle,

  
 <EMI ID = 14.1>

  
correspond to the different routes. When a selector is actuated, it connects conductors such as PpE, PqE, XxE which are connected to earth, at a time of the cycle characterizing the channel in which the selector is located, to the appropriate conductor of the TL1D test conductors, TL2D, TL3D, depending on the stage and the digital significance of the selector in the switch trains The voltages applied to CTL in turn control the operation of IRF to choose one of the channels Pp, Pq ,, Xx which is available to establish a connection corresponding to the digits formed on <EMI ID = 15.1>

  
pectively or, preferably? at the instant corresponding to the chosen channel, an active voltage can be applied to conductors common to the various

  
 <EMI ID = 16.1>

  
is commanded from 3DR to establish the connection with the called line. The details of the necessary circuits are described in another patent application filed today by the Applicant for improvements to automatic telecommunication systems.

  
Figure 2 shows a variant of the apparatus shown - <EMI ID = 17.1>

  
extended to four digits. The operation is the same as that previously described with reference to Figure 1, except that the second digit pulse receiver is also, in this case, a group selector.

  
 <EMI ID = 18.1>

  
said as described in two other patent applications filed today by the Applicant for "Improvements to automatic systems.

  
 <EMI ID = 19.1>

  
automatic telephony systems "and, if it is free, the selection of an available channel is initiated, taking into account the" free "or" busy "state ;,

  
 <EMI ID = 20.1>

  
As before, 1D, 2D and 3D which have been found available in the chosen channel can be operated successively, or the 1D, 2D, 3D selectors can be operated at the same time as the channel is chosen, the fourth digit selector being commanded from 4DR via the inter-

  
 <EMI ID = 21.1> assuming that there are up to ten exchanges in the network. The diagram of the device shown in this figure is substantially identical to that illustrated in the patent application filed today by the Applicant, for-. "Improvements to automatic telecommunication systems". On the <EMI ID = 22.1> res 1 and 2. In this case there is an additional selector, namely an ExD exchange digits selector and several junction seekers such as J in each channel. The first, second, third and fourth digit selectors are, moreover, the same as those which have been described with regard to FIG. 2. However, the operation is different depending on whether it is a local call or an inter-office call.

  
In the case of a local call, the digit pulse receiver

  
 <EMI ID = 23.1>

  
the dial, i.e. the first digital digit ;, controls the operation of 1DR to choose a free 2DR second digit pulse receiver. The selected 2DR second digit pulse receiver then responds to the second digital digit and searches for a third digit pulse receiver.

  
 <EMI ID = 24.1>

  
merique formed on the dial. When a test has been performed and the called line has been found free, the battery is connected to the CTL test lead

  
 <EMI ID = 25.1>

  
ExDR to match a local exchange call. The TL2D test lead is connected to CTL through ExDR and 1DR in a manner which depends on the CO digit and the first digital digit. The driver

  
 <EMI ID = 26.1>

  
3DR based on the central number and the first three numeric numbers formed on the dial. IRF is therefore controlled so as to choose a channel in which the selectors necessary for establishing the desired connection are available, as determined by the position of ExD, 1D, 2D, 3D in the chosen channel and, by the then, the selectors of each channel are actuated so as to connect a fourth digit 4D selector having access to a called line. 4D is then operated under control of 4DR and the connection is completed. The other operations are fully described in the patent application filed today by the Applicant for “Improvements to automatic telecommunications systems”.

  
In the case of an inter-office call, ExDR, in response to the first digit formed on the dial, establishes the connection with a test conductor TLJ assigned to the requested exchange and to the calling group of lines. The function of J, which can include a seeker switch, is described in more detail in two other patent applications filed today by the Applicant for "improvements to automatic telecommunications systems" and for "improvements to telecommunications systems" , but it is sufficient, in the case of the present invention, to know simply that TLJ is connected to conductors such as PpE, PqE, XxE if there is no

  
has no free junction in the particular channel considered, but is not connected if there is at least one available. When a free channel is found, the battery is then connected to CTL, and TLJ is also connected by ExDR to CTL, to which the TLExD test lead is also connected directly. The IRF channel finder can then operate to choose a free channel and operate the central office digits selector for that channel in order to make it establish the connection either directly with a free trunk line, or with a junction finder which

  
can therefore search for a free junction line. The remaining pulses formed at the dial by the calling party are held in any of a number of dial repeaters such as JDRs which are conveniently available in common for all inter-office calls from the considered exchange. . The pulses stored in JDR are sent as soon as a free trunk line has been found and are transmitted to the called exchange, where the connection is established in a manner analogous to that which has been described with regard to figure 2, since four numbers only are involved. Similar arrangements are made to connect any incoming trunk line, in the remote exchange, to battery power equipment giving access to a free pulse receiver.

  
 <EMI ID = 27.1>

  
more complete de.cet apparatus and more complete details of the circuits are given in the patent application filed today by the Applicant for-.

  
 <EMI ID = 28.1>

  
vention to a controlling system, that is to say a system in which the subscriber forms letters or other characters on the dial which represent the desired exchange and where, then, a controlling apparatus of the exchange, or its equivalent, converts the characters thus formed dial into routing digits (having any desired arbitrary value) to allow connection establishment. The apparatuses are represented simply in schematic form because the details of the circuits themselves do not include anything which cannot be easily developed by the specialists, the description of details of analogous circuits being given in the other patent applications filed to date by the Applicant. and in his bel-

  
 <EMI ID = 29.1>

  
subscriber station connected by lines Lllll to line equipment LE1111 which includes a line relay and a cut-off relay Line Lllll is automatically extended, when the call is started by means of a primary searcher PxFF and a secondary Pp2F researcher up to a

  
 <EMI ID = 30.1>

  
described in another patent application filed today by the Applicant for "improvements to automatic telecommunication systems.

  
 <EMI ID = 31.1>

  
5) and includes an IRHS finder selector which, when PpBF is plugged in., Automatically searches to find a free pulse receiver such as IRo The IRHS selector has an inlet which includes the following eight conductors two SL conductors which are connected by the searchers PxFF and

  
 <EMI ID = 32.1>

  
tine to identify the last digit of the calling number, an IPD conductor intended to identify the penultimate digit of the calling number, two con-

  
 <EMI ID = 33.1>

  
P path to which the primary researcher FF belongs) and RID2 serving to identify the Pp path to which the secondary researcher Pp2F belongs,

  
 <EMI ID = 34.1>

  
and an IHD conductor intended to identify the hundreds digit of the calling number. This identification is carried out - by "marking" the respective conductors by their grounding at an instant of a cycle characterizing the identification in question For convenience, in the drawings anne-

  
 <EMI ID = 35.1>

  
as entering from one side of the rectangle into the central part, while the output conductors are shown in the eccentric position. In general only one output is shown, but in certain cases, as will be seen in what follows, it is useful to represent two outputs. The outgoing conductors generally correspond to the incoming conductors in terms of number and arrangement. It will be noted that the use of a researcher selector is not provided for in another patent application filed today by the Applicant for "Improvements to telecommunications systems" because, in this patent application, the receiver assembly of pulses activated, the first is reserved exclusively for a group of 100 lines.

