BE436776A - - Google Patents

Description

       

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  SYSTEMS FOR CENTRAL OFFICES
TELECOMMUNICATIONS
The invention relates to automatic establishment of files in the system for central telecommunications offices.



   It has hitherto been assumed that the automatic establishment of cards would be applied to all calls passing through the communication circuits with which the automatic equipment of the cards is associated. However, the question arises of using the equipment to obtain detailed recordings of long distance calls made by certain subscribers even in the network where the technical automatic counting of duration and area takes place.



  It has also been found that in general no more than 15% of the total number of subscribers in a network use long distance calls, and therefore

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 From this point of view, the equipment for automatic establishment of cards for long distance calls should only be provided for this percentage of 15% of known subscribers
It is also possible that a company which has an automatic annex private office wishes to have detailed records of all long distance calls made by the office. One of the aims of the invention is to provide means by which the automatic recording of records is possible only for a limited number of subscribers or for a particular class of calls.



  Whether or not automatic recording is required for a certain call depends not only on the destination of the call but also on its origin. For example, if the automatic ticket recording equipment is placed at the trunk of a multiple office network, most calls passing through that center and the trunk of any other multiple office network will need to be recorded. * For other calls, however, due to the proximity of the calling and calling offices, no ticket will need to be made. Another object of the invention is therefore to make the registration automatic; only valid for certain calls determined by the identity marks of the calling and called subscribers.



   The main fact of the invention includes a system for an automatic central telecommunications office in which equipment for the automatic establishment of files common to a certain number of subscribers is provided. This equipment is characterized by a distinctive device arranged to bring the equipment into use for calls of a certain class or for calls made by subscribers of a certain class.



   According to another fact characteristic of the invention a system -tème for automatic central telecommunications office comprises equipment for the automatic establishment of files characterized by a device which distinguishes the identity of the calling subscriber and the identity of the called subscriber. and who determines whether automatic card making equipment should be used with this call or not.

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   In British Patent No. 10,560 / 38, equipment has been described for determining the tariff to be applied to different calls, this determination being made in accordance with the identity of the office. caller and the identity of the called office. Such equipment can be adapted to the present invention.



   The invention is best understood from the following description of some of its / embodiments shown in the accompanying drawings. On these:
Figure 1 schematically shows the geographical plan of a multiple office telephone network in which the invention is applied;
Figure 8 shows additional card recorder circuits for a group of subscribers of a main central office, these circuits / being used when marking on the numbering disc one or more distinctive digits of a certain class of 'calls such as long distance calls;
FIG. 3 shows circuit arrangements for annex private offices intended to provide facilities for automatic registration of records for outside calls which are long distance calls;

  
Figures 4 and 5 respectively show two modified circuit arrangements for annex private offices;
FIG. 6 shows the application of the equipment for automatic establishment of files at the end to the central office of the trunk lines of the annex private office;
Figure 7, subdivided into 7A and 7B, is a detailed circuit consistent with Figure 2 '
Figure 8, subdivided into SA, 8B, and SC, shows a detailed circuit similar to that of Figure 3.



   In Figure 1, we have shown four contiguous telephone networks A, B, C, D, each having its own interurban center.



  Networks A and B are multiple office networks, while networks C and D are single office networks. The interurban center of B serves as an international office and tandem in relation to the whole system. In general practice, the call tariff

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 for telephone calls made from networks A to B or A to C or A to D are all the same with regard to the parties located in networks A and B or A and C or A and D.

   Therefore, the ticket printing equipment is placed in the long distance center of a telephone network, and as a general rule, in order to determine whether a ticket is required or not, it is only necessary in accordance with the invention to consider at the printing equipment the identity of the remote trunk network / to which the call is intended, this indication being obtained from the first digit received or from the first two or three digits received.



   However, in addition in some countries there is a regulation by which telephone subscribers in certain central offices can only call subscribers located at a certain distance, even if these subscribers are in a different network, this kind of call being referred to as the local tax rate. for calls of this kind no ticket is necessary.



  This can, for example, be the case for the central offices shown in "al" and "cl" placed respectively in networks A and C.



  Since it is not always possible to have lines between these two offices to carry local traffic, this must be directed through the two central offices A and C, and even through tandem office B as well as that. is shown. For economic reasons, small local offices such as "al" and "cl" do not have the equipment to transmit and find out when a local charge is only due for calls made to other networks. long distance, especially since it may happen that some of these offices do not only have this condition for one but for several cases belonging even to different long distance networks. It all depends on the geographic location of the central office.

   Under these conditions, it is obviously desirable that a centralized ticket printing equipment be able to determine the origin of a call in order to decide whether a ticket is necessary or not. In some cases, this can be done by determining the terminating trunk lines at the toll central offices which forward the received call. This is obviously

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 simple when all the central offices are connected directly to the trunk, but in the case of tandem traffic such a distinction becomes very complicated if not impossible.



   Means have therefore been provided to determine the origin of a call by transmitting the first digit, or the first two or three digits of the identified number which is received at the equipment in order to establish the ticket when it is received. this is required. Thus, the equipment receiving the digits will be provided with a combined translator which:
1) will transmit different digits of the called number, this transmission being often necessary to direct the call and determine the charge,
2) will receive and transmit various digits of the identified or calling number, this transmission determining the origin of the call,
3) will give a third translation of these first two indications and decide whether a ticket should be issued or not.



   Special units of 100 lines including preselecters and identification switches will be provided, the preselecters having additional brushes for identification purposes. The identification seekers will be 100 point single or double movement switches. Identification will take place by means of direct current methods.



   The embodiments shown in the drawings operate with a numerical distinction of separate subscriber groups, but if desired the listing can be applied to random subscribers. The distinction of subscriber classes will be obtained by marking a potential on an additional brush of the preselector or on corresponding contacts of an additional brush of the line finder. Distinctive or disoriminator equipment can be arranged to power the ticketing equipment only if both of the following conditions are met, namely that the calling subscriber is part of a particular olasse, and a long distance call is request.

