SU543171A1 - Integral space-time switching system - Google Patents

Description

The system contains spatially separated channels 1 on the receiving side, grouped paths 2 of digital information with time division channels on the transmitting side, all spatially separated channels I are connected to the corresponding registers 3 for storing code pulses received in one cycle, and the outputs of registers 3 are connected to the information inputs of the spatial switching field 4 through the keys 5, on the control inputs of which the gating pulses of the corresponding channel intervals are supplied.

In addition, the system includes a group unit 6 for setting the phase, and in each channel 1, the trigger trigger 7 and the binary counter 8 are connected in series to the zero input, and the gate inputs of the binary counters are supplied with gating pulses a C equal to the frequency switching channels in the group path 2, permitting the input of the key 5 of each channel is connected to the decryption output of the corresponding binary counter 8. The first inputs of all the trigger 7 are connected to the stop inputs of the spatial switching 4, while the second inputs are combined and connected to the output of block 6, the inputs of the last gate pulses are supplied to the respective timeslots.

The system works as follows.

When the system is turned on, the total output of block 6 is connected to a bus with a gating pulse corresponding to the time position of the selected channel in group path 2. After the connection between the corresponding channel 1 and the selected group path 2 is established, the switching field removes the stop signal from the trigger input 7, which remains in position until its second input receives a pulse from the output of block 6. When such a signal arrives, trigger 7 overturns and frees counter 8 from the blocking. the action of clock pulses passes from one state to another with the phase of rotation established by means of block 6, opens the key 5 at the moments of the passage of a given channel interval.

Next, block 6 is used to establish the next connection.

When the connection is disconnected, trigger 7 and counter 8 are reset with a stop signal.

The economic effect for an average station in the presence of 16 group paths of 30 channels each is approximately 50,000 rubles.

Formula and inventive

An integrated space-time switching system containing spatially separated channels on the receiving side, and grouped on the transmitting side

paths of digital information with time division of channels, all spatially separated digital channels are connected to the corresponding registers of storage of code pulses received for one

cycle, and the outputs of these registers are connected to the information inputs of the spatial switching field via keys, on the control panel — ie, the inputs of which have gated impulses of the corresponding “anal intervals”, which, in order to simplify the system by reducing switching equipment, a group block is entered phase, and each spatially separated digital channel is a series connected but installed at the input to a zero-start trigger and a binary counter, with the clock inputs of the binary etchikov filed imnulsy strobe at a frequency equal to the frequency shift digital channel path group, each channel allowing the key input connected to the output deschifratsii respective binary counter, the first inputs of all flip-flops are connected to the inputs of Yannick Stopyra

spatial switching zero, and the second inputs are combined and connected to the output of the phase setting group block, to the inputs of which the strobe pulses of the corresponding channel intervals are applied.

Sources of information taken into account in the examination:

1. Auth. St. USSR M 505278, cl. P 04J 3/00, 1973

2. US patent No. 3673335, cl. H 04J 3/00, 1972, (prototype).