   This can be advantageous in comparatively small networks where the pulse receiving apparatus is not too expensive or too complicated, but is not desirable or economical in larger networks and, therefore, instead of using a single pulse receiver finder when busy power equipment is put into service, as in another patent application filed today by the Applicant for, "Improvements to Telecommunications Systems "y in this device the functions are divided between an IRHS pulse receiver finder switch and an RF channel finder (see <EMI ID = 36.1>

  
In the current description, it is understood that the pulse receiving equipment, that is to say the equipment which responds directly to the command of the calling subscriber, is individually assigned to a much larger group of calling lines. , five hundred for example, in which case eight pulse receivers would probably be needed for five hundred lines, instead of five percent lines. This translates into savings, even by introducing the necessary additional equipment, such as IRES, and other equipment which has not yet been described. SL conductors are extended up to the ISD pulse director device which includes

  
 <EMI ID = 37.1>

  
discharge valve which is actuated by the line relay and which connects the holding earth to the HL conductor to service relays in <EMI ID = 38.1> <EMI ID = 39.1>

  
also provides an independent earth hold connection for the equipment operated in the other set to be described ISD also includes a changeover relay and several pulse directing relays, so that the first series of pulses is transmitted to the ExA recorder for the first central digit or A digit.The second series of pulses is sent to the ExB recorder for the central digit

  
 <EMI ID = 40.1>

  
are in limited number, or consist of less than ten relays actuated separately or in various combinations On. can provide, for example, five relays actuated in combinations of two, or other variations which are well known in the art can be used. The pulses can then be received by a single series of relays and transferred, when each digit is recorded, to a device which keeps them, represented

  
 <EMI ID = 41.1>

  
lais itself can be used to keep the last digit.

  
As soon as the exchange code has been registered on the recorders

  
 <EMI ID = 42.1>

  
it is best to refer to the equipment that is to be used. To obtain a distinctive set of routing digits for each combination of digits that may be recorded on ExA, ExB and ExC, it is

  
is necessary to operate a number of selectors in tandem on the

  
 <EMI ID = 43.1>

  
the ABC combination instead of a simple juxtaposition. For example, in the well-known directing system, the digit A is registered on a two-way switch which then seeks to find a free directing device in the group represented by the digit formed on the dial, comprising a two-way switch to register the digits B and C, so that the switch of A is in tandem with the switch of. B and C. When using static multi-position switching devices, this arrangement would not be reasonable due to the amount of individual operating elements that would be required, particularly assuming that these operating elements of the switching devices with multiple positions are relays.

   Consequently, instead of the two-way switches mounted in tandem, there are provided, in tandem, channels of switching devices constituted respectively by groups of

  
 <EMI ID = 44.1>

  
used for the main gear selectors, apart from the fact that only three selectors are needed and probably no more than three tracks for the entire exchange. As it is not customary to use more than eight possible values for the first digit A in the master system, since digit C is reserved for calls from a special extension and digit 1 is not not used in the exchange code, the capacity of selector A must be eight relays only. The capacity of the selectors of B to which the selectors of A have access would be restricted to the combinations of the digits A and B which designate one or more exchanges, so that the capacities of the selectors of B would be reduced accordingly.

   The number of selectors of C would naturally depend on the total number of output terminals of the selectors of B representing the exchanges which, of course, would be much lower than the product (8 x 9) and in fact when the figures A and B alone characterize an exchange , a C switch would not be necessary. The capabilities of the selectors of C would, of course, be

  
 <EMI ID = 45.1>

  
is lying. However, it is essential that the total number of output terminals of the selectors of C or all of the switches of B and C be equal.

  
 <EMI ID = 46.1>

  
The arrangement of the selectors of A, B and G in the channels is such that, for each group of five hundred lines or more, three switches of A, for example ;, would be provided, one for each channel. As will be explained in the following, this is probably more than sufficient because the hold time of the selectors of A, B and C is probably less than one second, and the reason for suggesting the number three is that we would thus have a reserve in the event that. a channel would be unavailable, in part or

  
 <EMI ID = 47.1>

  
common to the whole exchange, but naturally the selectors of B could be reserved for a smaller group, made up of two thousand lines or five thousand lines, for example :, if it was considered desirable.

  
 <EMI ID = 48.1>

  
recorded on the Exa, ExB, and ExC recorders, consist of connecting switches A, B and C in tandem to an output terminal of a switch of C (or a switch of B) where the digits of

  
 <EMI ID = 49.1>

  
In FIG. 4s> a single output terminal has been shown for

  
 <EMI ID = 50.1>

  
is a conductor to which voltages are applied at one or more predetermined times of successive cycles indicating the first routing digit required for the exchange selectors located at the calling exchange. Voltages are applied to RD2 at one or more successive cycle times.

  
 <EMI ID = 51.1>

  
operate the local exchange switches. RD2 is necessary if more than one switching stage is required to provide access to the junctions leading to the desired exchange, either directly * or via a tandem exchange. A discriminative voltage is applied or not to conductor ABC depending on whether or not central office code digits of the called number are to be transmitted via the chosen trunk line. For example, if this chosen junction line leads to an exchange

  
 <EMI ID = 52.1>

  
exchange and it is therefore only necessary to transmit to this exchange the numerical digits of the requested number. On the other hand, if the chosen junction line leads to an exchange mounted in tandem through which a connection with the desired exchange must be obtained, then transmitting the exchange code digits (indicator) of the called number, l The controlling equipment of the tandem exchange may be the same for local calls and for calls from outside. This is of particular interest :, given that at least the selectors C are common to all calls in an exchange :, whether local or coming from outside

  
 <EMI ID = 53.1>

  
ABC to be connected to any of the desired terminals to which conductors lE to 10E are connected. The additional terminal can be used for the signal which is to be transmitted through the ABC conductor to mark that the exchange code is to be transmitted to the remote exchange.

  
At selector C arrive the conductors RDI, RD2, ABC which correspond to the output conductors and the OLC conductor controlling the selector.

