SU1129640A1 - Device for transmitting and receiving signals via electric power lines - Google Patents

Abstract

APPARATUS FOR TRANSMITTING AND RECEIVING SIGNALS power line, comprising at a transmitting in half-sets the phase detector having an input coupled with the power line, phase detector output through series-connected generator and fflylcov and pulse generator podklochen to a control input of coding element whose output is connected to the input of the switching element, the first output of which is grounded, the second output of the switching element through the series-connected INDUCT element and connected in parallel to The heating element and the limiting element are connected to the power line, the information inputs of the coding element of the transmitting semi-square are the device inputs, on the receiving floor the signal selector whose input is connected to the power line, the output of the signal selector is connected to the input of the filter element whose output is connected to nepBbiM the input element And the output of which is connected to the first input of the switching element, the output of which is connected to the input of the pulse generator, the first form pulse tree, the first output of which through the integrator is connected to the first input of the OR element, the output of which is connected to the second input of the switching element, the second output of the first pulse generator is connected to the second input of the OR element and the second pulse driver, the output of which is connected to the second input of the AND element, the decoder, the output of which is connected to the input of the actuating element, characterized in that, in order to increase the reliability of the transmitted information and reliability, the device is entered into I eat a complete set of shunt element on the diode, connected in parallel to the inductive one; the element, in the receiving half, is a controlled phase shifter, a transducer, a pulse duration - voltage, a subtractor, a modulator, О a reference element, an output of the signal selector is connected to the first input of the controlled phase shifter, the output of which is connected to the input of the first pulse shaper m to the first input of the modulator, the output of which is connected to the first input of the subtractor, the output of which is connected to the input of the comparison element, the output of which is connected to the input of the decoder, the output of the second pulse driver connected to the input of the converter HMnyjrbcoB duration - eg

Description

The output of which is connected to the second input of the controlled phase shifter, the output of the element I is connected to the second input of the second pulse shaper, the output of the pulse generator is connected to the second input of the modulator, the output of the filter element is connected to the second input of the subtractor.

The invention relates to the power industry and is intended to transmit and receive information signals over power distribution networks.

A device for transmitting television signals contains, on the transmitter side, a phase sensor, whose input is connected to a power line, a coding element connected to the input of the switching element, the output of which is connected through a series-connected inductive element and a storage element to the power line, and also diodes transformer, on the third side - a signal decoder, the output of which is connected to the input of the actuator, an inductive sensor and an input unit J

Although the device has high speed and high command capacity, the OIO is characterized by the complexity of generating pulse signals on the transmitting side and the low noise immunity of receiving information.

The closest in technical essence to the present invention is a device for transmitting and receiving signals over power lines, which allows, at high speed (O, O), to have system capacities in the order of hundreds of commands. In this device, the generation of impulse signals at the transmitting side is carried out by connecting the RLC oscillator to the electrical network. circuit and reception of information is ensured by forming a limited reception area of the starting pulse and checking that the synchronized pulses of the receiving device match the signals of the transmitting device.

A known device for transmitting and receiving signals over power lines comprises transmitting

a semi-complete phase sensor whose input is connected to a power line, a coding element connected to the input of a switching element, the output of which is connected to an electric line through a serially connected inductive element and a cumulative element, a limiting element connected in parallel to the cumulative element of a phase sensor output connected to an input of a pulse width figure The output of which is connected to the input of the pulse generator, the output of which is connected to the input of the coding element. At the receiving half, the known device contains a signal decoder, the output of which is connected to the input of the actuator, a signal selector, the input of which is connected to the power line, and the output to the inputs of the first pulse shaper and filter element. The output of the filter element is connected to the first inputs of the first and second elements I. The first output of the first pulse shaper is connected to the input of the second pulse shaper and the first input of the OR element, the second output of the first pulse shaper is connected via an integrator to the second input of the OR element, whose stroke is connected to the first input of the switching element, the output of which is connected to the input of the pulse generator, the output of which is connected to the second input of the second element AND, whose output is connected to the input of the switch Rattor of signals. The output of the second pulse shaper is connected to the second input of the first element I, the output of which is connected to the second input of the switching element.