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   In FIG. 2 a separate group of subscribers of a central office is provided with special groups of ISK and IISK preselectors in parallel with the normal groups IVK and II VK provided for the other subscribers. ISK switches are fitted with additional brushes, for calling subscriber identification, while IISK switches are fitted with a discriminator marker switch Ms and a high resistance, polarized pulse repeater relay, not shown , but connected in parallel to the normal pulse circuit for the operation of the marker switch. The polarized relay is connected in the circuit of the dialer disk when the "o" conductor is closed.

   The MS marker is used for two purposes: it records the first digit marked on the disk, and when this is done if this digit is zero it searches from the 10th terminal a free printing circuit TC and a printer PR of a group connected to the positions 1 to 8 of the switch. If this number is not a zero, it disconnects the polarized relay immediately from the talk circuit and returns to its normal position, leaving the second preselector in the ordinary condition as for a regular preselector. The primary selectors of IGK groups are of the regular type and do not undergo any modification.



   The receipt printing apparatus takes the form of additional circuits without having to interfere with the existing equipment. PR printers are associated with the circuits for establishing TC sheets which are common to a group of 100 lines. As previously explained, it is assumed that a printer is chosen, if required, in the space of time between the digits which comes after the first digit zero. It will then record all the digits marked on the disc in succession. If there is no indication when the conversation begins and if the counting takes place only at the end of the conversation, it is impossible to disconnect the digit printing mechanism including also the polarized relay at the second preselector, immediately that the called subscriber answers.

   Under these conditions, a timing arrangement is provided in the printing circuit, which disconnects the digit printing mechanism and the polarized relay after a lapse of 15 seconds after the last one.

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 pulse is received.



   When the calling subscriber hangs up, this causes the duration and zone counter circuit to send the number of count pulses accumulated during the duration of the call. This will be collected and recorded at the printer on the mechanism printing the tariff,
Simultaneously, the printing circuit will activate the identifier seeker IF, of which only one is provided for a group of printers, and this seeker IF will be brought to the terminal of the calling subscriber due to the fact that the line of this subscriber is maintained as long as counting takes place. Once the Identifier Seeker has been placed on this terminal, the subscriber's line can be released as long as the count is finished. Then the printer will get the calling subscriber number from the identifier searcher.



  The impulses for this purpose are sent from the circuit of the finder-identifier,
It is assumed that when a first digit 0 is marked on the disc, no free printing circuit is found. The switch in the second preselector searches until it has reached the 9th terminal of its arc. Printers can be connected in the normal position and up to position No. 8, so that a maximum of 9 printers can be used per group of 100 lines. When the switch is stopped in the 9th position, it will connect an auditory busy signal to the line of the subscriber appending and avoids any further operation of the dialer disk. In this way it is impossible to get a long distance call without having made a ticket recording.

   Therefore, if the identifier seeker is busy, a calling subscriber will be maintained until it becomes free.



   The method of operation described above assumes that there is no answer signal from the subscriber in the first group selector and that there is no counting at the start of the conversation. However, it may happen that a counting pulse is actually given at the start of the conversation. This is required by some administrations which want this pulse so that calls which are abandoned after ten seconds are counted,

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 For this purpose, it is necessary to give the first counting pulse as soon as the called subscriber has answered, because it is also necessary that the calling subscriber can hang up at any time in the duration of ten seconds, and cannot delay this. first count pulse.



   If it is assumed that a count pulse is given at the start of the conversation, then it can be used to disconnect the mechanism receiving the digits also including the bias relay and causing identification. This in this case will take place during the conversation. It should be observed that the printer prints the number of count pulses in digits, and that the printer by means of which this takes place, limits the number of counts per conversation to 100.



  Annex private office requiring recording of automatic outgoing long distance calls.



   Connecting a control circuit to the output trunk lines of an annex private office presents the following problems:
1) Circuit this control connected too late.



   If the subscriber begins dialing with the digit zero before a control circuit is connected, and if the central office is ready to receive the entire number, a long distance call can be made on which only part of the first figure will be received at the control circuit. This will therefore indicate a local connection and recovery will take place. This is prevented by arranging the blackout at the output junction in such a way that the control circuit is connected before the calling circuit is completed to the central office.



   2) Control circuit ready before the central office.



   Assume an arrangement in which the control circuit is connected before the call to the central office. In this case it is possible to mark on the disc a number 1 in the control circuit before it can be received at the central office. The control circuit senses still released, after which the subscriber can continue by marking a zero and place an outgoing long distance call. this is avoided by providing a delay in the office trunk circuit

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 central office starting when the subscriber's closed circuit is completed to that central office. During this time no impulse can be transmitted either to the control circuit or to the central office. This period will be sufficient to cover the connection of a first group selector to the central office.



   3) The subscriber can disturb the control circuit by releasing the connection to the central office without releasing the P. B.X. junction circuit.



   One can imagine that a subscriber begins by marking on disk a local call to the central office, then becomes free by producing a break in the circuit of the dialer disk for a time which is sufficient to free the connection of the central office. , but which is insufficient to free the annex private office. In this case the outgoing trunk line can remain in the condition in which there are no more calls for the control circuit, and the subscriber is free to start a call to the central office starting with zero. . To prevent this possibility of fraud, an arrangement is provided in the central office junction circuit which limits the number of digits marked on the disk to 7 if the first digit is not a zero.



   4) If the counting takes place only at the end of the oonver- sation, it is necessary to maintain the central office junction circuit and its control circuit after reestablishing the connection for a sufficient time to cover the delay. - until the counting pulses arrive from the central office.



   This assumes that the central office will pass the counting pulses to the P.B.X. by pulses of 50 cycles in a manner similar to that used for charge indications.



   5) The printer preferably provides a means by which the duration is printed for each call, and the duration is also printed each time the service counter is running.



   For ticket establishments for P.B.X. 5 second pulses can be provided from the central office through a separate trunk line. For the identification of the calling subscriber, it has been proposed to provide separate trunk circuits

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 and derivates for automatic outgoing long distance calls.



  This gives the possibility of operating outside a uniform scheme for all kinds of annex private offices, either of the Hotary type or of the step-by-step type without having to change anything in the existing equipment of the annex private office. This is true provided that the annex private office uses line seekers and not preselecters. With the preselectors the diagram will require the addition of a relay and two resistors per station and some new wiring of the existing line circuits.