  
 <EMI ID = 54.1>

  
When pressed to establish the connection with selector C, establishes the connection with the five conductors mentioned. The function of the OLC driver will be described later. The conductors arriving at selector B have been given the same references as the conductors arriving at selector G because, if selector B is operated to establish connection with selector C, then these respective conductors are connected to each other. . Likewise, the conductors which arrive at the selector A are designated by the same notations because, when the selector A is operated to establish the connection with the selector B, then the mentioned conductors are respectively connected to each other. The incoming conductors at selector A are connected to a series of terminals of an ABCRF channel finder which <EMI ID = 55.1>

  
all persons required for the desired exchange code are free. The switches

  
 <EMI ID = 56.1>

  
nible among the selectors of ABC by determining whether the appropriate selectors B and C of the various channels of selectors A, B and C are free or busy, and also to allow the appropriate selectors A and B of the chosen channel to be actuated. The BR recorder has a number of output terminals corresponding to its estimated capacity, each output including an OLB control conductor for actuating the selector B relay of the chosen channel corresponding to the actuated position of BR which, in both case, corresponds to the exchange number recorded on ExB, and a conductor

  
 <EMI ID = 57.1>

  
STL tor which passes through the end-to-end switch and by means of which the desired control pulse is transmitted via the OLB conductor to the selectors B of the chosen channel, TLC, which is connected to the output terminal

  
 <EMI ID = 58.1>

  
the ExB control, and the holding conductor HL. The outputs of AR correspond to the inputs of BR with the addition of a TLB conductor for determining whether the appropriate B selectors of the various channels of the selectors of A, B and C are free or busy. OLA is connected to STL and is used to actuate a relay corresponding to the number A in the selectors of A of the chosen channel. The inputs of AR correspond to the outputs. An RRF finder is provided in association with the pulse receiver to find an available channel passing through an AR recorder and a BR recorder corresponding to the number A. To control the operations of AR and BR and the selectors

  
A, B and C, the central office code recorders ExA, ExB and ExC are made up as follows: ExA has two outputs, an OLAR driver which allows to actuate a relay of the AR recorder corresponding to the digit recorded by ExA, and a driver TLBR by which is determined the free or occupied condition of the BR recorders in the various channels corresponding to the figure recorded by ExAo Five conductors arrive at ExA, namely STL which transmits the control pulse through OLAR, ILA through which the The ExA recorder is activated, TLBR which is connected to the. outgoing driver

  
TLBR according to the recorded figure, the holding conductor OL, and

  
the OLA command lead by means of which a command corresponding to the recorded digit can be sent from the cent digit recorder

  
 <EMI ID = 59.1>

  
tral ExB receives three input conductors, ILB through which it is actuated, OLB through which it exercises a command corresponding to the number

  
 <EMI ID = 60.1>

  
The operation is as follows as soon as the digits of cent

  
 <EMI ID = 61.1>

  
response at the end of the signal from the third digit of the exchange code allows RRF to perform its function by connecting the battery to the common conductor

  
 <EMI ID = 62.1>

  
This function will be easy to understand by referring to the patent application filed today by the Applicant for "Improvements to automatic telecommunications systems", and therefore it is shown here only schematically. The common CTL conductor is connected to the TLAR conductor which makes it possible to determine whether the AR recorders of the various channels (probably three in number in the present case) are free or occupied, conditions which are determined by the connection or nonconnection to earth at the times. of a cycle which characterize the respective channels CTL is thus connected to the TLBR conductor by means of an actuated relay of ExA, so as to make known in a similar way whether the various channels passing through the recorders BR and corresponding to the digit recorded by ExA are free or busy.

  
 <EMI ID = 63.1> communication ,; the earth is connected to CTL at the instant of a corresponding cycle

  
 <EMI ID = 64.1>

  
responding to a free path. It should be noted that if no channel is free, an improbable case, the operating pulse receiver could very well wait for several cycles for a channel to become free thanks to the great speed of operation and consequently the shortness of time. while

  
 <EMI ID = 65.1>

  
As soon as a lane is free, STR and RRF operate, RRF connects its input conductors to an output conductor leading to the chosen lane, and STR applies the active potential to the STL conductor at a time

  
 <EMI ID = 66.1>

  
an AR relay corresponding to the exchange number recorded by ExA will be activated. At the same time? OLB which., Passing through 1-lower winding of the

  
 <EMI ID = 67.1>

  
activated according to the number recorded by ExB. This operation must not last more than two hundred thousandths of a second and the R1R relay trips

  
 <EMI ID = 68.1>

  
drives and? through the ILB conductor via AR, it is connected so as to determine the free or occupied condition of the selectors B of the various channels connected to the output of the selectors A to the corresponding terminals

  
 <EMI ID = 69.1>

  
switchboard code digit B and can be reached by an output conductor of switch A actuated according to the switchboard code digit recorded by ExAo

  
Consequently, at each instant of a cycle corresponding to a

  
 <EMI ID = 70.1>

  
ponible, the search continues without any equipment functioning until a free channel is found and STRR and ABCRF are activated. ABCRF chooses an output conductor leading to selector A of a free channel and STR acts by connecting earth to STL at a time corresponding to the chosen channel. The control pulses are transmitted by the OLA and OLB conductors so as to activate the applied relays in selectors A and B.

  
 <EMI ID = 71.1>

  
and ABC where the routing digits are located specially assigned to the exchange code which has been formed on the dial.

  
It should be noted that the necessary number of DF distribution benches through which the information sought relating to the exchange code is transmitted could be the same as the number of channels.

  
 <EMI ID = 72.1>

  
at three. But if we assemble the corresponding outputs of the corresponding selectors C of the various channels., - only one bank is necessary. It will also be noted that the maximum duration of the operation, assuming that twenty thousandths of a second are granted to the operation of a relay and that there are only three channels of ABC selectors and AR and BR recorders, will be 3 (for

  
 <EMI ID = 73.1>

  
second, for a total of five hundred and twenty thousandths of a second, so that the average duration will be of an order of magnitude somewhat less than three hundred thousandths of a second. Obviously, assuming that there is no need to add a waiting period for the case where all the channels are momentarily occupied at the same time, the information sought concerning the routing is then transmitted in the opposite direction to the receiver pulses from the output of selector C through switches B and A and selectors

  
 <EMI ID = 74.1>

  
hundred thousandths of a second, so that the total time during which all the equipment is occupied in determining the particular conditions

  
 <EMI ID = 75.1>

  
therefore be available in the pulse receiver long before the subscriber has finished entering the four digital digits on the dial.