When transmitting telecontrol commands and the input of the switching element, control pulses are given at the required points in time. They are created by a pulse generator with a phase angle in synchronization with the network with respect to one of the half-wave voltage of the power frequency. Synchronization with the network is accomplished with a phase sensor and a mono-polar rectangular pulse former. When opening a switching element in a circuit containing an inductive element, a cumulative and restrictive element, an oscillatory process occurs. In this case, the current consumed from the network, which generates the information signal, represents the sum of the currents flowing through the accumulative and limiting elements. The switching element closes when the current passes through zero. After that, the accumulated energy is extinguished in the limiting element, and the transmitting half-set is again ready to create the next information impulse in the network during one of the half-periods on the network voltage. The selection of the size of the limiting element is carried out in such a way that an oscillatory process is provided in the sequence circuit with the transition of the switching element current through zero value in the entire range of switching angles of the transmitting device. In the receiving half-set, rectangular pulses with a duration equal to half the period of the supply voltage are formed at the output of the signal selector for each period of the network voltage. By. the leading edge of these pulses is triggered by a second pulse shaper, which creates a reception zone for the start signal. The information signals detected from the network by the cell and the element are compared on the first element I. If the signals of the filter element and the second pulse generator coincide, the switching element is switched, and a voltage level corresponding to 1 is set at its output. If the pulse signal at the output of the filtering element the element appears out of range of the second pulse former, it is not perceived by the receiving half. After switching over the lump, the mutating element, a pulse generator starts to work and on the second element I a check is made for the coincidence of the pulses coming from the filter element and from the pulse generator. At full coincidence, the decryption of the received command by the decoder occurs and a signal is issued for the actuator to operate. The return of the switching element to the initial state is carried out by signals, which are formed by the integrator and the element OR 2. The working voltage of the storage element, as shown by the analysis of the operation of the transmitting device f3j, must be chosen to be not less than 1.7 of the amplitude of the supply voltage due to the occurrence of overvoltages on the storage element. This is one of the drawbacks of the prototype. The transmitting device generates amplitude-modulated and 1-pulse signals for the half-period of the network voltage, however, their selection on the receiving half-set is carried out only according to the phase indications of the signals. Under conditions of high impulse noise, the transmission of information by the device may be unreliable. The purpose of the invention is to increase the reliability of the transmitted information and reliability. To achieve this goal, a device containing a phase sensor on the transmitting half-set, the input of which is connected to the power line, the output of the phase sensor is connected to the input of the pulse forks, the output of which is connected to the input of the Pulse generator, the output of which is connected to the control input of the coding element whose output is connected to the input to the 4th element) of its element, the first output of which is grounded, the second output of the 4th loop of the element through a series-connected inductive element n circuit on the parallel connection of the accumulative element of the limiting element is connected to the power line, the information inputs of the coding element of the transmitting half-set are the device inputs; at the receiving half-frame, the signal selector whose input is connected to the power line, the output of the signal selector is connected to the input of the filter element whose output It is connected to the input of the element I, the output of which is connected to the first input of the switching element, the code of which is connected to the input of the generator of pulses, the first The first pulse shaper, the first output of which through the integrator is connected to the first input of the SHS element, the output of which is connected to the second input of the switching element, the second output of the first pulse shaper is connected to the second input of the SHS element and the input of the second pulse shaper, the output of which is connected to the second input of the element And, the decoder, the output of which is connected to the input of the executive element, is inserted into the transceiver half-set of a shunt element on the diode, connected parallel to the inductive element, in receiving set - controlled faer, Pulse width converter - voltage, subtractor, modulator, reference element, signal selector output connected to the first input of the controlled phase shifter, the output of which is connected to the input of the first pulse shaper and the first input of the modulator whose output is connected with the first input of the sensor, the output of which is connected to the input of the decoder, the output of the second pulse former is connected to the input of the converter, the duration and myc — voltage, the output of which It is connected to the second input of the controlled phase shifter, the output of the pulse generator is connected to the second input of the modulator, the output of the AND element is connected to the second input of the second pulse generator, the output of the filtering element is connected to the second input of the subtractor. The introduction of a diode in the transmitting floor makes it