   Turning now to Figure 3, KF derivative line seekers provide access to CJ trunk lines to the central office through OK preselectors, and are in parallel with the LK local trunk circuits. When a substation calls, a KF finder first searches and then connects the line. LK's regular line finders research the calling line test potential provided by KF. The number of KF switches per group of 100 lines depends on the amount of local calls as well as calls to the central office since they are held across the central office connections for approximately 2.5 to 3 seconds for each call. local.



   When a subscriber sends a local call, the first digit is received by the local connection circuit and by a high resistance polarized relay in the KF circuit, which also causes the digit to be registered on an MS switch that is part of the K cheroheur. In the case considered, the connection is completed through the local link circuit because as soon as the first digit has been received by seeker K, it can be released. If the first digit marked by the subscriber is that required to reach a central office line (usually 0) the finder K causes the local circuit LK to be released by applying earth to the "c" conductor, and at the same time an OK preselector associated with the K finder connects a free CJ trunk line to the central office.

   It should therefore be noted that a trunk line to the central office will only be chosen for an actual call to this office and not for each local call.

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   The second digit marked on the disk is the first at the central office, and when this is one of the digits 1 through 9 indicating a local call from the central office, nothing else occurs. The second digit is received on a second MFS marker switch that is part of finder K, and in the case of a digit 1 to 9, this marker simply returns to the normal position. If the second digit was a zero, indicating an automatic long distance call, the second MFS marker acts immediately to search for a PR printer recorder which will be connected during the interval between digits after the second digit. There is space to connect up to 9 printers per 100 subscriber stations.

   If no free printer is found, the switch will stop in position 9 and cause an audible busy signal to the calling subscriber. The call to the central office is dropped.



   If it is assumed that a Printer is found, the following digits marked on disk are recorded on the printer..L'identi-. As soon as the first count pulse is received, the fication takes place in the manner described. If this takes place at the end of the conversation, the line of the calling subscriber will be maintained for a sufficient time to ensure the arrival of the first counting pulse from the moment when the calling subscriber hangs up, If equipment. of the central office is arranged to give already an oomp -tage impulse at the beginning of the conversation, the identification takes place during the conversation.



   The polarized relay at seeker K is disconnected from the talk circuit either at the start of the conversion when the first count pulse is received, or in the case where no count pulse is received at the start of the conversation. payment due to a delay which is expected to seeker K. The arrangement may be such that branch equipment is only used for long distance calls, with calls to the central office being routed through separate trunk lines accessible through the regular automatic switching equipment of the PBX, the establishment of long distance calls through these junctions being prevented.

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   Such an arrangement is shown in Figure 4. EE is P.A.B.X. normal, while AE is additional equipment. Local and branch trunk circuits are connected as soon as a call is sent. MS in the branch circuit and IGS respond to the first digit. If the first digit is zero, PS chooses a free trunk line TJ The next digit is received by MFS.



  If it designates a long distance call, the local trunk circuit is released and the connection is extended through TJ. If the second digit denotes a local call to the central office, the branch path is released and the connection is extended through the local trunk LK and trunk line LJ. it is also possible to direct all calls to the central office through the branched path which has access to a trunk group for local calls to the central office and to a separate trunk group for all long distance calls via the central office. Such an arrangement is shown in figure 5.



   The equipment of the derived path includes an MS marker which determines from the first digit marked on the disk whether the call is local to the P.A.B.X. , and in this case the derivative equipment is released. If the call is for the central office, LK is released and the two preselectors LPS and TPS extend the connections to trunk lines LJ T TJ In the latter case, MS determines, from the second digit and in concordance with its value, the reestablishment of LPS or TPS, as well as the corresponding trunk line.



   The main idea of the two arrangements shown in Figures 4 and 5 is that subscribers cannot defraud due to the fact that outgoing long distance calls can only be made through certain trunk lines, which are continuously serviced. ticket printers. Therefore, any attempt by the subscriber to pass through faulty equipment will always be recorded by the printer which mentions the exact figures which have been marked on the disc. This is not possible in the arrangement shown in figure 3, because it can be seen that with this arrangement it is possible for a subscriber to send a call starting with the digits for a local call, then to hang up for a while. sufficient for

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 to drop the central office connection without breaking the airouits derived to the P.B.X.

   Since the printer will only be hired for long distance calls, this was dropped as soon as the second digit indicates that the call is not long distance. Therefore, in such a case, the subscriber can start a new call to the central office through the branched path starting with the digit zero indicating a long distance call without a printer attached. This results from the fact that the branch circuits are still in the condition for which they do not require a printer when the digits are marked on the disc, this condition being removed only by a complete restoration of the circuits.



   To avoid this kind of fraud, another arrangement is proposed in figure 6. In this case, the PR ticket printers are placed at the central office and it is then possible to obtain a ticket printer each time a connection with the central office is carried out even if this takes place without reestablishing the PBX equipment It also prevents long distance calls from being established without being marked on the printer. This is not possible by placing the PR printer at the annex private office because there is no indication at this office that the circuits with the central office have been released or not. It should be noted that with this arrangement it is still possible to combine regular calls and long distance calls on the same group of trunk lines from P.

   B.X. at the central office, so that no changes need to be made to P.B, X.



   Figure 7 shows in detail a second preselector adapted to choose a receipt printer when this is determined by the class of the call. On the upper left side of the drawing are shown the brushes and arcs of the first preselector I.K as well as an arc of the identifier seeker IF which is used to determine the position of this seeker. The other arcs of the seeker work in cooperation with the ticket printer and have not been shown.

   On the right side of the drawing the second preselector II.SK is shown, while on the lower left side are shown the electromagnet and the arcs of the MS switch, which fills

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 the dual purpose of helping the verification of the first digit marked on the disc by the calling subscriber and of choosing a free ticket printer when indicated by the first digit.



  DESCRIPTION OF THE CIRCUITS.