  
RDI driver returns through selectors C, B, A and seekers ABCRF and RRF to the routing digit recorder

  
 <EMI ID = 76.1>

  
the operation of ExDl in a chosen channel available for the calling line The second digit is transmitted by RD2 to control the operation of ExRD2 which in turn is adapted to the control of the second stage exchange digit selectors, such as ExD2o

  
After being formed on the dial, the digital digits

  
 <EMI ID = 77.1>

  
There are a number of possible appeals that should be considered.

  
 <EMI ID = 78.1>

  
There is little need to study in detail the alternatives in which one or two stages of central office digit selectors are to be used for a call. For convenience, it will be assumed that local calls do not require more than one selector, central office digit, while all outside calls will involve two; it is estimated that

  
 <EMI ID = 79.1>

  
assignees in the event that these assumptions are not realized. If it is a local call, no command is carried out by RD2 which is disconnected.

  
 <EMI ID = 80.1>

  
dant to the local exchange. The ABC conductor is disconnected. If the call is transmitted to an extreme exchange, RDI and RD2 are both in action, but the ABC conductor is disconnected Finally, if the call is to be transmitted to a tandem exchange, a potential is applied to the ABC conductor, which serves to ef-

  
 <EMI ID = 81.1>

  
the chosen junction line, before the digital digits are transmitted by this same line o

  
It should be noted that the switchboard number selectors

  
 <EMI ID = 82.1>

  
2D, 3D and FF used for local calls are controlled respectively by command registers with - one floor less., Namely

  
 <EMI ID = 83.1>

  
For example in the case of an exchange call comprising two exchange digit selectors and a junction line finder common to a certain number of selectors of this type, which seeker answers automatically, after having been chosen, so as to find a free junction line (having been recognized before the track search that a free junction line can be reached by this finder) this junction finder forms with ExD1 and ExD2 three stages requiring two stages of command recorders which are designated by the notations ExDlR and ExD2Ro In the case of local calls ;? main channel selectors and switches

  
 <EMI ID = 84.1>

  
will note that the latter notations correspond to similar notations used for the control devices in another patent application filed today by the Applicant for. improvements to automatic telecommunication systems, but it should be understood that in these ExDlR devices, 1DR and 2DR are group selectors, while in the current arrangement group selection is avoided by arranging the selectors in question according to a number of ways and determining

  
 <EMI ID = 85.1>

  
tion of the equipment represented in another patent application filed today by the Applicant for Improvements to automatic telecommunication systems. In the current case, the following auxiliary control equipment is provided for inter-office calls, first floor

  
 <EMI ID = 86.1>

  
The link is also arranged in paths and is selected directly from the pulse receiver. It will be noted that one of the control stages in relation to two-digit routing inter-exchange calls

  
 <EMI ID = 87.1>

  
while in the case of local calls. \) in a four-digit exchange, the two control stages are important Since one less switch is needed at each successive control stage and since each stage operates very quickly, it is estimated that no more than three lanes would be required on each floor.

  
It should be understood however that, like ExDIR, ExD2R,

  
 <EMI ID = 88.1>

  
there are three channels per hundred lines, there will be fifteen per group of five hundred lines, and the pulse receiver must not only choose a free channel passing through the ExDIR, ExD2R recorders,

  
 <EMI ID = 89.1>

  
group of one hundred calling lines; therefore, it is convenient to combine the selection of a channel with the selection of the calling group as will be explained later by using a finder having a capacity of fifteen lines while the finder for finding a free channel among the ERDX selectors. , 1DX and 2DX only need a 3 capacity.

  
 <EMI ID = 90.1>

  
the two conversation conductors, OL for a control conductor and EL for a holding conductor. Two conductors are shown at the output of JH and correspond to a junction line JL. It is assumed that the rectangle JH also contains a repeater for each junction line to which JH gives access. Associated respectively with the outputs of ExD1, ExD2,

  
 <EMI ID = 91.1>

  
successive readers of the trains in the respective tracks (only one of which is shown), - the two OLExDl conductors shown give

  
 <EMI ID = 92.1>

  
identical to the inputs except for the junction finder JH and for FF. The general arrangement of JH is similar to that of the junction finder of a single switching stage, as described in another application.

  
 <EMI ID = 93.1>

  
automatic telecommunication systems ". The OLExD2 control conductor provided at the ExD2R output is intended to actuate the appropriate ExD2 relay which will allow access to the junction finder JH as well as this

  
 <EMI ID = 94.1>

  
agree with the last digit of, called number., and only has SL outputs

  
and HL to the LE line apparatus which comprises the line and cut-off relays, which in turn provide access to a called substation. For convenience, two FF outputs are shown leading to two separate lines, so as to indicate BTFF connections, which will determine the free or busy condition of each of the lines connected to FF. The role of BTFF is described more particularly in the patent applications filed today by the Applicant for “Improvements to automatic telecommunications systems” and for “Improvements to automatic telephone systems”.

  
 <EMI ID = 95.1>

  
exterior indicates the free or occupied condition of the first digit selectors of the various channels of the required direction in the case of a local call or of the second-stage ExD2 exchange selectors of the various channels

  
 <EMI ID = 96.1>

  
designated by the notation TL2D-J because of its use to determine the free or busy condition of either 2D second digit selectors or J junctions depending on the destination of the call; the fourth TL3D conductor is provided to determine the free or occupied condition of the third digit selectors; the fifth TLFF conductor determines the free or occupied condition of the "final seekers" or fourth selectors.

  
 <EMI ID = 97.1>

  
serving as the control conductor of either the third digit 3DR recorder or 1? ExD2R second stage central office digit recorder, depending on the call destination; the seventh driver, designated by

  
 <EMI ID = 98.1>

  
the last BTFF conductor is the test conductor connected to the group of lines of which the called line belongs which are accessible from a "final

  
 <EMI ID = 99.1>

  
In addition, the OLExDl conductor connects an ExDIR output conductor to the relay which gives access in ExDl to the corresponding output of the various

  
 <EMI ID = 100.1>

  
ties of ExDIR The outputs of ExD2R are the following OLExD2 by means of which the associated relay is actuated - to the outputs of ExD2 in the various channels which correspond to the selected ExD2R output, and TLJ which determines the free or occupied condition of the junction lines or groups of trunk lines associated with the various routes which lead to the required exchange and which correspond to the joint operation of ExD1 and ExD2. The ExDIR outputs described correspond to those of all inter-office calls, only one of which is shown requiring two CO routing digits.

  
Another set of ExDIR outputs are used only for local calls and connect when a local call occurs. These outputs include an STL feed-through conductor which is successively connected.

