RU2041570C1 - Commutational system - Google Patents

Abstract

FIELD: automatic communication. SUBSTANCE: for reduction of number of internal interlocks and provision of priority subscribers with unblocked communication without increase of dimensions of equipment commutational system has n commutation units in first link 1(1)-1(n), n commutation units in second link 2(1)-2(n) and additional commutation unit 3 in each of m units of incoming 4(1)-4(m) and outgoing 5(1)-5(m) communication. EFFECT: enhanced efficiency and reliability of automatic communication. 1 dwg

Description

 The invention relates to automatic switching and can be used to build quasi-electronic nodes of automatic switching of small and medium capacity.

Known switching systems containing m nodes of incoming lines and m nodes of outgoing lines containing each two-link switching scheme containing K ₁ switching blocks in the first link, each of which contains n inputs and l outputs, and K ₂ switching blocks in the second link, each of which contains n ₂ inputs and l ₂ outputs, and the outputs of each switching unit of the first link are connected to the corresponding inputs of the corresponding inputs of the switching blocks of the second switching link (it is assumed that (K ₁ l ₁ K ₂ l ₂ ) (See B. Livshits C. . and others. The development of si the automatic switching of channels. Contact M., 1976, s.15-17).

 However, such switching systems have low throughput due to the construction of two-link nodes of incoming and outgoing lines. In addition, this system does not allow to organize priority communication between the respective groups of subscribers (military, commercial, government communications, etc.).

 The objective of the proposed system is to provide priority communication to the respective subscribers and reduce locks for ordinary subscribers.

 The drawing shows a structural electrical diagram of a switching system.

The switching system contains n switching blocks of the first link 1 ₁ -1 _n , n switching blocks of the second link 2 ₁ -2 _n and an additional switching block 3 in each of m incoming nodes 4 ₁ -4 _m and in each of m outgoing nodes 5 ₁ -5 _m . Moreover, each of the switching blocks of the first and second link contains n inputs and n outputs.

 The switching system operates as follows.

Arriving at one of the nodes of the incoming connection, for example 4 ₁ , the call arrives at the switching unit of the first link, for example 1 ₂ , which is connected by the n-1st output to the second input of the switching unit 2 _{n-1 of the} second link. Another connection of these blocks, simultaneously with the indicated one, is carried out from the n-th output of switching block 1 ₂ through an additional switching block 3 with the n-th input of switching block 2 _n-1 . Thus, with a slight increase in the volume of equipment, the throughput increases. Similar connections occur at the outgoing communication nodes 5 ₁ -5 _m .

Priority subscribers are included in the nth switching blocks of the first and second links 1 _n and 2 _{n of} each outgoing communication node 5 ₁ -5 _m and each incoming communication node 4 ₁ -4 _m . The presence of a direct connection between the switching units 1 _n and 2 _n n-1 allows virtually eliminating the blocking of lines between them.

 In addition, priority subscribers can communicate with non-priority subscribers (and vice versa) through additional switching units 3.

Claims (1)

 SWITCHING SYSTEM containing m nodes of incoming communication, the outputs of which are connected to the corresponding inputs of m nodes of outgoing communication, while each node of incoming and outgoing communication contains n switching blocks of the first link and n switching blocks of the second link, and the switching blocks of the first and second links contain n inputs and n outputs, while n 1 outputs of the i-th switching unit of the first link are connected to the i-inputs of the switching blocks of the second link (where i 1, 2, n 1), characterized in that in each node of the incoming and outgoing additional communication block is introduced to it, the inputs of which are connected respectively to the n-th outputs of the switching blocks of the first link, and the outputs of the additional switching block are connected to the n-th inputs of the corresponding switching blocks of the second link, while n 1 outputs of the n-th switching block of the first link connected respectively to n 1 inputs of the n-th switching unit of the second link.