   The condition of non-occupation of the second preselector is characterized by the presence of an earth on the arc "o" of I.SK, this earth passing through br4, a3, and resistors R1 and R2. The effect of a first preselector testing on this ground is that its combined line and cutoff relay operates, disconnecting the line relay from the subscriber circuit and connecting the subscriber through the "a". And "brushes. b "from the first I.SK. The polarized relay Po is energized: battery, Po winding, rest contacts b2 and dol, resistor R3, conductor "a", brush "a" of I.SK, conductor "b" of the subscriber circuit, brush " b "of I. SK, normally closed contact dc3, resistor R4 and earth at the closed contact bl.

   The Po winding has comparatively high resistance and this relay is very sensitive, so that it can work in parallel with a supervisory relay which can be connected simultaneously to the subscriber circuit without these relays affecting each other. reciprocally. It follows that at the moment now considered, Po is the only one connected to the subscriber circuit because the line relay is already disconnected and the supervisory relay at the first group selector is not now connected. In order to establish suitable operating and recovery conditions for Po under these circumstances, it is connected in series with resistor R3 to conductor "a" Resistor R4 is provided in conductor "b" in order to obtain a balanced condition during advancement.



   Po actuates Ip, and when it closes its working contact it also introduces its second winding, which is connected in series with a capacitor and a resistor. The purpose of this second winding is that when the work contact is closed, the current charging the capacitor contributes to the establishment of the flux in the relay, thus preventing any vibration of its work contact.



   The functioning of Ip results first from Lb, and secondly

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 from ih through ipl at work et al at rest. Contact lb3 doubles the earth to conductor "o" via resistors R1 and R2, so that this takes place independently of relayA. This last relay works through 1b2m kd2, ih2 Relay A opens the air -cuit of relay Ih, but this one blocks through ih4, lbl, kd5 to the earth supplied by the MS switch in normal position and via its arc "a". It can be seen that in this condition Ih depends entirely on the blocking circuit via ih4 and that it cannot be exploited again when it is neutralized.

   It should be noted that at the moment when Lb is excited, an earth connected to lb2 extends via kd2 and ih2 to the winding of Do, if it is assumed that Ih is not excited when Lb closes its contact of job. The Do relay must not operate under these conditions, and for this purpose it has been provided with a short-circled winding, controlled by one of its rest contacts.



   Another result of the operation of Ih and A is that B gets excited via lm2, al and ipl. The purpose of this relay is to introduce a winding of the RC delay coil. Into conductors "a" and "b" in series with the polarized relay po and resistor R4. This is to reduce the transmission loss of the connection too, as long as the polarized relay is connected in the circuit and no actuation of the disc takes place.



   In addition, Ih causes switch II.SK to search for a free group primary selector. The electromagnet of this switch is energized via its switch and ih5 to earth at the rest contact of the test relay Jt. This relay is connected to brush "d" and to a ground supplied via br4 and a3.

   The II.SK switch will now move to move automatically until the JT test relay energizes. This introduces the low-resostance winding of the test relay in series: with the also low-resistance winding of Jh into the test circuit, preventing other circuits from trying the same primary group selector, and stops the switch on the tested terminal, Jh operation takes place only in the event that no double test occurs. when Jh gets excited, Sw follows and connects through the "a" and "b" conductors. so that the subscriber circuit is now extended to

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 the supervision relay to the primary group selector.

     simultaneously the resistor R3 in series with the polarized relay Po is short-circuited, so that the latter relay can be kept in parallel with the supervision relay. SW closes a blocking circuit for A, and once again doubles the land with the broom "c" of I.SK It also extends the broom "C" of II. SK to the Mt.



   The subscriber can now begin to operate his disc. The Po relay advances in unison with the pulses received in parallel with the stepping relay at the primary group selector. Upon recovery, at the start of each pulse, the function of the winding in series with the capacitor on this relay is now that a discharge of the capacitor helps by reducing the flow in the relay since the discharge current is opposite in direction with the one for which the relay is energized The relay Ip also follows the impulses of the disc, but Lb is blocked.



  For each pulse received, one step is taken by the switch MS, which receives a ground in ipl through a winding of LM and ihl. The blocking circuit for Ih is transferred, as soon as the switch MS leaves the first terminal, through ih4, lbl, kd5, lml. The Lm relay locks itself as long as a pulse train continues, and it opens the circuit of B, so that this relay quickly de-energizes, again shorting the two windings of the RC delay coil to connect. Po sayotement in the circuit step by step without being influenced by the presence of this impedance. When the first digit has been sent, Lm neutralizes and cuts the circuit of Ih. A check is now made for the number marked on the disc.



   In the following description it is assumed that the first digit zero indicates that a receipt printer is to be connected, since this digit precedes all long distance calls for which digit establishment is required. for calls starting with any other digit no receipt printer is used.

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 a) First digit other than zero. '
If the MS switch has traveled less than 10 steps when Ih is neutralized, a circuit will be closed for Dc: ih2, kd2, 1b2 Do is blocked to earth through do4 and sw2, and disconnects Po from the conductor "a", as well as earth through resistor R4 of conductor "b" The switch is restored to normal through the following circuit:

   MS ihl winding, MS kdl switch, arc "a", arc "a" terminals 1 - 8, and brush "a" to ground. when it arrives at terminal 9, the earth of "a" extends through kel at rest, so that the switch also advances through this position. In position 10, the earth / is extended via ih3, and the switch goes to its normal position in which it stops without performing other functions. The circuit is now in normal condition for local conversation, all relays being released except Jt, Jh, Sw and Do. When the counting takes place, the relay Mt energizes via the brush "c" of II, SK and short-circuits the resistor R2, which causes the operation of the subscriber's service meter. b) First digit marked is zero.



   When MS arrives at its tenth position, o.à.d. when the tenth pulse has passed, but before Lm is restored, a circuit is closed for Kd through ih3 and terminal 10 of the arc "a" of MS. The relay Kd is blocked through lb2, so that it remains blocked after the recovery of Ih, which takes place some time after the recovery of Lm. The circuit of Do is now open in kd2 at rest, so that Po remains in the circuit. In addition, the MS recovery circuit is also open in idle kdl, but instead a circuit is / now closed for this switch under the control of the test relay Pt: MS winding, ihl, MS switch, kdl, brl, ptl.

