SU771699A1 - Discrete information transmission device - Google Patents

Description

The invention relates to communication technology and can be used in discrete information transmission systems, for example, via radio channels. A device for transmitting discrete information is known, which contains at each of the end points a transmission distribution and control unit, a trick connected to a transmitter coding node, a receiver distribution and control node, a decoding receiver node, a cyclic phasing signal forming node, connected in series with a decoder of the combination a request and a command to form a command to repeat information connected to the input of the Mass Storage Device 1}. A disadvantage of the known device is the lack of monitoring the operability of the second direction when transmitting information in the first direction and vice versa, which leads to an increase in the detection time from the kaza and, ultimately, to a decrease in the availability factor of the information transmission system. The noted deficiency appears especially significant in systems with a large number of active subscriber stations. The aim of the invention is to increase the availability of the information transmission system to reduce the time of the detection of equipment failure. The goal is achieved in that a device for transmitting discrete information, containing and controlling their points in the control room, has an info-shaper, whose information input is connected to the first input of the coding unit, the output of which is connected to the first input of the transmitter, the control unit, the synchronization output of which is connected to the synchronization input of the said information generator, the output of the reception resolution signal is connected to the input of the resolution of the unit for outputting information, and the input signal of the presence of information The receiver is connected to the output of the information availability signal of the said information generator, the receiver, the output of which is connected via the decoding unit to the information input of the said unit for outputting information, the output of the test reception signal of the unit for outputting information connected to the input signal of the receiving test of the control unit, and additional

the output of the receiver of the monitored points is connected via the address selector to the call input of the control unit; in addition, the output of the transmitter of the control room is connected to the receiver of the controlled point, and the transmitter of the controlled point is connected to the receiver of the control room, respectively, by the first and second communication channels. . at the checkpoint and at the controlled points, the test driver, the output of which is connected to the second input of the coding unit, and the control input is connected to the output of the control command's test transfer command, and the determinant of the start of transmission, the input of which is connected to the output of the receiver, and the output is connected to the signal inputs, the beginning of the transfer of the control unit and the test driver, and at the control station, in addition, the address generator, whose control input is connected to the output of the control unit address transfer command, the signal input to ichi information connected to the output of the presence information signal driver information, and an output connected to the second input of the transmitter.

The drawing shows a functional diagram of the device for transmitting discrete information.

The device contains, at the control room and each of the controlled points, an information driver 1 (, 17) whose synchronization input is connected to the synchronization output of the control unit 2 (16). The information input of the imaging unit 1 (17) is connected to the first input of the encoding module de block 3 (1 &), and the output of the information availability signal is connected to the input signal of the information availability of the control unit 2 (16). The output of the encoder unit 3 (19) is connected to the first input of the transmitter 4 (20). The second input of the coding unit 3 (19) is connected to the output of the test driver 5 (18), the pilot input of which is connected to the output of the transfer command of the control unit 2 (.16). The output of receiver 6 (11) is connected to the inputs of the decoding unit 7 (13) and the determinant of the start of transfer 8 (1), the output of which is connected to the input of the signal of the beginning of the transfer of the control unit 2 (16) and the former of test 5 (18). The output of the decoding unit 7 (13) is connected to the information input of the unit for outputting information 9 (15) the resolution input of which is connected to the output of the resolution signal of the control unit 2 (16) and the output of receiving the test signal is connected to the control input of the cadmium 2 (1b1. In addition, at the control room there is an address driver 10, the input signal of which information is present is connected to the output

the information availability signal of the imaging unit 1, the control input is connected to the output of the command for transmitting the address of the control unit 2, and the output is connected to the second input of the transmitter 4. Next, go to. At the controlled points there is an address selector 12, the input of which is connected to the auxiliary output of the receiver 11, an output to the call receiving input of the control unit 16. The output of the transmitter, control room 4 is connected to the receivers of the controlled points 11 by the forward link 21, and the outputs of the transmitters monitored points 20 are connected to the receiver input of the control room by the reverse link 22.

The device works as follows.