  
 <EMI ID = 101.1>

  
pulses so as to allow relays that correspond to the position taken by successive pulse receivers. and which are associated with 1D, 2D and 3D in the various channels, to be actuated according to a corresponding choice.

  
 <EMI ID = 102.1>

  
3DR in the way which will be described below. The HL conductor is connected to all digit pulse receivers in order to keep them energized.

  
The ERDX, 1DX, 2DX auxiliary control equipment is planned

  
 <EMI ID = 103.1>

  
exchanges or a local call In this case no pulse receiver corresponding to ExD2R or to 3DR is necessary, as will be explained later, ERDX has six input conductors, the role of which will be easily understood. after what has been explained previously. These conductors are STR which is used to actuate the appropriate relays in the pulse receivers of the

  
 <EMI ID = 104.1>

  
the free or occupied condition of the 2DR pulse receptors among the various pathways, these pulse receptors being chosen in accordance with the operation of 1DX; TL3DR performs an analogous function vis-à-vis 3DR third digit pulse receivers, while OL2DX is the

  
 <EMI ID = 105.1>

  
In addition to the previous equipment and in addition to the RF channel finder whose function is to find a free connection channel passing through ExD1, ExD2 and JH in the case of inter-exchange calls, and through 1D, 2D, 3D and FF in

  
 <EMI ID = 106.1>

  
ceded to the group of one hundred calling lines among the ExDlR, ExD2R and JH recorders in the case of inter-office calls, and among ExDlR, 1DR, 2DR, 3DR and 4DR in the case of local calls.

  
The transmission of a desired number by a calling station, the translation of exchange digits and the retention of the digits, has already been described.

  
 <EMI ID = 107.1>

  
local, case where ExRD1 operates alone if it has been recognized that ExRD2 is not needed for local calls. When ExRD1 is activated, a channel search is triggered by connecting the battery to CTLX at the moment when the last digit is recorded by 4ND. At the same time, the free or busy condition of the ERDX switchboard auxiliary digit registers is signaled by CTLX through, via TLERD, which is in direct connection and ser &#65533;

  
to prevent the STX relay and the RLX finder. to operate on any channel not including a free ERDX.

  
Since ExRDl was assigned to a local call, it connected the

  
 <EMI ID = 108.1>

  
a channel passing through an ERDX, a 1DX and a 2DX all free. STX works

  
at this moment and, via the OLERDX control conductor corresponding to a local call - and the OL1DX conductor corresponding to the first recorded digital digit, causes the operation of the ERDX and 1DX corresponding to the first routing digit recorded by ExRDl and to the pre-

  
 <EMI ID = 109.1>

  
from 2ND through OL2D, OL2DX passing through ERDX and 1DX to control the operation of 2DX, in the chosen channel, in accordance with the second numeric digit. As soon as 2DX is running, the battery is connected to CTLR which is also connected to the following leads TLExDIR which indicates the free or occupied condition of first digit loggers such as 1DR; TL2DR

  
 <EMI ID = 110.1>

  
and TL2DR which plays the same role with respect to the 3DR third digit recorder. In each case, the recorders are chosen according to the position

  
 <EMI ID = 111.1>

  
As explained above, the IR equipment is common to five hundred lines, while the control equipment comprising ExLDR,

  
 <EMI ID = 112.1>

  
up to five sets of the latter apparatus for one of the IR apparatus, and therefore RFR must have a capacity five times greater than that which would be required for a single group of one hundred lines. It is therefore important that RFR only answer to choose the channel assigned to the group of one hundred calling lines, and this result is obtained by means of the IHD conductor which is connected.

  
 <EMI ID = 113.1>

  
the battery to GTLR at the times reserved for the group of the calling line. For example, if the cycle has fifteen instants and if only three bridge control channels are needed for each group of one hundred call lines-

  
 <EMI ID = 114.1>

  
groups, each group giving access to three channels and corresponding to one

  
 <EMI ID = 115.1>

  
only if a free channel is found among the channels reserved for the group of

  
 <EMI ID = 116.1>

  
held by connecting the battery to CTLR under the control of the HD relay and a relay interposed on the path of the OL2DX driver activated when 2DX is operating. The free or busy condition of the recorders in the various

  
 <EMI ID = 117.1>

  
as described in patent applications filed today by the Applicant for "Improvements to automatic telecommunication systems" and for "Improvements to automatic telephone systems" o If the called line is busy, a pulse is sent

  
 <EMI ID = 118.1>

  
line called is free the battery is connected to CTL by 1RT passing through RFX and RFR so as to allow the search for a track passing through the selectors of the main gear CTL is marked according to the free condition or

  
 <EMI ID = 119.1>

  
dant to the channel which includes the secondary 2F searcher used by the calling line &#65533; TLFFC connects via 2FR after operation controlled via IPD in accordance with the penultimate digit of the calling line, and disconnected by 1D1R (which is controlled via conductor R1D1) at times corresponding to the channels which include the

  
 <EMI ID = 120.1>

  
associated paring is initiated and communication between the calling line and called line is established o Battery power and ringing equipment (not shown) can be conveniently installed between ExD1 and 1D as described in the filed patent application this day by the Applicant for g "Improvements in automatic tele-

  
 <EMI ID = 121.1>

  
path were recorded by ERD1 and ERD2 as described, the path search is deferred as before until the moment when the fourth digit

  
 <EMI ID = 122.1>

  
In this case, there is only one TLERD test driver, since it suffices to find a lane in which ERDX is free; as a result, when this free channel is found STX and RFX work and, by 1? intermediary of the STX and OLERDX conductors, an ERDX relay corresponding to the routing digit is actuated a relay (not shown) is interposed in the circuits

  
 <EMI ID = 123.1>

  
following which the search for a free route passing through ExDlR and ExD2R

  
is triggered, and when a free route is found STR operates so as to cause ExDlR to operate via OLExDlR while ExD2R is operated from ExRD2 via OLExD2R

  
 <EMI ID = 124.1>

  
so as to close one point of a circuit, another point of which is controlled by a relay interposed in the circuits for maintaining the excitation of the ExDIR relays which correspond to the inter-exchange calls; consequently, the battery is connected to CTL only in the case of inter-exchange calls and when a command impulse passes through the conductor OL3DR-ExD2R., and not in the case of local calls. The test leads connected to CTL include TLBF, which, as before, is disconnected, at an instant of a cycle corresponding to the path passing through the secondary seeker 2F used by the calling line and TLFFC selected in accordance with the forward - last digit of the calling line by 2FR after being operated via IPD.