possible to reduce the power of the copy element by 3 times, thereby increasing the reliability of the operation of the transmitting device. The introduction of new elements at the receiving semi-complex allows to correct the modulating voltage phase by providing a one-shot pulse. synchronization with the voltage at the transmitting semi-complex. In this case, on the subtractor, the received pulse signals of the transmitting half-set are compared with the modulator signals both in phase and in amplitude, which makes it possible to increase the noise immunity of the reception of the pulse signals. Figure 1 shows the functional diagram of the device; in fig. 2 - timing charts of the device. The device contains a transmitting semi-kit 1, receiving semi-set 2, power line 3. The transmitting semi-kit includes a phase sensor 4, a pulse shaper 5, a pulse generator 6, a coding element 7, a switching element 8, an inductive element 9, a cumulative element 10, a limiting element 11, a diode 12. Signal selector I3 is included in the receiving set phase shifter 14, the first pulse shaper 15 filter element 16, the second pulse shaper 17, the Converter 18 pulse duration - voltage, integrator 19, element 20 OR, element 21 And, switching element 22, generator 23 imp A modulator 24, a subtractor 25, a reference element 26, a signal decoder 27, an actuator 28. The device operates as follows. If it is necessary to transmit any remote control commands to the input of the commutator element 8 at the required time points, control pulses are sent from element 7. These pulses are created by a generator 6 synchronized with the network with certain phase angles with respect to one of the half-wave voltage of the power frequency. The network is synchronized with the sensor 4 and the former 5 with unipolar rectangular pulses, which are fed from its output to the generator 6. The duration of these pulses corresponds to the duration of one half-period of the mains voltage. When the voltage across the cumulative element of the mains voltage is switched on, the diode circuit is switched on and the accumulation on the cumulative element is limited to the level of the Pitsch voltage. In the proposed device, the drivers 5 and 15 are made in a similar way and each is an operative amplifier with positive feedback, during which a logical element with a direct and inverse output is switched on. Due to the change in the load of the network, the phase relations between the voltages and 4 on the half gear and on the receiving half complex are not constant (in Figure 2 the angle is the maximum possible phase shift between the voltages and. And Uj). Therefore, the starting impulse Which is formed on the front of the semi-kit with the opening angle of the switching element Cf, on the receiving semi-kit has a different phase position with respect to the voltage Urt (Fig.2). At the receiving half, the controlled phase shifter 14 initially shifts the phase of the input voltage so that the starting pulse falls into the positive half of the output voltage Icr at Cf Shaper 15 during each voltage period and "| l forms square pulses (Fig. 2) ) On the leading edge of these pulses, a second pulse former is started. The information pulse signals detected by the filter element 1 from the network are fed to one input of an AND 2 element, and to the other, its input comes from them J. . Pulse signals from the output of the imager 17. When the signals coincide, the switching element 22 switches and the generator 23 starts up in Fig. 2 - the 2nd and 3rd positive half-periods of the voltage U.) At the same time, the pulses Set. 6 4M2 is set to the initial state of the pulse shaper 17. If the pulse signal at the output of the filter of the element 16 appears out of range of the pulse shaper 17, then it is not perceived by the half-complex (lth positive half-period of the voltage U (| by 2). Pulse signals from the imager 17 are transmitted to the converter 18. Pulse duration - voltage, the voltage of which depends on the pulse duration, if It is. When receiving the starting pulse, the pulse width DT is different. depending on the value of - -, where s is the circuit of the mains frequency, then the transducer 14 is of such magnitude that the voltages i and Ubo coincide in phase (in Fig. 2, the 2 nd and 3 rd positive half periods of the voltage Un ) The signals from the generator 2 2 output are supplied to the control of the modulator input 24, and the modulating voltage U q, p is applied to its other input. The modulator 24 in the receiving set is a model of a transmitting device that creates in the electrical network, and the "1-modulated information signals. The signals from the modulator-output of the subtractor 25 are compared to the signals of the filter element 16. With a positive signal from the subtractor at the output of the element Comparison 26 appears in a pulse signal, otherwise the signal at the output of element 26 is missing / 2nd positive half period of U, in figure 2). In this case, the pulse signal, although received by a pulse selector with the same phase angle as the pulse of the transmitting device, but since its amplitude does not satisfy the condition of the AML pulse modulus, it is not accepted by the actual device. During the third half period of the voltage Uf, this CONDITION1K is fulfilled, and all information pulses are received by the receiving device. The integrator 19 and the KH 20 element are forged sigishy, I install (I wipe the 1st element 22 in the i-mode state. After that, the SNOPA device is ready to receive information. Thus, using the new elements in the prepa-mon device allows to increase the reliability of the transmission and the reliability of the P | Amplitude modulated signals 1. The device can be used to transfer information about the operating mode of the installation to protect the submersible electric motor from overheating and you BoN of its optimal TeNnii aTypHoro re ohm of work. At the same time, due to a decrease in the accuracy of the new element, the dimensions of its transfer are reduced; the prince set is 25Z.

