SU1543556A1 - Device for transmission of digital information - Google Patents

Abstract

The invention relates to communication technology. The purpose of the invention is to expand the functionality. The device for transmitting digital information contains terminal stations 1 and 2, each of which consists of a regenerator 3 of a station signal, switched transducers (P) 4 and 5 of the transmission code, shapers 6 and 13 of the line and station signals, input and protection blocks 7 and 8 of the transmission signals and receiving, a linear signal regenerator 9, a code structure analyzer 10, switched 11 and 12 receive code, telecontrol unit 14, electronic key 15, service communication unit 16, remote power supply unit 17 and switches 18 and 19, as well as intermediate station The communication 20, consisting of the regenerators 21 and 22 of the linear transmission and reception signal, the telecontrol unit 23 and the switch 24. The goal is achieved by ensuring the transmission of digital information in networks with different types of terminal equipment. 1 il.

Description

The invention relates to communication technology and can be used to build discrete information transmission systems using two-pair cables.

The purpose of the invention is the expansion of functionality by providing the transmission of digital information in networks with heterogeneous terminal equipment. /

The drawing shows a structural electrical diagram of a device for transmitting digital information.

The device contains the first and second terminal stations 1 and 2, each of which includes a station signal regenerator 3, an additional transmit code converter 4, a switched transmit code converter 5, a linear signal shaper 6, a transmission signal input and protection unit 7, an input and protection unit 8 receiving signals, a linear signal regenerator 9, a code structure analyzer 10, a switched receiving code converter 11, an additional receiving code converter 12, a station signal generator 13, a block. 14 control, electronic key 15, block 16 intercom, block 17 remote power supply, the first and second switches 18 and 19, as well as an intermediate station 20 containing the regenerator 21 of the linear transmission signal, the regenerator 22 of the linear signal of reception, block 23 of the control, telecontrol unit 23, switch 24 and, in addition, two-wire communication lines 25.

A device for transmitting digital information operates as follows.

A digital stream with a data transfer rate of 2048, 1024, or 512 kbit / s in one of the interface codes, for example, a relative monopulse. The first signal (OMS) comes from the equipment for the formation of the Digital Stream (OFPC) to the first input of the regenerator 3 of the station signal, where the amplitude and time parameters of the digital signal are restored, as well as the clock frequency of the transmission direction is extracted. Devices for clock synchronization and correction are set to the mode corresponding to one of the speeds of transmission using the first switch 18 along the circuit: the second output of the first switch 18 is the third input of the regenerator 3 of the station signal, while the first switch 18 is 5 control signals from the first and the third outputs sets the switched code converter 5, transmission and additional converter 4 of the transmission code in operation mode 10, corresponding to the code of the pulsed stream from the OFPC. Having passed through the additional and switched code converters 4 and 5, the digital stream in the hardware code is fed to the input of the linear signal shaper 6, from its output to the input of block 7 and then to the two-wire communication line 25. Having passed the regeneration section to the first intermediate station 20, the digital signal is fed to the first input of the regenerator 21, where its amplitude and time parameters are restored. The devices for clock synchronization and correction of the regenerator 21 are set by the signal from the output of the switch 24 to the input of the regenerator 21, in the mode corresponding to operation with a given speed of information transfer, -G of the output of the regenerator 21, the signal goes to the output of the intermediate station 20 and then to the two-wire communication line 25 to the next intermediate station ed 20, etc. to the input of terminal station 2, to the first input of block 8. From its output, the signal is supplied to the first input-output signal of the linear signal regenerator 9, where the time and amplitude parameters of the pulse flow are restored, and a control signal from the output of the second switch is received to the second input of the linear signal regenerator 9 19, setting the correcting device and the clock synchronization device of the regenerator 9 to a mode corresponding to the information transfer rate. The analyzer 10 of the code structure, to the input of which the output of the linear signal regenerator 9 is connected, is designed to convert the linear code into the hardware one and extract additional information contained in the structure of the linear code. Additional information is used for remote monitoring of the opposite station. From the output of the analyzer 10 of the code structure, the digital signal passes sequentially through the switched converter 11 of the reception code, and an additional converter 12 of the reception code, which form the necessary signal code at the interface with the OFPC. The control modes of the additional and switched converters 12 and 11 codes are carried out using the second switch 19, which at its outputs generates the necessary control signals. The output of the additional converter 12 is connected to the input of the station signal former 13, which is necessary for amplifying the output signal by power and connecting to a symmetric communication line with the OFPC. The transfer of the digital stream in the opposite direction is carried out similarly. Remote power supply to the intermediate station is carried out by a phantom circuit formed in blocks 7 and 8 and in regenerators 21 and 22. The remote power supply unit 17 is connected by its outputs to the inputs of blocks 7. and 8, moreover, in the opposite terminal station 2, the remote power supply unit 17 may not be installed. The intercom unit 16 is also included in the phantom circuit with its first and second outputs.

