SU1149426A2 - Device for automatic switching of telegraph communication channels - Google Patents

Abstract

DEVICE FOR AUTOMATIC SWITCHING OF TELEGRAPHIC COMMUNICATION CHANNELS by author. St. No. 944140, characterized in that, in order to improve speed by reducing the monitoring time of the subscriber set, the output of the additional control unit is connected at each receiving node to the second input of the element AND through the second additional element OR, sequentially connected additional block is inserted at each receiving node the memory, the first additional element AND and the third additional element OR, connected in series the first decoder and counter, the output of the main control unit connected to the input the first decoder, the second output of which is connected to the second inputs of the first additional element And and the counter, the output of which is connected to the second input of the second additional element OR, the first and second inputs of the additional memory block are connected respectively to the output of the additional control unit and the second input of the third additional element OR, the output of which is connected to the auxiliary input of the main storage unit, and in each channel the second additional prohibition element, the first additional pulse generator, serially connected second additional pulse generator and additional pulse shaper, serially connected second decoder, second additional element AND, fourth additional element OR, encoder and decoder, the output of which is connected to the corresponding input of the first switch (Left switch, the first and second the inputs and outputs of the second optional prohibition element are connected respectively to the input and output of the second decoder and the second input of the fourth additional The OR element, the output of the additional driver - the pulses are connected to the second input of the second additional element AND, the output of the second additional generator of pulses is connected to the second input of the encoder, and the output of the first from the additional generator of pulses - to the second input of the decoder. 1C about:

Description

one

The invention relates to the field of communication and can be used in data transmission equipment via telegraph channels, and is an improvement of the known device according to Aut. St. No. 944140.

The aim of the invention is to increase speed by reducing the time it takes to monitor the state of the subscriber set.

The drawing shows the structural electrical circuit of the device for automatic switching of telegraph communication channels.

The device contains a pulse generator 1, a prohibition element 2, an OR element 3, an additional element OR 4, a ring register 5, a monitoring receiver 6, an additional control unit 7, in each receiving node 8 - the first switch 9, the second switch 10, the information receiver 11, main control unit 12, prohibition element 13, additional prohibition element 14, register 15, elements AND 16 and 17, pulse generator 18, memory block 19, additional memory block 20, second additional element OR 21, third additional element OR 22, first extra uh The element 23, the first decoder 24 and the counter 25, and in each channel 26 - the first additional pulse generator 27, the second additional pulse generator 28, the encoder 29, decoder 30, the second additional prohibition element 31, the fourth additional element OR 32, the second decoder 33, the second additional element And 34 and the additional driver 35 pulses.

The device works as follows.

In the initial state, the main telegraph channels through the first switches 9 receiving nodes 8 are connected to information receivers 11. Duplicate telegraph channels through the first switches 9 receiving nodes 8 and the second switches 10 are connected to the control receiver 6.

Consider the case of operation of the device when, in the i-OM receiving node 8, a channel connected to the upper input of the first switchboard 9 is used as the main telegraph channel, and a channel connected to its lower input is used as a backup channel.

In the absence of information in the transmission or during maintenance of the terminal equipment, the subscriber disconnects his equipment from the upper input of the first switch 9. As a result, the output of the second descrambler 33 generates a signal prohibiting the operation of the second additional prohibition element 31 and allowing the operation of the second additional element 34. Under By controlling the second additional generator 28 pulses, a zero sequence of signals is generated at the output of the additional pulse shaper 35, k oto through the second additional element And 34 and fourth

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The additional element OR 32 is fed to the input of the encoder 29, the output of which, under the control of the second additional generator 28 of pulses, generates an encoded sequence of zero sign.

The coded zero-sign sequence is fed to the input of the decoder 30, the output of which, under the control of the first additional pulse generator 27, generates a deleted zero-sign sequence received via the first switch 9, the information receiver 11 and the main unit 12 of the control of the i-ro receiving node 8 at the device output and the input of the first decoder 24.

At the direct output of the first descrambler 24, a signal is generated, which is fed to the first input of the counter 25 and adds one to the last. When a signal is received at the first input of the counter 25 p, characterizing p of the zero-digit sequence, a signal is generated at the output of the latter, which through the second additional element OR 21 enters the second input of the And 17 element. From the corresponding output of the ring register 5, at the output of the element 17, a signal is generated, which is fed to the input of the memory unit 19 and sets it to the one state, thereby characterizing the subscriber shutdown state. In this case, the passage of the signal to the first input of the second switch 10 from the ring register 5 is prohibited. The signal from the output of the ring is. vogo register 5 through the element And 16 is fed to the input of the imaging unit 18 pulses. At the output of the pulse former 18, a signal is generated along the leading edge, which is fed through an additional element OR 4 to the input of the ring register 5, where a signal is generated allowing the connection to the control receiver 6 of the next backup channel, i.e. control of the backup telegraph channel is not performed if the subscriber disconnects his equipment.

With healthy duplicate channels, the additional memory block 20 is in the Zero state, and the signal from its zero output enables operation of the first additional And 23 element.

0 In case the subscriber connects his equipment to the upper input of the first switch 9, at the output of the device, non-zero characters are generated, which arrive at the input of the first decoder 24. As a result, the zero output of the first de-.

