SE517557C2 - Method and apparatus for interconnecting two associated gear units - Google Patents

Abstract

The present invention relates to a device for connection to a public telecommunication network (IVN) and comprises at least two exchange units (PINX, PINX2, CENTREX AXE) to which subscriber terminals can be connected, such as an exchange unit and a method for interconnecting two such exchange units. Each exchange unit (PINX, PINX2, CENTREX AXE) comprises a control means, which is arranged to be able to detect a request, coming from a subcriber terminal connected to a first exchange unit (PINX1), for the connection to a second subscriber terminal connected to a second exchange terminal (PINX2, CENTREX AXE) and to set up, through signalling and in dependence of said detection, a special signalling channel through the public telecommunication network between the own exchange unit and the other exchange unit if no such signalling channel already exists and to set up a speech channel between the two exchange units.

Description

EP-A2-584 537 describes the interconnection of private exchanges by means of an ISDN network. Signaling information is sent between the exchanges over a packet-switched connection and voice traffic over a connection of the “basic rate” type.

EP-A2-641 140 describes a virtual where signaling information specific to a telephone call corporate network is transmitted between private exchanges in data messages transmitted in the same channel as the telephone call occupies.

EP-A2-667 723 describes a telecommunications network with exchange units. Utility channels for speech, text and the like are established in the network, as well as a special signaling channel. This is connected as long as a useful channel is connected or as long as signaling information is available to transmit.

EP-Al-642 282 describes communication between private telephone networks with own exchanges. Voice channels and a signaling channel are connected if necessary, the signaling channel being connected through a separate signaling network.

RsnoGönELsE For. THE INVENTION The present invention addresses a problem of how to connect at least two exchange units in a corporate network via a public telecommunication network to transmit company network-specific information without using permanently connected lines between the exchange units and without using coding of the company network-specific information on any voice channel.

Another problem which the invention addresses is how to additionally interconnect at least two exchange units for the transmission of company network-specific information while at the same time keeping the connection time and the number of connections between the exchange units very low. An object of the present invention is thus to interconnect two exchange units with each other in a telecommunication network in order to transmit a fixed corporate network via a public company-specific information without using connected lines.

These problems are solved by establishing a special signaling channel through the public network when a call is to be connected between two exchange units, unless such a signaling channel had already been established for a previous ongoing call, so that company network-specific information can be transmitted over the signaling channel.

The problems are thus solved by a method comprising the steps of: detecting, in a first of the exchange units, a request for connection of a first subscriber connected to the first exchange unit to a second subscriber connected to an establishment, at said detection, of both other of the exchange units, a special signaling channel through the network of the already two exchange units for connecting a call between the first exchange units if no such signaling channel exists, and establishing a voice channel between the and the second subscriber.

The problems are also solved by an exchange unit which comprises one can be connected to subscriber terminals and as a control means, which detects a request for connection coming from an exchange unit connected to a second subscriber terminal connected to another exchange unit and, depending on said detection, establishes, by signaling , a special signaling channel through the public telecommunication network between the own exchange unit and the second exchange unit if no such signaling channel already exists and establishes a voice channel between the first and second subscriber terminals for connecting a call between them. The problems are also solved by a device comprising at least two such gear units.

The advantage of the invention is that it only interconnects two gear units with each other when information is to be transmitted and that no connection exists between the two gears otherwise. A further advantage of the invention is that in addition to the voice connections, only a further connection, connected through the public network between the exchange units, is used. This provides a very cheap system because you only pay for connection via a public network the time you actually use the network and do not have to use expensive rented lines or expensive fixed connections if the exchange units are 'at a great distance from each other. In addition, the resources of an exchange unit are better utilized in cx fl in that no connections are permanently connected unnecessarily, which makes the exchange unit more flexible.

The invention will now be described in more detail by means of preferred embodiments and with reference to the accompanying drawings.

DESCRIPTION OF THE FIGURES Fig. 1 shows a schematic figure in block form of an exchange unit according to the invention, Fig. 2 shows a schematic figure in block form of a small corporate network connected to a public telecommunication network, Fig. 3 shows a flow chart of a method according to the invention and Figs. 4 shows diagrammatically how the signaling takes place according to the invention. 1015 20 25 30 517 §57 PREFERRED EMBODIMENTS Fig. 1 shows a simplified variant of a gear unit according to a preferred embodiment of the invention. The preferred gear unit PINX1 is a corporate gear, for example of the MD 110 type from Ericsson. This gearbox comprises a coupling core 10 to which a control means 12 is connected.