As a basic object, an emergency circular discharge system is adopted, implemented by the Tigor experimental plant Soyuzenergoav i

1129640

Tomato. The performance of the proposed device is about 40 times higher than that of the base object.

Claims (1)

DEVICE FOR TRANSMISSION AND RECEIVING OF SIGNALS BY ELECTRIC TRANSMISSION LINES, comprising a phase sensor on the transmitting half-set, the input of which is connected to the transmission line, the output of the phase sensor through a series-connected pulse shaper and a pulse generator is connected to the control input of the coding element, the output of which is connected to the commutator input, the first output of which is grounded, the second output of the switching element through series-connected inductive element and parallel connected storage an element and a limiting element are connected to the power line, the information inputs of the encoding element of the transmitting half-set are the device inputs, on the receiving half-set is the signal selector, the input of which is connected to the power line, the output of the signal selector is connected to the input of the filtering element, the output of which is connected to the first the input of the element And, the output of which is connected to the first input of the switching element, the output of which is connected to the input of the pulse generator, the first pulse shaper s, the first output of which through the integrator is connected to the first input of the OR element, the output of which is connected to the second input of the switching element, the second output of the first pulse shaper is connected to the second input of the OR element and the input of the second pulse shaper, the output of which is connected to the second input of the AND element, decoder the output of which is connected to the input of the actuating element, characterized in that, in order to increase the reliability of the transmitted information and reliability, they are introduced into the device in the transmitting half-set tiruyuschy element of the diode connected in parallel with the inductive element in the receiving half-sets-controlled phase shifter, inverter duration impulsoz -> voltage, subtractor, modulator, comparison element, the output of the signal selector is connected to the first input of the controlled phase shifter, the output of which is connected to the input of the first pulse shaper and the first input of the modulator, the output of which is connected to the first input of the subtractor, the output of which is connected to the input of the comparison element, the output of which is connected to the input of the decoder, the output of the second pulse shaper is connected to the input of the converter, the pulse duration is voltage SU,> 1129640 and 29640, the output of which is connected to the second input of the controlled phase shifter, the output of the And element is connected to the second input of the second pulse shaper, the output of the pulse generator is connected to the second input of the modulator, the output of the filter element is connected to the second input of the subtractor.