The information to be transferred from the control tower to one of the controlled points, or will be received at the input of the imager

1 of an external device (for example, a computer), or is formed directly in this node. The signal of the presence of information ready for transmission comes from the output of the signal of the presence of information of the information generator 1 to the input of the signal of the presence of information of the control unit 2 and on the input of the signal of the presence of information of the information generator 10. At the command coming from the output of the control unit

2, the control input of the address resolver 10, from the output of the latter to the transmitter 4 and further to the forward link 21, sends the address signal of the called controlled point.

At the monitored points, the address signals are fed to the inputs of receivers 11, and their outputs are directed to the address selector 12. The address selector of the called controlled point generates a call reception signal which goes to the call receiving input of the control unit 16. The control unit 16 generates a reception enable signal information received at the input of the reception block to display information 15.

After the transfer of the address. With shaper information 1 to the encoding unit

3 and then, via the transmitter 4, information signals are transmitted to the forward link channel 21 and transmitted through the receiver of the monitored point 11 to the transmitter 14 and to the decoding unit 13.

Claims (1)

In the case of proper reception, the information is rewritten into a block for outputting information 15, from where it is given to the consumer. When 11 information signals appear at the output of the receiver 11, the transmission start identifier 14 is triggered. The output signal of the transmission start determiner 14 is stored at the inputs of the transmission start signal of the control unit 16 and the former tester 18. At this, the control unit 16 generates a command to generate test signal, which is fed to the control input of the test driver 18. The formed test pattern through the coding block 19 and the transmitter 20 enters the reverse link 22. At the control tower, it is received by the receiver Towa combinations qi decoded block 7 and further for outputting the decrypted block information signal 9. The deciphering of the test pattern from the output unit to output information to the input receiving the test control signal ezlrka 2, which also performs the function of controlling the system serviceability. EcjjH after the start of information transfer from the controlled point does not receive a response in the form of a test signal, the control unit makes a decision about the failure of the information transmission system. The transfer of information from the controlled point to the control room is similar. The information to be transmitted from the control point is either entered into the information driver 17, or is fed directly to it. At the moment of polling made by the control room, after node 12 selects the address of its controlled point and sends a signal that it received a call to the control unit 16, the information generator 17 starts to output information to the coding unit 19 via the synchronization signal, which is transmitted to the reverse channel Communications 22. The processing of the received information at the control center is performed in the same way as at the controlled point. The introduction of nodes and functional links that enable the transmission of test signals over one of the communication channels during the transmission of information over another channel reduces the detection time of hardware failures, thereby increasing the system availability rate. The device for transmitting discrete information, containing dispatcher and controlled items information shaper, information input of which is connected to the first input of the coding block whose output is connected to the first input of the transmitterJ control block whose synchronization output is connected to the synchronization input of the above shaper information, the output of the receive enable signal is connected to the block enable input for outputting information, and the information availability signal input is connected to you an information availability signal one of the said information driver, a receiver, the output of which is connected through a decoder unit to the information input of the said unit for outputting information, with the output signal of the test reception signal of the unit for outputting information connected to the input signal of the reception test of the control unit, and the additional output of the receiver the controlled points through the address selector is connected to the call receiving input of the control unit, in addition, the transmitter output of the control center is connected to the control receiver point, and the transmitter of the controlled point is connected to the receiver of the control room by the first and second communication channels, respectively, which, in order to increase availability by reducing the time of equipment failure detection, the control room and controlled points contain with the second input of the coding unit, and the control input is connected to the output of the transfer command of the control unit test, and the determinant of the beginning of the transfer, the input of which is connected to the output The receiver’s input and the output are connected to the inputs of the transmission start signal of the control unit and the test driver, and the control room also contains the address driver, the control input of which is connected to the output of the transmission command of the control unit, the information availability signal input is connected to the output of the information availability signal of the information generator, and the output is connected to the second input of the transmitter. Sources of information taken into account during the examination 1. USSR author's certificate No. 346807, cl. H 04 L 17/02, 1970 (prototype).