   TLFFC, as explained above, is controlled by 1D1R so as to be disconnected at times corresponding to the channels for which the primary searcher FF has been reserved which is put into service by the calling line. The TLExD2 conductors via ExDlR and TLJ via ExDIR, and ExD2R are additionally connected to CTL. When a free path is found, ST and RF operate, and ST causes ExD1 and ExD2 to operate in order to choose a JH finder that automatically searches for a free trunk line When the trunk line is encountered, appropriate means interspersed in OL make it possible to transmit, at times determined by the chosen junction line, pulses corresponding either to the figures recorded by ExA,

  
 <EMI ID = 125.1>

  
that an impulse at a distinctive instant of the cycle characterizes the figure formed on the dial. These figures must be transmitted successively and must be received by an appropriate apparatus synchronized from the point of view of the duration of the cycles with the cycles of the original exchange. In another alternative, a dial repeater could be associated with IR to register the ABCS digits and a second dial repeater to register the first, second, third and fourth digital digits, with transmission taking place by successive series of pulses.

   When the last pulse has been transmitted, whatever the form of transmission adopted, IR is released ;, and communication can be established between the calling line and the chosen trunk line; generally, this takes place in the manner described in the Applicant's patent application filed today for '. "Improvements to automatic telecommunication systems".

  
In the examples shown, it has been assumed that the digit pulse receivers are all relays or their equivalents such as 9-tube gas discharge "crossbar" switches, or the like, and the like.

  
 <EMI ID = 126.1>

  
Since group selectors are rather expensive and in order to save money, it may be desirable to use instead of the relay groups two-movement switches of the type well known in the art and fitted with base metal contacts The usual objection to these ordinary metal contacts is that they are liable to introduce microphone noises into speech circuits, a particularly serious objection when using speech repeaters. This objection does not naturally apply to pulse receivers since these devices are used before the start of conversation and are not used for at all. the conversation. A two-digit selector can for example

  
 <EMI ID = 127.1>

  
in which case it responds to one digit then searches for a free exit, or responds to two successive digits s.

  
FIG. 7 schematically illustrates an arrangement which may be suitable for inter-central operation similar to the arrangement of the fi

  
 <EMI ID = 128.1>

  
central and searches for either a free first digit pulse receiver or a free screen repeater, and 1DR operates to respond to the first digital digit and searches for a second digit pulse receiver.

  
 <EMI ID = 129.1>

  
mies by replacing groups of relays with a two-digit switch. For the rest, the operation is identical to that which was described in

  
 <EMI ID = 130.1>

  
group in pulse receivers, does not lend itself so easily to the use of two-digit switches, as these must be ac-

  
 <EMI ID = 131.1>

  
sions and are not able to be actuated by a single pulse given at a determined instant of the cycle corresponding to the choice of a free channel.

  
 <EMI ID = 132.1>

  
drives has been illustrated in relation to FIG. 7, it will be understood that it can equally well be applied to the arrangements represented by the FIGS.

  
 <EMI ID = 133.1>

  
be formed and another stage of pulse receivers could be removed

  
The non-application of the invention to operation with a satellite exchange will now be described with reference to FIG. 8 which represents

  
 <EMI ID = 134.1>

  
create part of a multiple exchange zone using one digit for the selection of an exchange and four numeric digits for the identification of a subscriber. Specialists will have no difficulty in deducing from the following description the arrangements to be made for two or four-digit satellites, for example, and in extending the application of the invention to a single main exchange or to larger ones. networks. As already indicated here, other modifications can be made to the particular method used to control the choice of a channel: LE line equipment, FF primary finder, secondary finder.

  
 <EMI ID = 136.1>

  
dran JDR.

  
The operation is such that when a subscriber picks up his receiver, the first and second line finders FF and 2F and the IRF pulse receiver finder make the connection of the line.

  
 <EMI ID = 137.1>

  
fully described in detail in another patent application filed today by the Applicant for improvements to automatic telecommunication systems. The pulse receiver comprises the following equipment.

  
 <EMI ID = 138.1>

  
and 9a which comprises a group of relays responding successively to the digits transmitted until it is recognized whether the call is to be established locally or not and which allows the appropriate operations to be accomplished in the manner described below, according to the destination of the call; a repeater

  
 <EMI ID = 139.1>

  
of second digit 2DR constituted by a series of researchers chosen according to the second digit received recorded by DE, the researcher chosen looking for a receiver of third digit 3DR.

  
The JDR dial repeater can take the form, which suits it well, of the repeater illustrated in another patent application filed today by the Applicant for improvements to automatic telecommunication systems, except that the control of the transmission and the marking s 'perform from the DE equipment, as will be described below. The secondary searcher 2FR pulse receiver which is used to recognize the free or busy condition of the "end-searchers" giving access to the calling line, and the fourth digit pulse receiver.

  
 <EMI ID = 140.1>

  
may be of the form described and illustrated in said application. The 2DR digital second digit pulse receiver comprises only the searchers of the corresponding second digit pulse receiver described in said application; 2D9 3D, 4D, JS, FR, 3DR can all be exactly as they are represented in said application, so that they have only been represented here by simple rectangles. DE is fully represented in FIG. 9 with the conductors connected to the various equipment items shown in global form. The common test conductor

  
and the interconnection relay ST perform functions analogous to those described in said application but the circumstances of their action are somewhat different, as will be explained. For help

  
to follow the circuits, CTL and the ST relay are shown both in the <EMI ID = 141.1>

  
 <EMI ID = 142.1>

  
the numbers 21A, so that all calls sent will be directed to

  
the main exchange, except for calls where the first digit is 2, the second digit 1 and the third digit A, the letter which designates any- '

  
 <EMI ID = 143.1>

  
not the number 2, we already know that the call is intended for the main exchange and, consequently, the search for an available channel with access to a free trunk can begin immediately. Whatever the number of free junction lines, they can be distributed appropriately among the available channels so that the search capacity required for JR is low, for example reduced to two or three relays, the distribution of the junction lines relative to to the means which can be carried out according to the provisions described in the patent application filed today by the Applicant for g "Improvements made to telecommunications systems".