   The MS switch searches for a free printing circuit, the printers' being connected in normal position and in positions 1-8 of this switch to arcs "b" "c" and "d" A free printer is characterized by the presence of a potential battery in the arc "d" of MS, 'and when MS arrives at such a terminal, the test relay Pt operates through the brush "d"' and kd3. ", MS is stopped and Pc operates. relay introduced

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 the low resistance Pt winding in series with the low resistance of Id in the test circuit, making the printer busy for the other research circuits. Id is a marginal relay and does not operate in series with the regular test potential.

   It operates the check of the ticket printing circuit when the identification is to start, and prepares a battery via the arc "d" of I.SK, which is connected to the arc of the identification seeker IF to the terminal corresponding to the calling subscriber. When the identification seeker under the control of the printing circuit searches for the calling subscriber, it finds this battery and stops on this terminal.



   When the subscriber continues the maneuver of the dialing disk, the circuit of Lm is completed in ke2, the relay Ke having been activated from kd4 to work. Therefore, for each digit marked, Lm operates and hangs during pulses due to the disk.



  It then releases relay B to short-circuit the retar -dation coil RO. This coil is introduced into the circuit each time the disc is operated. The pulses due to the disk for all digits after the first are now transmitted to the printing circuit of ip2 on each recovery, through po4 and the brush "b" of MS to the printing circuit. When the count pulses are received, they are also transmitted into the printing circuit on each action of mtl through pol at work and brush "c" of MS. The operation of the counter relay Mt simultaneously ensures the operation of De so that from this moment Po is disconnected and no more impulses due to the disc can be received at the printer.

   It is assumed that the counting takes place at the start of the conversation, this disables the reception of the impulses due to the disk starting when the called subscriber answers. Assuming that the count is linked to the end of the conversation, a timing arrangement is provided at the ticket printing circuit by which a ground is connected after a delay of about 15 seconds to the arc "o" of MS , to bring the functioning of Do. Therefore this prevents the reception of the impulses due to the disc in the event of a delay in the operation of the disc of about 15 seconds, and disconnects the polarized relay from the reversing circuit.

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   When Do operates, the Pc Ip and Lb relays are neutralized. Kd remains excited through kd2 and id2 in parallel with do5.



  The Do relay ensures that the ticket printer is not disconnected until the primary group selector has finished sending the count pulses. The relay Kd ensures that the ti-ahets printer is not disconnected from the secondary preselector and the line of the calling subscriber until the identification is finished, the latter case assuming that the identification is not is not over when the counting time has passed. The identification takes place under the control of the ticket printing circuit, starting from the moment when the first counting pulse has been received. At this time, there will be increased potential on MS brush "d" to actuate marginal relay Id.

   This created the test potential for the identification seeker via the arc "d" of the first selector on the terminal corresponding to the calling subscriber as already described. Second, it keeps the relay Kd energized, independent of the circuit of the calling subscriber and of the primary group selector. This also keeps the openings for the test relay Pt and for the support relay @ Pc This last relay maintains a ground connected to the conductor "c" of the subscriber via the resistors R1 and R2, preventing the line from breaking. ,,. the calling subscriber to become free until the identification is finished. c) The first digit marked on the disc is zero, but no tioket printer is free.



   When MS arrives at its tenth position after the first digit zero has been marked, it begins to search for a free tioket printer as described in paragraph "b" If no printer is free, it finally arrives at terminal 9.



  A circuit is closed for Br through the earth, the brush "a" of MS, terminal 9, the contacts kel and pc3, the winding of Br, and the battery. The relay Br is fast-acting, of so that it can stop, MS in position 9 by opening brl. The operation of Br neutralizes Sw 'so that the group primary selector can return to idle.



  As a result, the group primary selector moves the battery away from the arc "d" of II.SK, and Jt and Jh neutralize each other. Jt cannot

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 energize again at the primary groups selector when it arrives in the normal position, because the earth at the high resistance winding of Jt is broken in br4 on the job. In addition, Br keeps the subscriber line busy by providing an arc earth "c" from I.SK and connects the busy auditory signal source with a return earth to the subscriber circuit via br2 and br3.



  The circuit is now maintained under the control of Po, which is energized on the subscriber's line in series with R3 and R4 until the calling subscriber hangs up. Relay A is also kept energized independently of Sw through a2, brl and ptl. When the calling subscriber hangs up, Po, Ip, Lb, Kd, Ke and Br neutralize each other consecutively. The last mentioned relay also releases A. This is slow reset so that it closes the circuit by a3 supplying a ground to the brush "c" of I.SK only some time after this circuit has been opened at br4 at job. This will restore the primary preselector test relay.



   Figure 8 shows in detail a first derived line finder and a connection circuit as in Figure 4 adapted for a call with ticket printer recording certain calls completed through the derived path, according to the class of the call. In the upper left corner of the drawing, the subscriber line equipment and the primary line finder for regular switching equipment are shown. The subscriber line is multiplied in the arc of the derivative seeker KF. On the upper right side of the drawing, an OK switch is shown, the arcs of which are connected to output junction lines. The circuit is intended for use in a P.B.X. having automatic access to central office lines for some or all of the subscribers.

   The method of operation is such that when a subscriber transmits a call, the first of the entire group of KF searchers searches for the calling line, and when one of those searchers has found the line, the regular primary line searchers of the connecting circuits locals look for the same line. An auditory signal to operate the disk is given from the local link circuit, and when the subscriber operates his disk, the first digit received may indicate a call.

 <Desc / Clms Page number 21>

 local inside the P.B.X., or a call to the central office.



  In the circuit described, it has been assumed that a call to the central office is indicated by the first digit zero. It is assumed that the first digit is other than zero. The KF derivative finder and its associated equipment are abandoned and the subscriber is left / connected only to the local connection circuit through which he can now complete the connection on a regular basis. If the first digit is zero, the local connection circuit is dropped and the subscriber remains connected only to the branched path which then chooses a trunk line to the central office. When access has been obtained / to the central office, the auditory disc operation signal is sent to indicate that this office is ready to receive the called subscriber's code.

   It can now be assumed that some calls to the central office can be made without requiring any recording at an automatic receipt printer, but that other calls, for example those starting with the digit zero, are long distance calls and must be recorded. . In the latter case, a receipt printer will be chosen during the interval between / digits following the first digit zero, and all remaining digits will be recorded on the printer along with the number of count pulses received from the central office and the identity of the subscriber calling the PBX



  DESCRIPTION OF THE CIRCUITS.