5 encoders 24, signals are generated, under the control of the first of which counter 25 is set to the zero state, as well as this signal through the first additional

the element AND 23 and the third additional element OR 22 sets the memory unit 19 to the zero state. The signal from the output of the memory block 19 allows, through the additional prohibition element 14, to connect the corresponding backup channel to the control receiver 6 for monitoring.

Consider the operation of the device, when in i-M receiving node 8, the channel connected to the lower input of the first switch 9 is used as the main telegraph channel, and the channel connected to its upper input is used as a backup cable.

In the absence of information in the transmission or during maintenance of the terminal equipment, the subscriber disconnects his equipment from the lower input of the first switch 9, and control information arrives at the upper input of the first switch 9. As a result, the output of the second decoder 33 generates a signal prohibiting the operation of the second additional element 31 prohibitions and permitting work to the second additional element I 34. Under control of the second additional generator 28 pulses at the output of the additional form 35 is formed ovatel sequence zero pulse signal, which via a second additional AND gate 34 and the fourth additional OR gate 32 is input to the encoder 29, the output of which under control of the first additional pulse generator 28 is formed by a coded sequence of a null sign. The coded zero-sign sequence is fed to the input of the decoder 30, the output of which, under the control of neptBoro of an additional pulse generator 27, generates a pre-coded zero-sign sequence, coming through the first switch 9 i-rp receiving node, information receiver 11 and control unit 12 to the device output and input the first decoder 24. Next, the device operates in the same way.

When the main telegraph link fails, the redundancy link operability is checked, and the first switch 9, instead of the defective link, connects the backup link to the information receiver 11.

The main control blocks 12 at the receiving nodes 8 monitor and generate fault signals of the respective main channels. The control information through the first switches 9 is supplied to the second inputs of the second switches 10, in which the signals are controlled.

The incoming to the first or fourth inputs, respectively, from the outputs of the additional barring elements 14 and the second outputs of the registers 15 connect the duplicate channels to the control receiver b, and the signals at the output of the additional barring elements 14 are formed using an annular register 5, an additional element OR 4 and element 2 the prohibition of signals from the pulse generator 1 with the operative corresponding duplicate channels, the states of which are stored in memory blocks 19 and 20.

If the main channels are intact and malfunctioning backup channels in 8 receive nodes, the fault signals of the backup channels from the output of the additional control unit 7 prohibit the passage of signals to the third inputs of the second switches 10. In addition, these signals establish additional memory blocks 20, n

0 into a single state, thereby blocking the installation of the memory blocks 19 in the zero states, and through the second additional elements OR 21 and the AND elements 17 set the memory blocks 19 into one states.

When restoring the duplicate channel i-ro, signals that set additional memory blocks 20 and memory blocks 19 of the receiving node 8 i-ro to zero states come to their input.

0 In case of a malfunctioning main channel and a valid duplicate channel, a malfunction signal is generated in the main control unit 12 and through prohibition element 13, in the absence of signals on the first and second inputs of the latter, is written to register 15,

 analyzed for a time equal to or longer than the channel self-healing time. The specified time is set by the pulse generator 1, which controls the registers 15 of the receiving nodes 8. From the peo outputs, the gistros 15 -signal arrives at the fourth input of the second switch 10 and through the element OR 3 and the prohibition element 2 prohibits the operation of the ring register 5 from the pulse generator 1. The automatic connection of the backup channels to the control receiver 5 is stopped, the control of the connected backup channel is monitored and the main telegraph channel is switched to the backup one.

The technical and economic effect of the invention is to increase the speed of the device for automatically switching the telegraph communication channels by reducing the time required to monitor the state of the subscriber set.

Claims (1)

DEVICE FOR AUTOMATIC SWITCHING OF TELEGRAPH COMMUNICATION CHANNELS according to ed. St. No. 944140, characterized in that, in order to improve performance by reducing the time for monitoring the status of the subscriber set, the output of the additional control unit is connected in each receiving node to the second input of the AND element through the second additional OR element, and an additional memory block is connected in series to each receiving node , the first additional element AND and the third additional element OR, connected in series to the first decoder and counter, and the output of the main control unit is connected to the input second decoder, the second output of which is connected to the second inputs of the first additional AND element, and the counter, the output of which is connected to the second input of the second additional OR element, the first and second inputs of the additional memory block are connected respectively to the output of the additional control unit and the second input of the third additional element OR, the output of which is connected to an additional input of the main memory unit, and in each channel a second additional inhibit element is introduced, the first additional generator pulses, sequentially connected to a second additional pulse generator and an additional pulse former, serially connected to a second decoder, a second additional AND element, a fourth additional OR element, an encoder and decoder, the output of which is connected to the corresponding input of the first switch, with the first and second / swarm the inputs and outputs of the second additional * ban element are connected respectively to the input and output of the second decoder and the second input of the fourth additional element and OR, the output of the additional pulse shaper is connected to the second input of the second additional element And, the output of the second additional pulse generator is connected to the second input of the encoder, and the output of the first additional pulse generator is connected to the second input of the decoder.