RU2734318C1 - Method of receiving and transmitting information over ac power transmission line - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention can be used in electric engineering for remote transmission of control commands for process equipment. Proposed method comprises transmitting control commands for process equipment by generating, at the moment of alternating voltage of power transmission line, zero time interval characterized by zero voltage level. Transmission is carried out in form of separate bits of information, wherein during transmission of bit corresponding to binary unit in transmitting module, performing modulation of AC voltage of power transmission line, namely, at moment of transition of alternating voltage of power transmission line through zero formation of short time interval of fixed duration, characterized by zero level of voltage, and when transmitting binary zero, alternating voltage modulation is not performed. In receiving module, receiving information message bits, time intervals of alternating voltage of the power transmission line through zero are analyzed and a binary code of the process equipment control command is generated.

EFFECT: technical result consists in simplification of functions of transmitting and receiving modules and in reduction of influence of process of information transfer to power supply network.

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Description

The invention relates to methods for transmitting information over AC power lines and can be used for remote transmission of control commands for technological equipment.

There is a known method of transmitting information over the lines of AC electrical networks, used for remote control of equipment, using the X10 standard (see US patent 4638299 from 1987.01.20, IPC 2006.01 H04M 11/04), the features of which are implemented, in essence, in all transmission methods information at the moments of transition of alternating voltage through zero, and is analogous to the proposed method. The protocol of interaction between transmitting and receiving X10 modules is based on the amplitude modulation of pulse control signals transmitted over the power supply line. To transmit information, the generation of short pulses with a frequency of 120 kHz is used at the moments of the transition of the alternating voltage of the mains through zero. A binary one corresponds to a signal transmission from a frequency of 120 kHz for 1 ms, and a binary zero corresponds to no signal.

The disadvantage of this method of transmitting information is that the high-frequency information message, which is formed at the moment the mains voltage crosses zero, is a source of interference, as well as the short range of information transmission, since the reactive components of the resistance of the power transmission line negatively affect the high-frequency signal.

The closest to the claimed technical solution is a method of transmitting information over the supply network from the transmitting module to the receiving module, including the transmission of control commands for technological equipment by forming at the moments of the transition of the alternating voltage of the power line through zero long variable time intervals characterized by a zero voltage level (see E .V. Vstavskaya, EV Kostarev, A method of transmitting information over a power supply network and its application in the construction of automated control systems for outdoor lighting, Vestnik SUSU, No. 2, 2011, p. 81-84).

The disadvantage of the prototype is the change in the value of the effective value of the mains voltage, due to the absence of voltage in the power transmission line for a long time interval and, as a consequence, the effect on the operation of other electricity consumers.

The technical result of the proposed technical solution is to simplify the functions of the transmitting and receiving modules and to reduce the influence of the information transfer process on the power supply network.

This technical result is achieved by the fact that in the method of transmitting and receiving information over an AC power transmission line, including the transmission of control commands for technological equipment by forming at the time of the transition of the alternating voltage of the power transmission line through zero of the time interval characterized by a zero voltage level, according to the invention, the transmission is carried out in the form of separate bits of information, and when transmitting a bit corresponding to a binary one in the transmitting module, modulation of the AC voltage of the power line is performed, namely, at the moment of transition of the AC voltage of the power line through zero, a short time interval of fixed duration is formed, characterized by a zero voltage level, and at transmission of a binary zero, modulation of the alternating voltage is not performed, while in the receiving module, receiving the bits of the information message, the duration of the time intervals is analyzed the passage of the alternating voltage of the power transmission line through zero and form a binary code of the command to control the technological equipment.

This method of transmitting and receiving information over an AC power line will simplify the functions of the transmitting and receiving modules and reduce the impact of the information transfer process on the power supply network.

The essence of the method is illustrated by the figure, which shows a block diagram of the transmission of information messages from a transmitting module to a receiving module via an AC power line.

The block diagram consists of transmitting and receiving modules. The transmitting module includes a synchronization unit 1, the input of which is connected to the mains, and the output to the input of the encoder 2. The output of the encoder 2 is connected to the control input of the semiconductor AC switch 3, the power input of which is connected to the power line, and to the power output of the switch 3 a power line that serves as an information transmission channel.

The receiving module contains a synchronization unit 4, the input of which is connected to the power line, and the output to the input of the decoder 5. The output of the decoder 5 is connected to the control input of the AC semiconductor power switch 6, the power input of the switch is connected to the power line, and the power output to the technological equipment.

The method of transmitting and receiving information over the power line was carried out as follows.

In the transmitting module, in the synchronization unit 1, the moments of the transition of the sinusoidal voltage of the mains through zero were determined and synchronization pulses were generated, which were fed to the encoder 2, in which the control signals for the operation of the power semiconductor switch 3 were generated, in accordance with the required information bit transmission algorithm. For example, when transmitting a binary unit, the power semiconductor switch 3 was turned off and left in the off state for a short time interval of a fixed duration, for example, 1 ms, after the end of the time interval, the power semiconductor switch 3 was turned on. Therefore, at the moment of the transition of the mains voltage through zero, at the power output of the semiconductor switch 3 and in the sinusoidal voltage of the power line, a short time interval of a fixed duration was formed, for example, 1 ms, characterized by a zero voltage level. If necessary, transfer of a binary zero, the power semiconductor switch 3 was left on until the next moment of the transition of the mains voltage through zero.

In the receiving module, using the synchronization unit 4, the moments of transition of the sinusoidal voltage of the power transmission line through zero were determined and synchronization pulses were formed with a duration depending on the value of the received information bit. When receiving a binary one, a longer synchronization pulse was formed than when receiving a binary zero. Synchronization pulses entered the decoder 5, in which the value of the synchronization pulse duration was analyzed, the bits (ones and zeros) of the received information were separated, and a binary code of the command for controlling the AC power semiconductor switch 6 controlling the operation of the technological equipment was formed.

The use of the proposed method for transmitting and receiving information over an AC power line will allow, in comparison with the prototype, to simplify the functions of the transmitting and receiving modules and to reduce the influence of the information transfer process on the power supply network.

Claims (1)

A method for transmitting and receiving information over an AC power transmission line, including the transmission of commands to control technological equipment by forming a time interval characterized by a zero voltage level at the moment of transition of the AC voltage of the power transmission line through zero, characterized in that the transmission is carried out in the form of separate bits of information, and when transmission of a bit corresponding to a binary one in the transmitting module, modulation of the AC voltage of the power line is performed, namely, at the moment of transition of the AC voltage of the power line through zero, a short time interval of fixed duration is formed, characterized by a zero voltage level, and when transmitting a binary zero, modulation of the AC voltage is absent, while in the receiving module, receiving the bits of the information message, the duration of the time intervals of the transition of the alternating voltage of the power line ch Without zero and form a binary code of a command to control technological equipment.

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