   A calling station causes the line relay L and the start relay St of the researcher group KF to which it is connected to operate. The Os help relay operates and closes a circuit on its individual contacts for each of the KF researchers in the group; t at rest, os, kd2, ih5, col, al, KF.

   When one of the KF researchers is testing, his relay T operates and inputs the low resistance winding of the aveo H series test relay, which operates only after a double test condition has been satisfied, and which energizes A, The introduction of the low resistance winding of the es -sai relay shunt St, so that the remaining KF seekers also stop. The operation of H connects the test potential via the brush "d" of JF to the test terminal of the primary line finder

 <Desc / Clms Page number 22>

 regular corresponding to the calling station. Simultaneously the same potential is extended through a resistance to a common starting relay not shown which excites regular line seekers.



  When one of these tries the potential offered via hl to work, the start relay is bypassed and all seekers stop, The local regular trunk line will close the conductor "c" to actuate the cut-off relay of the subscriber, and when this occurs the line relay L is neutralized. The T and H relays also neutralize each other. It is assumed that at this moment the relay a in the derivative primary seeker can block via a work contact ih6 of Ih, which has energized as will be described later. The circuit of KF is opened once more and introduces the polarized relay Po and the resistor Rl on the conductors "a" and "b" Po gets energized via the subscriber circuit in parallel with the line relay, and in turn closes the circuit of Ip, which excites Lb.

   Additionally, Ih gets excited through ipl at work and so2, So being a slow-acting relay that gets excited a moment later from Ibl at work. The relay Ih is blocked through ih5, kel, lb2, and the earth supplied in the normal position of MS via its brush "a". We can see that Ih is made to block himself via his own work contact, so that once released he cannot get excited again. When the subscriber receives the drive signal from the local circuit disk, he begins to actuate his disk, but the PO relay in the primary line branch finder acts in unison with the stepping relay of the local regular circuits.

   The relay Ip follows these pulses and retransmits them to ipl through the winding of Lm and via ihl at work to MS MS traverses a certain number of steps corresponding to the first digit marked. As soon as MS leaves its normal position, the relay Ih finds a blocking circuit through ih5, kel, lb2, lml. The relay Lm remains energized during the operation of the disc for each digit. When the first digit is sent, Lm neutralizes itself and brings about the reestablishment of Ih, which now causes a check of the first digit as registered on the MS switch.

 <Desc / Clms Page number 23>

 



  The first digit is other than zero.



   In this case, when the marking of the number has taken place and Ip gets excited after the last break produced by the disc, no circuit is closed for any test relay and the only result is that Lm is neutralized and brings about the neutralization of Ih. It follows first that the blocking circuit of A is open. Po is disconnected from the subscriber circuit and this relay is neutralized causing the reestablishment of Ip, Lb and So. The circuit is now free and can be used for other calls. The subscriber is only connected to the local connection circuit. The @ MS switch returns to idle.



  The first digit is zero.



   In this case, when the tenth break occurs under the action of the disc, Ip is neutralized and a circuit is closed when MS is still in its ninth position (it advances only to its tenth position when Ip is energized again. ) which energizes the relay Kd; ip2, td4, kf2, broom "b" from MS, ih4. The relay Kd is blocked in lbl at work, and. in kd6 at work it closes a blocking circuit for A independently of Ih, so that A does not neutralize when Ip operates and Lm and Ih neutralize each other. Therefore the branched primary line finder does not recover, but remains under the control of Po. The Kd relay also provides a ground via the non-KF brush to the "c" conductor of the calling subscriber.

   This earth is first connected directly to sl, the relay Sl being energized as soon as the circuit passes through kd5 at rest and lbl at work. When Kd operates, Sl slowly recovers and after some time disconnects the earth from conductor "c". which, however, is now held via a resistor R2, which is calculated so that the cut-off relay will be maintained, making the subscriber's line busy for the final selectors. The purpose of the temporary connection of a total earth to the subscriber's "c" conductor is to break the local connection circuit.
The next result of running Kd is that the OK switch searches for a free line to the central office.

   An oirouit. Is closed for the solenoid / motor of this switch via

 <Desc / Clms Page number 24>

 its own switch and contacts ke6 at work and jt at re-pos: Ke excited through kdl at work, to 6and the arc and brush "a" of MS outside its normal position. The Ke relay having connected a ground to the high resistance winding of the Jt test relay, when OK arrives on a free junction line, Jt energizes, stops the switch, and introduces the low resistance winding in series. with Jh. The relay Jh energizes after performing a double test, and energizes Sw. This one connects through the conductors "a" and "b" of the line of the subscriber to the trunk line of the central office or a battery and earth are provided through a step-by-step relay.

   The call is then extended to the line from the central office to the equipment receiving the pulses. The Po relay remains blocked at the subscriber circuit in parallel with the step by step relay at the central office junction circuit.



   The subscriber, receiving the auditory signal to operate the central office disc, continues to mark the desired digits to obtain the desired connection. Two cases can be considered. The subscriber calls another subscriber in the central office or makes an automatic long distance call. It is assumed that automatic long distance calls are distinguished from regular calls in that the first digit marked on disk at the central office is zero.



  In order to distinguish this, the first digit marked is recorded by the derivative primary finder on the MFS switch. It can be seen that Po, being still connected to the closed circuit of the subscriber, will follow the impulses due to the disc, and consequently Ip advances in united-sound. This time it will direct earth impulses to the MFS electromagnet, through ipl, Lm, ihl, ke4. Depending on the number of steps taken, the following cases may be considered: The first number marked on the disk at the central office is other than zero.



   When the MFS switch performs its first displacement, it breaks the short-circuit across the inductive winding of Kf, which until this moment prevented the energization of this relay. This short-circuit can be traced as follows: non-inductive winding Kf, kf4 at rest, kd3 at work, normal contact and brush "a" of MFS,

 <Desc / Clms Page number 25>

 kf2 at rest, broom "b". MS terminal 10 and earth. The circuit for
Kf goes through the battery, its two windings and the earth in ke2 at work. It hangs through its two windings kfl and ground at work, regardless of Ke.