  
In order to make the choice of the channel as soon as a sufficient number of digits have been formed to indicate that the call must be directed to the main exchange, a JSR relay is actuated in DE and this relay, or-

  
 <EMI ID = 144.1>

  
also a TLJ test driver, who indicates the lanes with free exits to the main Central. The free or occupied condition of the LF power supply equipment is marked on the TLBF test lead connected directly to CTL. 2FR is controlled via IPD so as to take a position corresponding to that of 2F in order to connect the marked TLFF conductor to CTL. according to the free or busy condition of the primary researchers FF in the various channels giving access to the calling line Consequently, an IRF relay is actuated at the instant which corresponds to the first, channel found free in series with the SI relay "ST causes in DE the operation of the delayed relay TR which, taking into account

  
 <EMI ID = 145.1>

  
digit sent until it is recognized that it is a local call) to be activated to transmit the first digit to the main exchange via the chosen trunk line. Subsequent pulses received by DE only affect JDR. &#65533;, which responds to successive digits and transmits them each in turn to the main exchange. As soon as the pulses stored by - have been transmitted ;, the earth is connected to the BDL breaking conductor so as to actuate the BD relay, which releases the equipment associated with IRF and establishes communication from the calling station to the junction line JL through researchers FF and 2F of the chosen path and a

  
 <EMI ID = 146.1>

  
The battery power supply is installed as usual in the

  
 <EMI ID = 147.1>

  
still certain that the call is local; in this case ;, a relay D2 (figure 8) of DE is actuated when the digit 2 is formed and the set of relays which responded to the first digit is released so as to be ready, to respond to the next digit. If the next digit is other than a ^ JSR is actuated and the same operations as previously described take place, i.e. the battery is connected to the CTL lead, to which TLFF and TLBF are also connected. As before, the second digit is recorded by JDR and as soon as a free path is found leading to the main exchange, the operation is such that the pulses recorded by JDR are transmitted to the main exchange as explained above, and so on. for other digits as they are received.

   If, on the contrary, the second digit transmitted is one, a second relay D1-de DE is actuated and the set of relays which responds to the pulses in DE is released to be ready to respond to the third series of pulses. This third signal is therefore recorded both by JDR and by said set of relays. If this signal consists of one or two pulses, it is recognized by this as. the call is intended for the main exchange, and the JSR relay is actuated as before so as to cause the same operations. If, on the contrary, the third digit is other than 1. Or 2, that is to say if this

  
 <EMI ID = 148.1>

  
the numerical value of the formed digit triggers the operation of the appropriate finder assembly in 2DR to choose a third digit pulse receiver 3DR corresponding to the third digital digit. As it is now certain that the call is local., RPG can be released and return to idle. 3DR responds to the third digital digit and 4DR to the fourth digital digit. The called subscriber line is then es-

  
 <EMI ID = 149.1>

  
described in patent applications filed today by the Applicant for "Improvements in automatic telecommunication systems" and for "Improvements in automatic telephone systems.

  
 <EMI ID = 150.1>

  
fourth numeric digit of the called number. 2F and FF of the chosen channel are actuated via the IPD and ILD conductors marked respectively with the penultimate and the last digit of the calling line. The BFE battery power supply assembly can be conveniently located between 3D and 2D and is used to provide ringing current to the called line and optionally connect the battery to both the calling line and the called line.

  
 <EMI ID = 151.1>

  
given as an example only, as satellite exchanges can be identified by one, two, three or four digits In the case of a two-digit system 3D would replace 2D, and 4D 3D and 3DR would be deleted as well as 2DR since the DE relays would respond to the second to last digit and choose the appropriate TL4D test lead. An additional relay of discrimination would however be provided in DE.

  
In the case of a single digit device, only primary searchers and final selectors would be needed. Channel search for local calls would not be necessary since the initial channel used for IR selection would be available, and considerable simplifications could be made to the equipment.

  
In the case of a four-digit satellite, it would be necessary to provide an additional first digit selector and an additional first digit pulse receiver, and one of the DE discrimination relays could be omitted. Exactly as in the cases illustrated by Figures 1, 2 and 3 ;, group selection in the pulse reception stages can be replaced by channel selection if the satellite exchange is of sufficient importance to justify it. The arrangement shown is probably the best example of a general case that one can choose.

  
Figure 9 shows as an example a team circuit- <EMI ID = 152.1>

  
te a line relay to which the conversation conductors of the calling line are extended by the SL conductors coming from the IRF pulse receiver finder (figure 8), B represents a discharge relay energized when relay A is actuated and which is used to connect to sockets

  
 <EMI ID = 153.1>

  
side that the calling line and, on the other hand, IRF and equipment below IRF. Relay C is a changeover relay which responds to successive series of pulses, and CC represents an auxiliary changeover relay intended

  
to perform certain functions described below.

  
 <EMI ID = 154.1>

  
ten) which respond successively to series of pulses sent by the calling station, and which exert a command making it possible to recognize whether the call is a local call, or if it is intended for the main exchange; these relays also determine the operation of the 2DR second digit pulse receiver for the second digital digit. The JRS relay is a relay that operates whenever it has been determined that the call is intended for the primary exchange. D2, D1, DA are relays activated successively when the local call discrimination digits 2, 1 and A are formed. IS3 and IS4 are pulse director switches for the third and fourth digital digits -.

   When relay A operates in response to the first series of pulses, two pulse circuits are made effective, one conducts pulses from the earth connected to the rear contact from BD to JDR through the rear contact of relay A , the front contact of. relay B, the rear contact of relay DA and conductor IL. The pulses are therefore stored by JDR as described, for example, in the patent application filed today by the Applicant for g "Improvements to automatic telecommunications systems". In the second circuit, the pulses pass from the earth on the one hand to relay C and to a battery via the rear contacts of relays BD and A and the front contact of relay B, and on the other hand, following a bypass at a battery via the rear contacts of the DA, JSR relays,

  
 <EMI ID = 155.1>

  
starts and closes a DC relay circuit which also operates. Relay C also closes the JDR marking solenoid circuit via MML.

  
 <EMI ID = 156.1> <EMI ID = 157.1>

  
and opens the blocking circuit of the relay RI which releases; R2 itself is blocked under the dependence of the next relay and so on along

  
 <EMI ID = 158.1>

  
form.

  
 <EMI ID = 159.1>

  
which indicates that the call should be directed to the main exchange, it follows that at the end of the first series of pulses, when C releases and before the DC relay releases, a momentary circuit will be established which, passing through the rear contact of relay C, the front contact of

  
 <EMI ID = 160.1>

  
fired passing through SS and TR relays through an actuated contact of JSR. These last two relays operate, SS is blocked, but TR whose release is delayed drops out a little after the momentary operation of ST ceases. ST is unloaded after a time interval which ensures that a free trunk line has been brought into service. When TR is released, it closes through TML a circuit passing through the transmission electromagnet which allows JDR to transmit through the OL conductor via the

  
 <EMI ID = 161.1>

  
the outgoing trunk line, and to control the establishment of the connection in the main exchange. The operation of the output pulse repeater and the arrival arrangements at the main exchange may be the same as those described for an exchange call in the request.

