RU2119263C1 - Digital switching system - Google Patents

Abstract

FIELD: digital communications. SUBSTANCE: digital switching system that has l subscriber concentration modules, l+m remote subscriber modules, n+l+m telephone sets, and through switching module is provided, in addition, with k+l through switching modules each incorporating input/output units of common warning channel and routing unit; through switching units are connected to subscriber concentration modules and are interconnected so that particular through switching module is connected to part of subscriber concentration modules and through switching modules enabling construction of cost- effective switching circuits of arbitrary sizes. Routing unit enables selection of shortest possible route for call passage (over switching steps). EFFECT: simplified design and improved economic efficiency. 2 dwg

Description

 The invention relates to communication technology, in particular to the construction of telephone switching systems.

 A digital switching system is known, comprising n • l • m telephones connected to l • m remote subscriber modules connected to l subscriber concentration modules that are connected to a transit switching module, wherein the transit switching module contains a group switching stage, the control input of which connected to a control bus to which a marker is connected, a common signaling channel unit (ACS block) and a linear signaling unit, as well as terminal station kits connected to a group stage th switching (SU. No. 1547671, H 04 M 3/00, 1988 YG). The switching system is implemented as an electronic automatic telephone exchange with a digital telephone (EATS-CA) C-32 system.

 In the known technical solution, the construction of the system is possible only by connecting the subscriber concentration modules (essentially automatic telephone exchanges) with the transit switching module specified in the patent, while the equipment of the transit switching module, designed for a digital switching system of certain sizes, does not allow increase the size of the switching system, and when it becomes smaller, it becomes economically inefficient, i.e. flexible variation in the size of the digital switching system is difficult.

 The technical result achieved is to ensure the creation of a digital switching system of arbitrary maximum sizes with the possibility of establishing transit connections and connecting other types of exchanges, simplifying the system and more economical use of equipment.

 For this, a digital switching system containing n • l • m telephones, l • m remote subscriber modules, l subscriber concentration modules and a transit switching module containing a group switching level, a control bus, a marker, a common signaling channel unit, k- 1 transit switching modules, in each of which input / output blocks of a common signaling channel and a routing block are introduced.

 In FIG. 1, 2 shows a structural electrical diagram of a digital switching system and a transit switching module.

 The digital switching system contains n • l • m telephones 1, l • m remote subscriber modules 2, l subscriber concentration modules 3, k transit switching modules 4, each of which contains a group switching stage 5, marker 6, control bus 7, block the common signaling channel 8, the input / output blocks of the common signaling channel 9 and the routing unit 10. The terminal station components 11, the linear signaling units 12, and the multi-frequency signaling units 13 are located in the interface units 14 located on the oncoming exchanges. Block 14 is described in publications (see, for example, [1]) and is indicated for a more accurate description of the operation of a digital switching system.

 The connection of the subscriber concentration module 3 and the transit switching module 4 is performed using digital paths in such a way that the i-th subscriber concentration module 3 is connected to p transit switching modules 4, the j-th transit switching module 4 is connected to q subscriber concentration modules 3. Communication modules of the switching switching 4 between themselves is made in such a way that the j-th module of the switching switching 4 is connected to other s modules of the switching switching, while the number s + 1 is less than or equal to k. At k ≥ 2, PBXs are connected via interface units 11 to transit switching modules 4 in such a way that a particular exchange is connected to two or more transit switching modules 4. At k = 0, PBXs are connected via interface units 11 to subscriber concentration modules 3.

 Digital switching system operates as follows.

