SU780212A1 - Device for transmitting and receiving signals through power transmission lines - Google Patents

Description

The invention relates to systems for transmitting information on power lines and can be used when performing relay protection of power lines.

A device is known for transmitting and receiving signals along power lines, containing a master oscillator, the output of which is connected to the input of the control unit, the output of which is connected to the input of the amplifier unit, the output of which is connected to the input of the line filter and to the input of the receiving unit [1] .

However, in the known device for transmission 15 and. receiving signals, due to the lack of coordination with the line, reflected signals appear in the line. In this case, the input impedance of the device from the side of the line sharply 20 depends on the frequency, as a result of which the shape of the received pulses is distorted, and due to the sharp frequency dependence of the input resistance, the selectivity of reception decreases, 25 since the transmission coefficient from the line to the input of the receiving unit for interfering signals is significantly larger than for a signal at the operating frequency. thirty

The aim of the invention is to increase the selectivity by matching the input impedance of the device with the impedance of the communication channel.

, To do this, in the device for transmitting and receiving signals over power lines, containing a master oscillator, the output of which is connected * to the input of the control unit, the output of which is connected to the input of the amplifier unit, the output of which is connected to the input of the line filter and to the input of the receiving unit, non-inertial a key element and a load element, wherein the input of the inertia-free key element is connected to the input of the linear filter, the output of the inertia-free key element is connected to the input of the load element, and yayuschy inertialess input key element connected to the additional eyhodom amplifying unit, and the corresponding output of the load element, the amplifying unit and the linear filter connected.

The drawing shows a structural electrical diagram of the proposed device.

A device for transmitting and receiving signals over power lines contains a master oscillator 1 _L control unit 2, an amplifying unit 3, a line filter 4, a receiving unit 5, an inertia-free key element 6 μ load element 7. 5

The inertia-free key element b is intended ¹ for switching the load element 7, depending on whether the device operates in transmission mode or reception mode Yu.

The proposed device operates as follows.

When the transmitter is not started, the control voltage is not supplied to the inertia-free key element 6 and on, the load element 7 is connected to the linear filter 4. The resistance value of the load element 7 'is chosen equal to the characteristic resistance of the linear filter 4 on the transmitter side, and characteristic: resistance of the linear filter 4 on the line side is equal to the line impedance. Due to this, the linear) filter in the reception mode is matched with the line.

When the transmitter starts from voltage removed from the amplifier unit 3, the inertia-free key element b is locked, as a result of which the load element 7 is turned off and the transmitter power is not consumed in it.

Thus, in the proposed device, the matching of the receiving and transmitting units with the line in the mode of receiving signals without reducing the power transmitted by the transmitter to the line is made.

The input impedance of the proposed device in the signal reception mode is equal to the wave impedance and is practically not within the filter passband. depends on the frequency, due to which the impulses of the differential-phase protection are not distorted, its phase response is balanced and, therefore, the selectivity of protection is increased. In addition, the adjustment of the protection channel is greatly simplified, since there is no need for a special detuning of the Line Filter with respect to the frequency of the received signal.

Thus, in the proposed device for transmitting and receiving signals on power lines increased selectivity.

Claims (1)

The invention relates to systems for transmitting information over power supply lines and can be used when performing relay protection of tracks of transmission lines. A device for transmitting and receiving signals via power lines is known, which contains a generator-specifying output of which is connected to the input of a control unit, the output of which is connected to the input of the amplifying unit, whose input is connected to the input of the linear filter and to the input of the RECEIVING unit l. However, in the known device for transmission and. receiving signals, due to the lack of matching with the line, reflected signals appear on the line. At the same time, the input impedance ycTpoSicTBa on the line side strongly depends on the frequency, as a result, the shape of received pulses is distorted, and because of the sharp frequency dependence of the input impedance, the receiving selectivity decreases because the transmission coefficient from the line to the input of the receiving unit than for the signal on the working often those. The aim of the invention is to increase the selectivity by matching the input impedance of the device with the characteristic impedance of the communication channel,. For this, the device for transmitting and receiving signals via power lines, comprising a master oscillator, the output of which is connected to the input of the control unit, the output of which is connected to the amplifier input. block, the output of which is connected to the input of the linear filter and to the input of the receiving unit, introduced an inertia-free key element and a load element, and the input is inertia-free This key element is connected to the input of the linear filter, the output of the keyless beacon of the key element is connected to the input of the load element, and the control input of the no-inertia key element is connected to an additional output of the amplifying unit, and the corresponding outputs of the load element, amplifying unit and linear filter are interconnected. The drawing shows a structural electrical circuit of the proposed device. 37 A device for transmitting and transmitting signals along power lines contains a master oscillator 1, control unit 2, amplifying unit 3, linear filter 4, receiving unit 5, a non-inertia key element bn and a load element 7. A non-inertia key element b is intended for combining load element 7, depending on whether the device operates in the transmission mode or in the reception mode. The proposed device works as follows. When the transmitter is not started, the control voltage to the inertia-free key element b is not supplied and the load element 7 is connected to the linear filter 4. The value of the resistance of the load element 7 is chosen equal to the characteristic resistance of the linear filter 4 from the transmitter, and the characteristic; the resistance of the linear filter 4 on the side of the line is equal to the characteristic impedance of the line. Due to this, the linear filter in the receive mode is matched with the line. When the transmitter is started up from the voltage removed from the amplifying block 3, the inertia-free key element 6 is locked, as a result of which the load element is turned off and the transmitter power is no longer consumed. Thus, in the proposed device, the receiving and transmitting units are matched with the line in the mode of receiving signals without reducing the power delivered by the transmitter to the line. The input impedance of the proposed device in the mode of receiving signals is equal to the impedance and within the bandwidth of the filter is almost not frequency dependent, thanks to what the differential-phase protection pulses do not distort, its phase characteristic is symmetrical and, consequently, the protection selectivity increases. In addition, it simplifies significantly: hardware adjustment of the protection channel, since there is no need for a special detuning of the linear filter relative to the frequency of the received signal. Thus, in the proposed device for transmitting and receiving signals over power lines, selectivity is increased. An apparatus for transmitting and receiving signals over power lines, comprising a master oscillator, the output of which is connected to the input of a control unit, the output of which is connected to the input of the amplifying unit, the output of which is connected to the input of the linear filter and to the input of the receiving unit, that, in order to improve the Selectivity, by matching the input impedance of the device with the characteristic impedance of the communication channel, a non-inertia key element and a load element were introduced, the input without nertsionnogo key element connected to the input of the linear filter output inertialess key element connected to the input of the load element, and a control input inertialess key element connected to the additional output amplifier. unit, and the corresponding outputs of the load element, the amplifying unit and the linear filter are interconnected. Sources of information taken into account during the examination 1. Mikutsky G.V. High-frequency communication channels for relay protection and automation, M., Energie, 1977, p. 25 Against resolved protection about-.) Relay protection. I ev rnffOHmif