   When Lm is neutralized after the first digit, an air-vent is closed for Co through lml at rest, kf3 at work, tcl at rest. This relay is blocked through cc2 and sw3 at work.



   Relay A is released at oa3 if an earth is provided to block the line to the subscriber via KF brush "c". KF's circuit is ccl open for work, which is necessary because reestablishing A would otherwise close KF's circuit on the next call. Relay A disconnects Po and resistor Rl from the subscriber circuit. Therefore Po neutralizes followed by Ip, Lb, So, Kd and Kf.

   The Sw relay locks up through br3 at rest, at work and the, Jh and Jt relays remain energized across the central office trunk line., Count pulses received from the office can be transmitted from the trunk line via OK's roof broom and Mt's sw5 working contacts; the KSM service counter operated via KF's "f" brush. The first digit marked on the central office disk is zero.



   In this case when Ip is neutralized for the tenth time, o.à.d. with MFS excited and still in its ninth; position, a circuit is closed: ip2 at mealtime, td4 at rest, broom "a" on terminal 9 of MFS, ke3 at work, cc4 at rest, To relay which activates and locks in the ground when working. When Ip got excited again at the end of the tenth pulse, MFS advanced to its ten terminal. A circuit is from. again closed for this switch because Ke neutralized because his circuit was open in tc6 at work. The MFS circuit is as follows: battery, resistance, ke4 at rest, MFS, tc3 at work, burn at rest, and earth at the rest contact of the test relay Pt.

   The function of MFS is to search for a free printer, the printers being connected in the normal position and in positions 1-8 of its "b", "c" and "d" arcs. A free printer is characterized by a potential of battery given through a resistor on arc "b" of MFS, and when this switch arrives in the corresponding position

 <Desc / Clms Page number 26>

 - Responding to a free printer, the test relay Pt energizes through the earth in tc2 at work, the high resistance winding of Pt, the brush "b" and the terminal "b" of MFS. When MFS arrives in the normal position, a circuit is closed for Td: battery, Td, to4 working, kf2 working, brush "a", normal terminal of MFS, kd3, kf4, and earth.

   The purpose of operation of Td is to place a ground on the brush "a" of the commutator through tdl on work and kf2 on work when it still reaches the normal position. The Td relay hangs to this land through to4 at work.



   Suppose a free printer is tried. Then Pt operates with its help relay Po, and this introduces the low-resistance winding of Pt in series with Id. The printer circuit is thus made busy for other seeker circuits. Id, which is a marginal relay, does not work: not unless a potential heut is placed on the MFS brush "b". Of the printing circuit. It must not operate in the normal test circuit.

   Po completes the circuits to the "c" and "d" brushes of the printer, namely: to the brush, "c" a circuit through ip2 at rest, td4 at work, po3 at work, via which all the following digits marked on the disc are sent to the printer where they are recorded; brush "of" a circuit through mt2 at work, po4 at work, via which counting pulses received from the central office are sent to the printer where they are recorded.



   An arrangement is provided whereby an RC delay coil is connected with one of its windings each in series with the relay Po and the resistor Rl to the subscriber circuit as long as no operation of the disc takes place. . As soon as a digit is received, Lm gets excited. This causes B to reestablish, which is intended to short circuit both RC windings. A circuit for Lm is provided after the ticket printer has been connected through a battery passing through a resistor connected to td3 at work.



   As it is not known how many digits the subscriber will mark on the disk to complete the call, the automatic ticket printer and the primary line-derived seeker remain in the condition for

 <Desc / Clms Page number 27>

 which the marked digit can be stored until the counting begins, provided that the counting takes place at / start of the conversation. Alternatively, if the counting takes place only at the end of the conversation, an arrangement is provided whereby the receipt printing circuit counts the time after each digit, and after a lapse of 15 seconds a signal is sent to disconnect the digit recording equipment.

   If the first mentioned case takes place, it can be seen that when count signals are received from the central office trunk line, the Mt relay energizes and repeats these pulses to the KSM counter of the subscriber line circuit as well. although at the ticket printer through mt2, po4 and the "d" broom from MFS. At the same time, it brings the operation of Co, which is blocked in sw3 at work, and opens in cc3 at work, the blocking circuit of A with the circuit of KF. Restoration of A disconnects Po, so that this relay turns off, followed by Ip and Lp. SQ remains excited and maintains Tc and Kf because an earth is provided in sw6 to work, which also provides a blocking circuit for Kd. Td relay is blocked via tc4 at work.



   If it is assumed that the counting takes place at the end of the oonver -sation, the ticket printing circuit places a ground at the brush "d" of MFS, which has the same purpose of actuating Ce, with the result previously expected.



   When the subscriber hangs up, the supervisory relay in the central office trunk circuit is neutralized, which moves the blocking battery away from the Jt and Jh relays. The latter opens the circuit of Sw, which returns the circuit to the normal condition provided that it is not maintained by the printing circuit of tickets for the identification of the calling subscriber.



   When the ticket printing circuit waits to identify the calling subscriber, it applies a high battery potential via brush "b" of MFS, which energizes the marginal relay Id. This places a battery potential on idl at work and the brush "e" of KF on the test box of the identifier seeker associated with the group of subscribers in which the calling subscriber is located. This terminal corresponds to the number of the calling subscriber.

   At the same time the contacts

 <Desc / Clms Page number 28>

 id2 at work provide a blocking circuit for So and the other relays which block the tick printer ets It should be noted that while this blocking earth is provided, the subscriber line is kept busy and the seeker KF cannot leave this line owing to the fact that the cce contacts at work provide a ground to the brush "c" and open the motor electromagnet.



  The first digit sent to the central office is zero but no receipt printer is available.



   If we refer to the description of the last paragraph we see that when MFS maneuvers to find a free printer, and when it arrives in normal position, a circuit is closed for Td, which connects a ground to the brush "a" of MFS When MFS does not find a free printer, the printers being connected in the normal position and in positions 1-8, it passes through position 9 and finally arrives at position 10. For this one earth through the broom "a" elicits Br excitement through pc2 at mealtime and td2 at work. Br opens the MFS circuit so that it stops in position 10.

