SU692100A1 - Data transmission system for electric networks - Google Patents

Description

The invention relates to telecommunications and can be used in electrical information transmission systems.

A known system for transmitting information via electrical networks, comprising a serially connected master oscillator, a driver, a power amplifier and a connection unit connected to an electrical network on the transmitting side, and an input matching unit, a decoder and a serially connected master oscillator and a synchronous detector on the receiving side , moreover, the input of the input matching unit connected to the electrical network 1.

However, the known system has insufficient accuracy of the transmitted information.

The purpose of the invention is to increase the accuracy of the transmitted information by synchronizing the signal sending.

To do this, in the information transmission system of power grids containing on the transmitting side, serially connected master oscillator, driver of signals, power amplifier and unit

connections, connected to the electrical network, and on the receiving side, an input matching unit, a decipheror and a series-connected master oscillator and a synchronous detector, with the input of the input matching unit connected to the electrical network; on the transmitting side, the control input of the master oscillator and the control input the signal conditioner is connected to the electrical network, and at the receiving side an integration unit and a reset unit are inserted, with the output of the input matching unit connected to the second input of the synchronous de a vector whose output is connected to the information input of the integrator, the output of this unit is connected to the input of the descrambler, while the input of the reset unit is connected to the control input of the master oscillator and connected to the electrical network, and the outputs of the reset unit are connected to the corresponding control inputs of the integrated unit , the latter is made in the form of n parallel-connected integrators, the control inputs of which are the control inputs of the integrator, and the reset unit is designed as an annular distributor .

The drawing shows a structural electrical circuit of the proposed system.

The system for transmitting information on the transmitting side 1 contains a master oscillator 2, a driver 3 signals, a power amplifier 4 and a connection unit 5, the electrical network 6, and on the receiving side 7 - an input matching unit 8, a synchronous detector 9, an integration unit 10, a decoder II that sets the generator 12 and the reset unit 13.

The information transmission system works “as follows.

On the transmission side 1, the master oscillator 2 continuously forms the carrier frequency, which is fed to the input of the imaging unit 3 signals. In accordance with the transmitted information and strictly synchronously with the network period, the signal from the output of the imaging unit 3 is fed to the input of the power amplifier 4, through the connection unit 5 to the electrical network 6. On the receiving side 7 the synchronous detector 9 through the input 20 A block 8 is connected to an electrical, network 6. The control signal to the synchronous detector 9 comes from a master oscillator 12, which forms the same frequency as the oscillator 2.

The integration unit 10 accumulates a signal from the synchronous todector 9 during each period of the network, with a reset at the characteristic moment of the network period. A short reset pulse is sent to the control input of the integration unit 10 from the reset unit 43 connected to the network 6. The start of sending a signal on the transmitting side 1 is related to a characteristic point of the network period, so the output voltage of the integration unit 10 to the end of each integration cycle determined either by interference only or by the sum of the signal and interference. If the integration time equal to one network period provides sufficient signal-interference from H ojiiejine at the output of the integration unit 10 (on the order of 10), then the signal can be easily separated by a threshold device in the decryptor 11.

In the case where, to obtain the desired signal-to-noise ratio,

....,. WH: .r -.... - .-. GJ

integration time, equal to n network periods ts, integration unit 10 consists of n parallel-connected integrators, the common input of which is connected to the output of the synchronous detector 9. Reset unit 13, which is an N-bit ring distributor, operating from the network, generates reset pulses , at each of the N upstream of the distributor, pulses appear every N periods of the network, and on two adjacent outputs of the distributor, the pulses are shifted by the period of the network. Im- $ s reset pulses from the distributor outputs go to the control inputs of the respective integrators, each integrator

692100

accumulates a signal from a synchronous detector 9 for N periods of the network.

In the absence of a signal from the transmitting side I, all the integrators accumulate only noise, while the output voltage levels by the end of the integration cycle on all the integrators are small. The beginning of the signal sending from the transmitting side coincides with the beginning of one of the N periods of the network, therefore one of the N integrators by the end of the integration cycle accumulates the maximum value of the signal. The signal by the threshold device of the decoder 11 can be distinguished either by the maximum value from the output signals of the integrators, or by sum.m. of all the output signals of the integrators.

Thus, the implementation of synchronization of the start of sending a signal on the transmission side to the integration cycle on the receiving side directly from the common electrical network, through which the signal is transmitted, makes it possible to refuse the starting pulse of increased amplitude and duration and thereby reduce the power requirements of the transmitting element. devices.

The suppression of the harmonic interference of the network at the output of the integration unit and an increase in the signal-to-interference ratio at the output of the decoder at an integration time multiple of the network period leads to an increase in the accuracy of the transmitted information.

Claims (3)

1. A system for transmitting information over electric networks, containing on the transmitting side serially connected master oscillator, driver of signals, power amplifier and connection unit connected to the electrical network, and on receiver side — output matching unit, decoder and serially connected master oscillator and synchronous a detector, wherein the input of the matching input unit is connected to an electrical network, characterized in that, in order to increase the accuracy of the transmitted information by synchronizing sending the signal, on the transmitting side, the control input of the master oscillator and the control input of the signal conditioner are connected to the electrical network, and on the receiving side an integrating unit and a reset unit are inserted, the output of the input matching unit connected to the second input of the synchronous detector, whose output is connected to the information the input of the integrator, the output of this unit is connected to the input of the deschiftorator, while the input of the reset unit is connected to the control input of the master oscillator and connected to an electrical network and, and the outputs of the reset unit are connected to corresponding control inputs of the integration unit. 2. The system of claim 1, wherein the integration unit is made in the form of n parallel-connected integrators, the control inputs of which are the control inputs of the integration block. 3. The system of claim 1, wherein the reset unit is designed as an annular distributor. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 569033, cl. H 04 B 3/54, 1975 (prototype).