  
 <EMI ID = 162.1>

  
telecommunications ". Subsequent pulses do not affect

  
 <EMI ID = 163.1>

  
received, it is transmitted to the remote exchange, and, when the dial repeater returns to idle, it connects the A + lE conductor to the rup-

  
 <EMI ID = 164.1>

  
pulse receiver finder, and to allow the transmission of the call, by the chosen route, from the calling line to the chosen junction and from there to the main exchange.

  
On the contrary, if the first digit formed on the dial is 2, the destination of the call is not yet determined. Relay R2 operates however and the following circuit is established at the end of the formation of the number on the earth dials, rear contact of relay C, front contact

  
 <EMI ID = 165.1>

  
ment 'and gets blocked in a circuit going from the earth to the battery, passing through the front contact of relay D2 and the', two windings of the relay

  
 <EMI ID = 166.1> will be established at the end of the formation of this digits earth, rear contact

  
 <EMI ID = 167.1>

  
laughing at the JSR relay. JSR relay works as before, opens the

  
 <EMI ID = 168.1>

  
so that only the dial repeater receives the following digits and transmits them by the channel found free to the main exchange as explained previously. When all digits have been transmitted the pulse receiver is released - as also described. Otherwise where the second digit would be 1 :, a circuit passing through the lower winding of relay Dl would be formed at the end of the formation of the second digit; this circuit is the following earth, rear contact of relay C, contact

  
 <EMI ID = 169.1>

  
bottom of relay Dl, battery. In this circuit, the relay Dl is initially partially energized and at the end of the formation of the digit :, works completely &#65533; in the same way as D2. As a result, the pulse circuit of the relays RI to RA is maintained, and the third digit can therefore be registered.

  
If the third digit has any value that can be represented by A it will mean, taking into account the assumptions made above about local exchange numbers, that it is a local call. If, on the contrary, the third digit is one of the other digits
(i.e. 1 or 2) this will mean that the call is intended for the exchange

  
 <EMI ID = 170.1>

  
fre, the following circuit will be established to energize the JSR relay if RA is not

  
 <EMI ID = 171.1>

  
rear of DA, front contact of Dl, rear contact of RA, bottom winding of JSR. If RA had been actuated, the circuit formed would have passed through the lower winding of DA via the front contact of RA. If JSR is energized, JDR continues to receive pulses and communication with the main exchange is established, all as discussed previously.

  
If, on the contrary, DA is actuated, the call is local, the pulse circuits entering and leaving JDR are open, and a circuit is closed on the transmission electromagnet of JDR :, so as to allow the dial repeater to return to rest without transmitting impulses. DA also cuts off the BDL conductor to prevent the connection from being severed by JDR returning to idle. The operation of the DA relay closes a contact not shown in order to start a search for the element of the pulse receiver of the second digital digit which is determined by the value of the digit represented by A and kept by RA, this digit

  
A can be any number other than 1 and 2, as has been said. In addition, it will be noted that the relay RA does not release at the end of the formation of the third digit because, when DA operates, a blocking circuit independent of the relay CC is formed for it. The DA relay also closes a point in a circuit that allows the IS3 and IS4 relays to be actuated through the C relay contact, so that IS3 and IS4 can operate at the end of the third and fourth signals. numerical digits respectively. The third digital digit is transmitted via 2DR to 3DR by the TL4D-IL3D driver and the fourth digital digit

  
 <EMI ID = 172.1>

  
are all identical to those which have already been described in the application filed today by the Applicant for "Improvements to automatic telecommunications systems" and which include the test of the calling line.

  
 <EMI ID = 173.1>

  
is occupied, the search for a free channel, - the operation in an instant of the second and third digit selectors, followed by the operation of the fourth digit selectors via OL and the OS4 relay of the chosen channel in order to '' establish the connection between the calling line and the called line. This connection includes a set of battery packs and a ringer command so that the ringer calls <EMI ID = 174.1>


    

Claims (1)

<EMI ID = 175.1> The present invention relates to a telecommunications system presenting in particular the. following particularities applicable separately or in any possible combination a) the control devices and digital conversation switchgear are each arranged in several stages in tandem, the switches being combined to form several distinct channels. \) and the number of stages of control devices is less than .. the number of stages of conversation switches, the control gear being, digitally actuated and arranged to selectively control the operation of a number of switchgear having the same digital characteristic in accordance with the channel to which they belong! b) additional control gear is actuated based on the last part of the callsign which designates the called line and is used in conjunction with other control gear to operate in response to the first part of that call sign so as to control the operation of the final stage conversational switchgear which has been selected by the other control devices mentioned, - c) Conversation switches are single-digit static switches used for both received local calls and sent local calls and arranged in a varying number of tandem floors, each of these conversation switches being assigned to one < EMI ID = 176.1> switchgear, and control equipment for each category of calls in stages less numerous than the switching stages used for these calls choose an available channel passing through the various stages of conversation switchgear particular to said channel; d) the digits designating all or part of the called set number are first kept by recording equipment forming part of a command recorder and then transmitted floor by floor to successive trains of conversation equipment ., each successive train being arranged to register on the switchgear constituting that train increasingly larger numbers of digits until a predetermined number of digits has been registered on the various control units train., such an arrangement being applicable both for the purpose of translation by recorder and for controlling the conversation switches; c) when three single digit conversation switching stages are arranged in channels, two stages of tandem control gear are provided and a recorder to keep the last digit is associated with one of these control devices; f) when there are four stages of conversation switching, three stages of tandem control gear are provided and a recorder for keeping the last digit is associated with one of these control devices; g) in systems which have a number of interconnected exchanges, the number of control stages is such that some of the switchgear controls the testing and operation of the talk switchgear for all calls, while others control the testing and operation of switchgear for one category of calls only; h) the control recorder which records both the central office code and the called subscriber's numeric code on static single-digit switches includes in association with these switches means for converting the central office code digits into track figures which. are registered on other static switches and subsequently for the selection and operation of control gear which controls the conversation switchgear in a way through which connection can be made in an appropriate manner depending on whether is a <EMI ID = 177.1> i) in exchanges used as satellites of the main exchange in a multi-exchange area, the conversation switches in a satellite exchange are arranged in a number of distinctive channels and discriminator devices are used to determine whether the call is a local call , or if it is to be established: by the main exchange and to allow the control switches to be operated in tandem in such a way to choose an available channel for the connection to establish and to control the operation of the conversation switches in the chosen channel if the call is local while if the call must be established by the main exchange a conversation switches giving access to a free trunk line are actuated from the discriminator devices and the digits of the called line are transmitted through this line junction so as to control the establishment of the connection via the main exchange. j) the devices provided for under d) extended to the case of calls between exchanges.