The control means 12 is arranged, among other things, to control the forwarding of calls through the exchange. A number of subscriber terminals 14 are also connected to the connection core 10, which is also ten output lines T1 ~ T10. Two so-called signal terminals 'ST' are also connected to the connection core 10. A DID memory 16, where DID stands for "direct-in-dialing", is also connected to the control means 12. The DID memory 16 contains special telephone numbers which are to be be used for calling and connecting calls between the PINX1 exchange unit and one or more other exchange units in a corporate network in which the corporate exchange is included. As is well known to the person skilled in the art, a subscriber 14 is connected, another business exchange or to another subscriber connected directly to a public telephone network, to an outgoing line T1 - T10 by means of the switching means 10 under the control of the control means 12.

A signal terminal ST can also be connected to an outgoing line under control from the control means 12.

Each line and connection shown in the figure is bidirectional so that traffic can go in both directions.

A signal terminal ST is for one exchange unit to be able to communicate with another exchange unit according to a predetermined protocol so that company network-specific information can be transmitted. This of course presupposes that the other exchange unit also comprises a signal terminal. By company network-specific information is meant such information as, for example, who is calling and his telephone number, if a dialed telephone number is busy, if a dialed telephone number is forwarded and in such cases where, if the caller is in a meeting, etc. All this information is important that transfer in a corporate network. The corporate exchange shown in the figure has only two signal terminals ST and the corporate exchange can therefore only be connected to two other exchange units at a time. The PBX could of course include only one or significantly more signal terminals. What regulates how many signal terminals you have in one exchange unit is the number of other exchange units you want to be able to transfer corporate network-specific information to at the same time. In the same way, of course, the number of connected subscribers and outgoing lines can be varied. An exchange unit according to the invention is also not limited to company exchanges but also includes, for example, so-called center exchange units. A centrex unit is part of a switch in the public network, such as part of an AX switch and which was used as a corporate switch. The control means and the signal terminals are then always in the centrex part of the public exchange.

Fig. 2 shows a simplified corporate network with two corporate exchanges PINX1 and PINX2 and a centrex unit CENTREX AX.

The figure is simplified by omitting control means, DID memory and switching core. However, the pinch switches PINX1 and PINX2 are essentially of the same type as described in connection with Fig. 1.

The two company exchanges are connected by means of a first, second, third, fourth, fifth, fifth, sixth, seventh, eighth and ninth line 10 15 20 25 30 517 557 lines' T1 - T9 and T11 - T19 respectively to a public network IVN, which in this preferred embodiment is an Integrated Services Digital Network (ISDN). However, it could just as easily be a PSTN network (Public Switched Telephone Network). The first company exchange PINX1 also has a tenth outgoing line 'Tl0 which is connected to the public network IVN. Also. the centrex unit is connected to the public network by means of a first, second, third and fourth line T20 - T23. All wires in this figure are also bidirectional. The second, third and fourth lines T2 - T4 leaving the first corporate exchange PINX1 are connected to the corresponding second, third and fourth lines T12, Tl3, T14 leaving the second corporate exchange PINX2, ie they have been connected via the public network IVN . The fifth lines T5 and Tl5 that leave the respective PBX are used for signaling to the public telephone network, ie function as a D-channel in relation to the ISDN network. If the PBXs were to be connected to an ordinary PSTN network, these lines would of course be used for ordinary traffic and the signaling would take place via the normal B-channel connection. The seventh, eighth and ninth lines T7, T8 and T9 leaving the first PBX PINX1 are connected to the first, second and third lines T20 - T22 leaving the CENTREX AX center unit.

The CENTREX AX Centrex unit also uses its fourth line T23 for ISDN signaling, which would of course be used for ordinary traffic in case the public network is a PSTN network as well.