The control unit 14, connected by the output to the station signal regenerator 3, and by the input to the output of the station signal generator 13, generates a test signal upon the operator’s command, which, through the station signal regenerator 3, enters the transmission path of the Digital Stream and passes through all intermediate stations 20 and the opposite terminal station 2, if the signal regenerators 21 regenerate. The address information, which is allocated by the control unit 23 connected between the output of the regenerator 21 and the input of the regenerator 22, can be entered into the test signal.

Intermediate address 20 is set during the construction of the line on a special switching field. If the address information corresponds to the address of the nth intermediate station 20, then the control unit 23 generates a control signal, which is input to the regenerator 22 and, turning off the digital stream with

1543556 6 inputs of the regenerator 22, connects to it, to the input through an artificial line, a test signal from the output. regenerator 21. Similarly, a loop of the opposite terminal station 2 is implemented, where the function of the control unit 23 is performed by the corresponding device in the analyzer 10 10 of the structure, from the output of which the control signal is fed to the input of the electronic key 15. By this command, the electronic key 15 connects the output of the generator 13 of the station 15 signal with the input of the regenerator 3 of the station signal, organizing a loop of the received test signal on the station side. Passage of the test signal in the opposite sto20 P ^OH U ⁿ⁰ loop is similar to the passage.

working signal. From the output of the shaper 13 of the station signal, the test signal is fed to control the output of the block 14 telekrnt25 role. The absence of a loop at one of the addresses indicates a malfunction of the corresponding regeneration section.

Claims (1)

3Q Claims A digital information transmission device comprising terminal stations interconnected by two two-wire communication lines c. the direction of transmission and reception through intermediate stations, each terminal station containing in the direction of transmission a 4Q station signal regenerator, series-connected switched code transmitter, linear signal shaper, input and protection block of transmission signals, the output of which is 45 etsya line output terminal station and in the receiving direction, - an input unit connected in series and receiving protection signals, the first input of which is a line input terminal station 50, and _a regenerator Li--linear signal commutated converter receiving the code signal shaper station, whose output through an electronic key it is connected to the first input of the station signal regenerator, the second inputs of the input and protection block of the transmission signals and the input and protection block of the reception signals are connected to the combined first the second outputs of the intercom unit and the remote power supply unit, respectively, in addition, each terminal station contains a telecontrol unit, and the intermediate station contains, in the directions of transmission and reception, respectively, a linear transmitter of transmission and reception, the first inputs and outputs of which are inputs and outputs of the intermediate station, while the second output of the linear signal regenerator was transmitted through the control unit is connected to the second and third inputs of the receiver linear signal regenerator, characterized by that, in order to expand functional capabilities by ensuring the transmission of digital information in networks with heterogeneous terminal equipment; at each terminal station, additional transmit and receive code converters, first and second switches and a code structure analyzer are introduced, direct the output of the station signal regenerator through an additional transmit code converter connected to the input of the switched transmit code converter, the second input of which is connected to the first output the first switch, the second and third outputs of which are connected to the input of the regenerator of the station signal and the second input of the additional converter of the transmission code, respectively Actually, the output of the linear signal regenerator is connected to the input of the code structure analyzer, the first and second outputs of which are connected respectively to the second input of the electronic key and the input of the switched receiving code converter, the output of which is connected through a series-connected additional receiving code converter, the station signal generator, and the telecontrol unit the third input of the station signal regenerator, the outputs of the second switch ^ are connected to the second inputs of the linear signal regenerator, ommutiruemogo converter receiving the code and the additional code converter receiving, as an intermediate station entered the switch, the first and second outputs which are respectively connected to the second input of the regenerator of a linear signal transfer and fourth input line receiving a signal regenerator.