SU860349A1 - Multi-stage field of spatial commutation - Google Patents

Description

(54) MULTIPLE SPATIAL COMMUTATION FIELD

Claims (1)

The invention relates to communication technology and can be used in telephony as a two-stage spatial switching field. A multi-stage spatial switching field is known, containing distributors connected to the inputs of the respective switches, the outputs of which are connected to the inputs of the delay elements and through the corresponding contacts to the outputs of the spatial switching field {1. However, in such a device, the number of connections between switching blocks is large. The purpose of the invention is to increase the capacitance of a dow of a cascade field of spatial switching. This goal is achieved by the fact that a multi-stage spatial switching field containing distributors connected to the inputs of the respective switches, whose outputs are connected to the inputs of the delay elements and through the corresponding contacts to the spatial switch of the field switching, is performed in in the form of switching units, each switching unit contains n switches with n inputs and m outputs each, where, the first inputs of the corresponding sections predeliteley n each switching unit switches are connected to the inputs of the switching field prostranstvetsoy outputs i-ro m switch via delay elements to the second inputs podaslyucheny i-th spreaders all n switches, wherein the output of each delay element is connected to the second inputs of the n / m valves. FIG. 1 is given a two-stage spatial switching circuit; in fig. 2 is a block diagram of the switching unit. The two-stage spatial switching field circuit consists of several switching blocks 1. The number of blocks (determined by the required capacity of the spatial switching field and can vary from 1 to k, - where k is the maximum number of blocks. The inputs of each block are connected to all inputs of the spatial field switching and the outputs of the blocks, respectively, associated with the outputs of the field of spatial switching. The switching unit contains valves 2, switches 3, delay elements 4, contacts 5-7. The device works as follows The time allotted for switching one signal, or the switching time of a single PONGER of a single signal, is divided by the number of switching stages} of switching into two time slots. During each time interval, in the proposed two-stage spatial switching field, one corresponding switch, t. that is, during the first interval in the proposed field, the switching of the first cascade is performed, and during the second interval, the switching of the second cascade. In the first interval, the control signals simultaneously close the first pins 5 of all the valves 2, as a result, 4eto commutated signals from the inputs of the switching unit are fed to the corresponding inputs of the switches 3. In the same interval, the control signals supplied from the storage devices of the connections (not shown in drawing), closes those of the contacts of the switches 3, which are necessary for connecting the connections in the first stage, as a result, the switched signal passes from the input to the output of the switch 3 and move delay element 4. Switched signals are delayed by a time, which complements the delay time of the propagation of electrical elements in electric elements up to the duration of the first interval, i.e. before the beginning of the second interval. The delay elements 4 are preferably implemented on type D triggers, and then the delay is due to the fact that each switched signal supplied to the input is written to the trigger on the leading edge of the clock pulse (the leading edge of the clock pulse coincides with the beginning of the second interval), as a result, switched signals appear at the trigger output almost from the beginning of the second interval. In the second interval, the said contacts 5 of all the valves 2 and are opened. contacts of switches 3 that were closed during the first interval. The control signals supplied in the second interval from the clock generator close the second pins 6 of the valves 2 and pins 7 at the outputs of the switch unit, and the control signals from the aforementioned memory connectors close the contacts switches 3, which are necessary for connecting the connections in the second stage. From delays of elements 4 of delay 94, the second contacts 6 of distributors 2, switched signals arrive at the corresponding inputs n / m of switches 3. Since the output of each delay element 4 is connected with the second inputs of n / m distributors 2 connected at the inputs of different switches 3, then each n / m switches 3 (size n x t) in the second interval work as one switch (size n x n). As a result of the closure of the required contacts in the switches 3, the signals pass from the inputs of the switches to the outputs and through the closed contacts 7 to the outputs of the spatial switching field. In order to switch the subsequent signals of the proposed connection, all the operations on closing the contacts 5-7 are repeated cyclically during the whole time of the connection. The first contacts 5 of the distributors 2 in all the blocks are closed under the influence of the same control signals, so these contacts can be made common for a group of switching blocks. In this case, in the distributor x 2, the first inputs must be combined with the outputs of the second contacts b. In addition, the n / m second pins 6 of the distributors 2, which are connected to the same element 4 delays, switch on the same switched signal under the same control signals from the memory of the connection retention device, therefore n / m contacts valves can be replaced with one contact connected between the output of the delay element and the corresponding second inputs of the valves. In both cases, for the account. simplifying the diagrams of the distributors 2 can be achieved by reducing the amount of equipment. With any change in the number k of kGommutavdi blocks, there is no need to redistribute the links between the blocks. This feature of the proposed floor greatly enhances ease of operation when increasing the capacity of the floor, since when connecting new units, installation work in the existing equipment is not required. Multi-stage spatial switching field containing distributors connected to the inputs of the respective switches, whose outputs are connected to the inputs of the delay elements and corresponding contacts to the outputs of the spatial switching field, characterized in that, in order to increase the capacity of the two-stage spatial switching field, the spatial to () MJVIytapii completed in the form of switching units, each switching unit contains n switches with n inputs and m outputs each, where the first inputs of the respective distribution) plugs n switches of each switching unit are connected to the inputs of the spatial switching field, the i-ro switch outputs through m delay elements are connected to the second W w the inputs of the 1st distributor of all p commutators, with the output of each delay element connected to the second inputs of the n / m distributors. Sources of information taken into account in the examination 1. USSR author's certificate N 516326, cl. H 04 Q 1/52, 1974 (prototype). F4..f  t  floor Ki) HHymai4UtJ UJ.1