A first signal terminal ST i. The first gearbox PINX1 communicates with a first signal terminal ST in the second gearshift PINX2 via the fourth lines T4 and T14 which leave the first and the second gearshift pinXX1 and respectively. public network IVN and a second signal terminal ST in the first corporate exchange PINX1 is * connected * to a signal terminal in the centrex unit CENTREX AX via the ninth line T9 leaving the first corporate exchange PINX1 and the third line T22 leaving the centrex unit CENTREX AXE and the public network . All wires leaving an exchange unit act as a connection for communication with the public network IVN over a traffic interface (C) using a protocol called the Private Integrated Services Network (PISN); Inter-exchange Signaling Protocol; Circuit-mode Basic Services ”with number ETS 300 172 and the signal terminals communicate with each other via a separate signaling interface (Q) using a protocol called“ Integrated Services Digital Network (ISDN) Digital Subscriber Signaling System No. one (DSS1); Data Link Layer ”with number ETS 300 402.

Where these interfaces are drawn as dashed lines which in the case of the traffic interface (C) run across all lines connecting the respective switching units PINX1, PINX2 and CENTREX AX with the public network and in the case of the signaling interface (Q) go across the connections within a switching unit that connects each signaling terminal ST to a line connected to the public network. All the wires used for some form of signaling, either. towards the public network or other exchange units, are shown with thick lines. The gear units are not constantly connected to each other in the manner shown in the figure. without. just connected. in the manner shown in the figure as required, ie when calls are to be connected. When there is no traffic between two exchange units, neither the signaling channels between the signal terminals are connected nor any voice channels. How to connect will be described below with reference to Figs. 3 and 4. As shown in Fig. 2, two signal terminals communicate with each other over two interfaces, (Q), which are connected to the exchange units only communicate both the traffic interface (C) and the signaling interface while subscriber terminals (not shown) (C), with each other via the traffic interface, i.e. the protocol used for the signaling channel is at a higher level than the protocol used for the voice channel.

Fig. 2 shows that two calls are in progress between subscribers connected to the first corporate exchange PINX1 and subscribers connected to the second corporate exchange PINX2. The subscriber terminals between which the calls take place are omitted in the figure for the sake of simplicity. A first call B1 takes place via the second lines T2 and T12 leaving the first and second corporate exchanges and a second call B2 takes place via the third lines T3 and T13 leaving the first and second corporate exchanges. Company network-specific information for both these calls B1 and B2 is transmitted via a signaling channel (D1-2) which is established via the fourth lines T4 and T14 which leave the first and second company exchanges.

Similarly, two calls B1 and B2 take place between the first PBX PINX1 and the CENTREX AX center unit via the seventh line T7 leaving the first PBX and the first line T20 leaving the PBX and via the eighth line T8 leaving the first PBX and the second. the line T21 leaving the centrex unit. A signaling channel (D1-2) is also established for company network-specific information regarding these calls via the ninth line T9 leaving the first company exchange and the third line T22 leaving the center unit. The signaling channels (D1-2) are established by D-over-B signaling, i.e. they are perceived by the public network IVN B-channels, as ordinary voice channels, but by the exchange units as D-channels . Company network-specific information for many more than two calls can of course be transmitted via a single such signaling channel. Fig. 3 shows a flow chart of a method for connecting calls according to the invention and Fig. 4 a diagram showing with arrows how the establishment of a signaling channel and a speech channel between two specific exchange units takes place. Fig. 4 shows eight vertical solid lines, which from left to right are denoted TC, DRC, Q, C, C, Q, DRC, TC. A space between the lines denoted C is denoted IVN. TC (Terminal Connection) on the far left stands here for a subscriber connected to the first corporate exchange, DRC (Dynamic Route Controller) then for the controller in the first corporate exchange, Q denotes the signaling interface in the first corporate exchange, C the traffic interface between the first corporate exchange and the public network and IVN the public network. Then C follows the traffic interface between the second corporate exchange and the public network, Q the signaling interface inside the second corporate exchange, the DRC controller in the second corporate exchange and finally TC a subscriber connected to the second corporate exchange.

Fig. 4 shows how information is transferred between two company switches. How to connect a signaling channel and a voice channel between two corporate exchanges will now be described with reference to Figures 3 and 4. Figures and procedure are shown and described only for the case of two corporate exchanges, but the procedure can of course also be applied to a corporate exchange and a center unit or for two centrex units. Referring to Figures 3 and 4, the method of the invention operates in the following manner. When a first subscriber, designated TC in Fig. 4 and connected to a first corporate exchange, wants to reach a second subscriber, also the designated TC in Fig. 4, where both subscribers belong to the same corporate network but different corporate exchanges, the first subscriber dials a telephone number which corresponds to the other subscriber's subscription.