 A. The case when a call comes from a telephone set over a subscriber line belonging to a digital switching system. The signals from the telephone set 1 are received through the remote subscriber unit 2 to the subscriber concentration module 3, the return signals are received from the subscriber concentration module 3 through the remote subscriber module 2 to the telephone set 1. Call processing is performed in the subscriber concentration module 3 in a known manner. (SU. Patent 1547671, H 04 M 3/00, 1988). After receiving the digits of the called subscriber’s number in the subscriber concentration module 3, the call direction is determined. The call can be intended for the subscriber of the same module of subscriber concentration 3, the subscriber of another module of subscriber concentration 3 of the digital switching system, the subscriber of the oncoming telephone exchange or automatic telephone exchange. The connection to the subscriber of the same subscriber concentration module is established in a known manner. If the call is intended for the subscriber of another subscriber concentration module 3 of the digital switching system or the oncoming PBX subscriber (PBX), then the call is routed to that transit switching module 4, from which there is a connection to the desired subscriber concentration module 3 or to the PBX (PBX) directly or through one or more additional transit switching modules 4. In order to reduce the connection establishment time and reduce the total load on the line, the call is routed in such a way that it passes through the minimum number of transit switching modules is 4, and in the absence of free paths, the call is redirected to workarounds containing additional transit switching modules 4.

 B. The case when the call comes from the oncoming PBX (PBX) over the trunk. The number of the called subscriber from the exchange goes through the interface unit 14 to the transit switching module 4, where using the routing block 10, the number of the incoming module of the subscriber structure 3 to which the called subscriber is connected is calculated. Next, the call is routed to the outgoing subscriber concentration module 3, if there is a free connecting line to it, or to one of the adjacent transit switching modules 4, from which it is possible to establish the path to the incoming subscriber concentration module 3. Call processing in the incoming subscriber concentration module 3 is known way.

 B. The case when a call passes from an outgoing PBX in transit through a digital switching system to an incoming PBX. From the outgoing PBX, the number (or first digits of the number) of the called subscriber enters through the interface unit 14 to the transit switching module 4, where using the routing unit 10 the direction to the outgoing PBX is calculated. Further, the connection is established in the same way as if the call came to this transit switching module 4 from the subscriber concentration module 3.

 This system works with a common signaling channel (ACS), and in a digital multi-channel system (for example, PCM), a channel is allocated to which information about the required connections is transmitted. In the transit switching module 4, in the input / output blocks of the common signaling channel 9, a common signaling channel is allocated, information about the required connections is allocated in the block of the common signaling channel 8 and fed to the control bus 7. Through the control bus 7, the information goes to the routing block 10, which makes a route selection, and also in the case of a call from an oncoming exchange, calculates the direction to the subscriber concentration module 3 or to the incoming exchange. After the route has been established, marker 6, according to information in the operational memory, searches for a free connecting line and, through the control bus 7, gives the command of the group switching stage 5 to disconnect this line with the line along which the call came to this transit switching module. Information about the route and the called party through the block of the common signaling channel 8 is entered for transmission in a digital stream to the corresponding input / output block of the common signaling channel 9. Since there is no significant processing of information in the transit switching modules, their implementation is quite simple. The routing unit 10 and the marker 6 are performed in the form of a computer operating according to the algorithm described above. The transit switching module 4 itself is a fairly simple element, the inputs and outputs of which are equivalent.

 Connections between transit switching modules with each other and with subscriber concentration modules for a specific application of a digital switching system can be optimized depending on the required load and the configuration of the telephone network. The invention allows providing digital communication to regions in which there are various types of telephone exchanges.

Sources of information
1. Varakin L.E., Abugov G.P. et al. S-32 system, technical description and first test results // Telecommunication, 1996, N1.

Claims (1)

 A digital switching system comprising l subscriber concentration modules, each of which is connected to m remote subscriber modules, each of which is connected to n telephone sets, and the subscriber concentration modules are connected to a transit switching module containing a group switching stage, the control input of which is connected to the bus control connected to the marker and the block of the common signaling channel, characterized in that k - 1 transit switching modules are introduced, connected to the corresponding module subscriber concentration, and the input and output blocks of the common signaling channel connected to the common channel block, as well as the routing unit connected to the control bus, each transit switching module is connected to the corresponding other transit switching modules into each transit switching module.

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