SU853823A1 - Digital signal transmitting device - Google Patents

Description

(54) DIGITAL SIGNAL TRANSMISSION DEVICE

The invention relates to selective devices for multiple systems and can be used to transmit digital streams from one station device to another. A device for transmitting digital signals, consisting of switching modules, each of which contains an input buffer drive and a main decoder, the output of which is connected to the input of the output buffer drive 13, is known. However, this device has limited bandwidth. The aim of the invention is to increase throughput. To do this in the digital signal transmission device. consisting of switching modules, each of which contains an input buffer drive and the main decoder, the output of which is connected to the output of the output buffer of the storage drive, an additional decoder and n variable delay blocks are inserted into the switch module, and the output of the input buffer accumulator is connected to the input of an additional decoder, the outputs of which are connected to the inputs of the variable delay blocks of the corresponding switching modules. The drawing shows a structural electrical circuit of the proposed device. The digital signal transmission device consists of n switching modules 1 (, ...), each of which contains an input buffer drive in (, ...), an additional decoder 3 (, ... 3), n variable delay blocks 4 (4 1) 1, ... (4 1) 2 ... (4 1) pS4 P) P, main decoder 5 (... 5 n) and output buffer 6 (.... ..). The number of switching modules is determined by the capacity of the switching system. The proposed device operates as follows. The digital stream coming from the input buffer accumulator 2 to the additional decoder 3 consists of sequences, each of which contains m code words. Each code word contains bits (pulses) of a certain transmission kanash. The required capacity of the switching system is provided by a set of

the corresponding number of switching modules.

The proposed device has a structure of time-space-space-time. With such a structure, a switching module can be formed by an input buffer storage 2, an additional decoder 3, a main decoder 5 and an output buffer storage 6. In this case, the communication length between the decoders within one switching module is equal to the communication length between the decoders of all other modules, t . the length of this connection does not vary from module to module

However, the length of the connection between the additional decoder of any one module and the decoder of any other module will be different for different pairs of coquiutation modules.

The bits of each channel of any switching module, when they arrive at another switching module, undergo a delay determined by the length of inter-module links. Thus, a time interval should be provided for each channel to compensate for phase shifts that occur when each channel passes bits from module to module.

A digital sequence containing pulses of all transmission channels may be distributed within one module, or flow from one module to another, i.e. a sequence of bits of all channels undergoes one or another delay, depending on the length of the links between the spatial switching links. In this case, to compensate for phase shifts, only one time interval is required for each digital sequence coming from one module to another. In this case, the total length of the digital sequence between the spatial switching units is determined by the number of channels in the transmission system, the number of bits in the channel, and the presence of a time interval at the end of the sequence to compensate for phase shifts.

Thus, the number of time intervals to compensate for shifts in the sequence (with hi channels in both cases) in the proposed device is m times less than in the known one. With the same number of channels in the transmission system, the length of the digital sequence in the proposed device is less than in the known, therefore its capacity is higher.

To compensate for phase shifts between spatial switching units, variable delay units 4 are installed. The required delay can be set during installation and adjustment of the equipment, and

5, no further adjustment is required during subsequent operation.

Thus, the proposed device for transmitting digital signals has a higher bandwidth than the known one.

Claims (1)

Invention Formula 5 A device for transmitting digital signals, consisting of n switching modules, each of which contains an input buffer and a basic decoder, the output of which is connected to the input of the output buffer storage device, characterized in that, in order to increase throughput, each from the switching modules introduced additional decoder and n variable blocks delays, the outputs of which are connected to the inputs of the main decoder, while the output of the input buffer storage device is connected to the input of the additional decoder, the outputs of which 0 are connected to the inputs of the variable delay unit of the corresponding switching modules. Sources of information taken into account during the examination 1. USSR patent on application  2343153 / 18-09, class H 04Q 11/04, 1976 (prototype).