This is indicated in Fig. 4 by an arrow between the lines TC and DRC in Fig. 4, denoted by outg. call and indicating that the first subscriber is calling the controller in the first exchange. The control means in the first business exchange detects this call, method step 20, and performs an analysis of the number of the second subscriber, usually called B-subscriber. If, after this analysis, the controller finds that the B-number goes to a subscriber who does not belong to the corporate network, procedure step 22, it ensures that the call is connected as an ordinary telephone call via the public network, procedure step 24. If the controller finds that the number belongs to a subscriber connected to another business exchange in the same business network, procedure step 22, this second business exchange is identified by means of the number dialed by the first subscriber and a new survey is performed. In the new survey, the controller searches if a signaling channel is connected between the two corporate exchanges, procedure step 26. If there is a signaling channel connected, the controller selects a special voice connection or DID number for use in calling the other corporate exchange via the public network IVN.

Then a voice channel for speech is connected between the two company exchanges and company network specific to that information, the other company exchange is transmitted over the already established signaling channel, procedure step 28. If, on the other hand, no signaling channel was established, procedure step 26, the control number selects a special and a signaling channel response number from the DID memory, which numbers are entered in the DID memory in advance, and use these numbers when calling the second corporate exchange, procedure step 30. This is done in such a way that the control means requests an establishment the control means to the C-reference point, denoted by setupBcha (set up B-Channel) and signals to the second corporate exchange via the public network IVN, this is indicated by the signal seizure in Fig. 4. which is a known Signal seizure, call signal according to the protocol it public network utilizes, includes the signaling channel call number and the signaling dial nalsvarsnumret. If the public network were a PSTN network, but only one number would be used, the signaling channel call number. The two numbers are transmitted from the public network to the control body in the second company exchange, designated estdrind (establish dynamic route individual). The second controller performs a check of the signaling channel response number, connects its signal terminal to the signaling interface and answers the call with the received signaling channel response number if this number was correct, step 32. The connection of a signal terminal in the second business exchange is indicated by two arrows running in each direction and DRC on the right in Fig. 4 and the answer of the call, which takes place with the signaling channel answer number, is called estdrindack (establish dynamic route individual acknowledged).

Then this B-channel to be used for the signaling channel is connected through the public network, indicated by connected as it is also a known paging signal according to the protocol used by the public network, and the control means in the first business exchange receives a Bchacon (B-channel connected) signal, which indicates that the B-channel is connected. Then the first control means connects its signal terminal to the signaling interface, which is indicated by two arrows running in each direction between the line Q and the DRC on the left in Fig. 4.

Thereafter, the two signal terminals contact each other under control from the first signal terminal, which is indicated by the signal estL2 (establish L2) transmitted from the first control means to the signaling interface. Then a "fixed" connection is established between the two signal terminals between the two signaling interfaces, which is indicated by the dashed bidirectional line marked Layer 2. This connection is established by handshaking between the two signal terminals using an HDLC protocol. If the public network had been a PSTN type network and no signaling channel response number had been transmitted during the signaling, then identification of the two signaling channels would take place over the established signaling channel, i.e. control would have been performed to see if the second PBX was the one to be connected to the first PBX. anal, procedure step 33.

After the signaling channel has been established between the two exchanges in this way, a voice connection or DID number is then selected and the second exchange is called with this DID number to establish the voice channel, procedure step 34. This is done in such a way that a signal estdrreq (establish dynamic route request) 10 15 20 25 30 517 557 14 is transmitted from the control means in the first corporate exchange to the public network IVN to call the second corporate exchange, which takes place through the public network by means of the signal seizure.

This signal also includes the DID number and a response number.

The call is received by the other company exchange as the signal estdrind (establish dynamic route individual). The second company exchange checks the response number and responds using the response number and depending on the control with the signal estdrindack (establish dynamic route individual acknowledged), which is transmitted through the public network as the signal connected and received by the first company exchange as estdrreqack (establish dynamic route request acknowledged ).

Thus, the B-channel is connected and a call can then continue on this voice channel at the same time as company network-specific information, such as for example A and B numbers, is transmitted via the signaling channel. If the public network were a PSTN network, the call numbers for the voice channel would be checked via the signaling channel before the voice channel is established.