   It also opens the circuit of Sw, which re-establishes and disconnects the trunk line, so the central office call is released and the subscriber is left connected only to the branched primary researcher which is kept under the control of Po. also a source of an auditory busy signal and a ground via small capacitors at the "a" and "b" conductors indicating to the calling subscriber that no connection can be obtained and that he must hang up. When this happens, Po is neutralized, and this brings the circuit back to normal condition.



   CLAIMS.

** ATTENTION ** end of DESC field can contain start of CLMS **.


    

Claims (1)

1 - System for automatic central telecommunications offices in which equipment has been provided for the automatic establishment of files common to a certain number of subscribers, characterized by a distinctive or discriminating means arranged to bring into operation the equipment for the automatic establishment of files for calls of a certain class or for calls sent by subscribers of a certain class. <Desc / Clms Page number 29> 2 - System for automatic central telecommunications offices as claimed in 1, characterized in that the discriminating means responds to at least a number marked on the dialing disk and brings into operation the equipment for the automatic establishment of the files for identified calls only by numbers of a certain value. 3 - System for central automatic telecommunication offices as claimed in 2, characterized in that the disoriminator means is associated with a non-digital switch stage of a central office and responds to the first digits (s) marked on the disk. 4 - System for central automatic telecommunications offices as claimed in 2 or 3, characterized in that the discriminator device comprises a polarized high-resistance relay connected in parallel to the normal pulse circuit of a connection and which repeats pulses digital to the discriminator device. 5 - System for automatic central telecommunication offices as claimed in 2, 3 or 4, characterized by a discriminator switch towards / which digital pulses are directed, at least one position of this switch being a discriminator position, while at the others positions of the circuits for the automatic establishment of the plugs are connected, the switch being so arranged that if it stops on a discriminatory position at the end of a digital pulse train, it searches for a free blackout for automatic re-establishment of records during the period between the sending of the digits. 6 - System for automatic central offices of telecommunications as claimed in any one of the preceding claims, characterized that if the equipment for the automatic establishment of files cannot be used in a connection which must employ such an apparatus, an auditory busy signal is returned to the calling subscriber and the pulse circuit to the next equipment is rendered ineffective. <Desc / Clms Page number 30> 7 - System for automatic central offices of telecommunications as claimed in 5 and 6, characterized by an occupation position of the discriminator switch according to the positions to which the circuits for the automatic establishment of the plugs are connected. 8 - System for automatic central telecommunications offices as claimed in any one of the preceding claims, characterized in that the discriminating device and the circuits for the automatic establishment of the files are associated with communication circuits accessible from a floor preselector, and in that the preselectors are provided with additional brushes in order to identify the calling subscribers. 9 - System for automatic central telecommunications offices as claimed in any one of the preceding claims, characterized / in that a printing equipment is adapted to assemble a large number of counting pulses for zones, and to print the number of these received pulses. 10 - System for central automatic telecommunications offices as claimed in 2, or in this claim in combination with any one of the preceding claims, characterized in that a switch means, for extending the pulse circuits beyond the circuits with which the discriminator means is associated, are quickly connected to receive the digital pulses. 11 - System for automatic central telecommunications offices as claimed in 10, characterized in that the passage of the digital pulses to the discriminator apparatus and beyond the associated circuits is automatically delayed for a sufficient time to allow the following selector equipment to be quickly entered to respond to digital impulses. 12 - System as claimed in 3 or in this claim in combination with any one of the preceding claims, characterized by a digit counter equipment arranged to be actuated if the discriminating means determines a call to be served without issuing a ticket, and this to prevent <Desc / Clms Page number 31> establishing a connection if more than a specified number of digits are marked on the disk. 13 - system for automatic central telecommunications offices as claimed in 1, characterized by branch equipment for output connections in a central office, which equipment is selected in parallel with the eye connector equipment with at least one digit being sent to both sets of equipment, one or the other of which is automatically released following the digital pulses received by the discriminator device indicating a local or output connection. 14 - System for central automatic telecom -mhnioations offices as claimed in 13, characterized in that, if the call is an outgoing call, a non-digital switch automatically extends the branch connection to an outgoing trunk line. 15 - System for automatic central telecommunications offices as claimed in 13 or 14, characterized in that the branch equipment provides access to two groups of trunk lines, one group for local outgoing calls and the other for calls long distance, and in that the derivative disoriminator device determines from the digital pulses received the type of call to automatically extend the connection to the corresponding trunk group. 16 - System for automatic central telecommunication offices as claimed in 1, characterized by a disoriminator device and equipment for the automatic establishment of the files associated with the end for central office of trunk lines leaving from a PBX, and arranged for long distance calls requiring automatic sheet establishment, such calls being identified by a particular digital pulse received across the trunk line. 17 - System for automatic central telecommunications offices as claimed in 1, characterized by a discriminator device arranged to put into operation an equipment for the automatic establishment of files only if the subscriber <Desc / Clms Page number 32> caller is of a certain determined class, and whether the numbers marked on the disk identify a call of a determined type. 18 - System for automatic central telecommunications offices as claimed in any one of the preceding claims, characterized in that the discriminating device which determines whether or not a ticket should be issued, makes the said distinction in accordance with this the identity of the calling subscriber or the calling office, and the identity of the called subscriber or called office. 19 - System as claimed in 18, characterized in that the disoriminator device responds to the identity of the calling party or the calling office, as given by the first digit or by the first digits received from an equipment d 'identification. 20 - System as claimed in 19, characterized in that the discriminating equipment translates the first digits of the number of the called subscriber as marked on the disk to determine the requested office, translates the first digits of the subscriber's numbers caller such as those given by the identification equipment to determine the calling office, and finally translates the two resulting indications to determine whether or not a ticket should be issued. 21 - System for central telecommunications offices as described with reference to the attached drawings. ABSTRACT. The invention relates to a system for automatic central telecommunications offices in which equipment has been provided for the automatic establishment of files common to a certain number of subscribers. This system is characterized by a distinctive or discriminating means arranged to bring into operation the equipment for the automatic establishment of files for calls of a certain class or for calls sent by subscribers of a certain class. That is a total of 32 pages.