The signaling channel is then connected as long as a call is in progress between the two company exchanges and is used for the transmission of company network-specific information for all calls that are in progress between the two exchanges. When the last call is then disconnected, the signaling channel is also disconnected. How to disconnect channels is well known to those skilled in the art and will therefore not be described in more detail here.

With the invention described above, a number of advantages are obtained.

Firstly, there is no need to have any permanently connected lines between two exchange units when no company network-specific information is to be transferred between them, which avoids the use of expensive leased lines or other fixed connections. Secondly, an exchange unit is used more efficiently, ie the capacity needed to keep such a connection connected when no company network-specific information is to be transferred between two exchange units can be used for other things.

A number of variants of the invention are possible. The checks of call numbers mentioned do not need to be performed and can also be performed in part. In addition, if a call is to be connected between a subscriber connected to a first corporate exchange and a second subscriber connected to a second corporate exchange and it is the first subscriber who is the one calling the second subscriber, then in an alternative embodiment connect the actual voice channel from the second subscriber, ie in such a way that the public network perceives it as if the second subscriber is calling the first subscriber. In such cases, this would be done so that the first control means ensures that, when a signaling channel has been established, a request is transmitted for connection of a voice channel via the signaling channel from the first corporate exchange to the second corporate exchange and the second corporate exchange then connects the voice channel. This may be of interest if it is cheaper to call from the second corporate exchange than from the first corporate exchange, for example depending on different rates in different countries. Selection of the signaling channel response number and DID number can also be performed by the other company exchange. The numbers used for calls and answering calls when connecting voice channels are usually dialed. in a known manner according to some internal numbering plan in the first company exchange, but it would also be conceivable that the A and B numbers were used, ie those directly belonging to the two subscribers.

Another variant of the invention is that speech compression can be used. Then the business switches shall comprise a voice compression unit, usually referred to as a "voice compression unit" and which also advantageously includes the signal terminal. A speech compression unit compresses the speech according to a compression algorithm so that a speech channel can occupy a very one speech connection between two smaller part of corporate exchanges (usually a quarter). The signal terminal receiving a compressed channel expands (in its speech compression unit) the compressed speech to ordinary size speech. In this way, the number of connections between the PBXs can be further reduced and it can even be ensured that the connection or channel established for the signaling channel is also used for voice channels. Usually this connection then occupies three voice channels and the signaling channel and only more connections are used when the entire space in the connection for the signaling channel has been used.

The control unit in an exchange unit is also often equipped with fault control equipment for monitoring the channels connected via the public network for faults and reconnecting one by mistake, for example due to faults on the public network, disconnected channel.

In the description it has been mentioned that voice channels are established for calls between two subscribers. Such a voice channel can of course also be established for transmitting data or video. The present invention is particularly suitable when exchange units in a corporate network are far apart.

They may even be in different countries.

The invention may also be combined with. connection of signaling and voice channels depending on calendar data.

The invention is of course not limited to those described above and in the figures. showed the embodiments, without. may be modified within the scope of the appended claims.

Claims (15)

10 15 20 25 517 557 18 PATENT REQUIREMENTS Method for interconnecting two interconnected exchange units (PINX1, PINX2, CENTREX AX) via a public telecommunication network (IVN) comprising detecting, in a first of the exchange units (PINX1), a request for connection of a first subscriber (14) connected to the first exchange unit of a second subscriber connected to a second of the exchange units (PINX2) (20), establishing, at said detection, a special signaling channel (D1-2) through the network of the two exchange units unless such a signaling channel already exists (26, 33), and establishing a voice channel (B1, B2) between the two exchange units (28, 34) for connecting a call between the first and second subscribers, characterized in that a voice channel comprises the establishment of transmission of a request for connection of a voice channel over the signaling channel from the first exchange unit to the second exchange unit, selection of a special voice connection number in the second exchange unit and connection plinging the voice channel from the second exchange unit to the first public exchange unit through that telecommunication network using the special voice connection number. Method according to claim 1, characterized by transmission of company network-specific information via the signaling channel (D1-2) for the call between the first and second subscriber, which transmission takes place even if a previously connected voice channel (B1, B2), for which the signaling channel first was connected, has been disconnected (28). 10 15 20 25 517 557 19 Method according to Claim 1 or 2, characterized by disconnection of the signaling channel (D1-2) if all the voice channels (B1, B2) have been disconnected, which are connected between the two exchange units (PINX1, PINX2) and for which company network-specific information has transmitted using the signaling channel (D1-2). " Method according to any preceding claim, characterized in that the establishment of the signaling channel comprises selecting, i. The first switching unit (PINX1), a special signaling channel call number and sending a call using the special signaling channel call number from the first switching unit to the second the gear unit (PINX2) for establishing the signaling channel (30). Method according to claim 4, characterized in that the establishment of the signaling channel (D1-2) also comprises selecting, in the first exchange unit (PINX1), a signaling channel response number, which is transmitted together with the signaling channel call number in the transmitted call, and answering the call. from the second exchange unit (PINX2) using the signaling channel response number in dependence on a signaling channel response number control for establishing the signaling channel (32). Method according to claim 4, characterized in that the establishment of the signaling channel comprises checking the signaling channel by handshaking on the signaling channel before company network-specific information is transmitted and disconnecting the signaling channel if the handshaking was not performed correctly. 10 15 20 25 30 517 557 zo Method according to one of the preceding claims, characterized by the compression of each voice channel and the connection of several voice channels via one and the same connection through the public telecommunication network. Method according to claim 7, characterized by the connection of voice channels via the connection established through the public telecommunication network for the signaling channel in such a way that space corresponding to a compressed voice channel is used for the signaling channel and the rest of the space is used for compressed voice channels. Exchange unit (PINX1) for connection to a public telecommunication network (IVN) and to which subscriber terminals can be connected, the exchange unit comprising a control means (12) arranged to be able to detect a request coming from a first subscriber terminal (14) coming to the exchange unit connection to a second subscriber terminal connected to another exchange unit, to establish, in dependence on said detection, by signaling, a special signaling channel (D1-2) through the public telecommunication network (IVN) between the own exchange unit and the second exchange unit. if no such signaling channel already exists and to establish a voice channel (B1, B2) between the first and second subscriber terminals for connecting a call between them, it is known that the control means at. the establishment of a voice channel is further arranged to send a request for connection of a voice channel over the signaling channel to the second exchange unit, so that the second exchange unit can select a special voice connection number and connect the voice channel from the second exchange unit to this exchange unit using the public telecommunication network. of the special voice connection number. 10 15 20 25 517 557 21 Switching unit according to claim 9, characterized by a connection core (10) and a number of output lines (T1-T10), where the control means (12) is connected to the connection core and each connection point for a subscriber terminal (14) can be connected to an output line via the coupling core. A gear unit according to claim 10, characterized by a DID memory (16) connected to the control means (12). A switching unit according to any one of claims 10 or 11, characterized by a signal terminal (ST) for each other switching unit to which the switching unit is to be connectable, each signaling terminal being connected to the switching core (10) in order to be connected to one of the output lines. Exchange unit according to one of Claims 9 to 12, characterized in that it is already connected through the network between the exchange unit and another exchange unit, the control means being arranged to cause it to be used for transmitting company network-specific information for subsequent connections of subscribers between these two exchange units. (mn the first requested connected voice channel has been disconnected or is to be disconnected. Exchange unit according to claim 9 or 10, characterized in that the control means (12) is arranged to provide disconnection of the signaling channel if all the voice channels connected between the two exchange units have been disconnected for which company network-specific information has been transmitted using signaling. Device for connection to a public telecommunication network (IVN) and comprising at least a first and a second exchange unit (PINX1, PINX2, CENTREX AX) to which subscriber terminals (14) can be connected, the first exchange unit (PINX1) ) comprises a control means (12) or has access to a control means which is arranged to be able to detect a request for connection to a second subscriber terminal connected to a second exchange unit (PINX2) coming from a first subscriber terminal (14) connected to the associated exchange unit (PINX1). , CENTREX AX), to establish, depending on said detection, by signaling, a special signaling channel through the public telecommunication network between its own exchange unit and the second exchange unit if no such signaling channel already exists and to establish a voice channel between the first and second subscriber terminals for connection of a call between them, characterized by the control means in the first grow the electrical unit when establishing a voice channel is further arranged to send a request for connection of a voice channel over the signaling channel to the second exchange unit and the second exchange unit is arranged to select a special voice connection number and connect the voice channel from the second exchange unit to the first exchange unit through the public the telecommunications network using the special voice connection number.