RU2208869C1 - Difference-frequency relay - Google Patents

Abstract

FIELD: electrical engineering; protective gear for supply mains and generators. SUBSTANCE: difference-frequency relay has input voltage rectifier, synchronized voltage rectifier, first and second algebraic adders, first and second multipliers, first and second inverters, first through fourth comparators, first and second final elements, input- voltage frequency meter, synchronized-voltage frequency meter, first through fifth AND gates, first and second short-pulse shapers. EFFECT: enlarged functional capabilities; enhanced noise immunity. 1 cl, 1 dwg

Description

 The invention relates to electrical engineering and can be used in relay protection devices as a relay of the frequency difference between the network and the generator.

 A device is known that contains a series-connected clock generator, a binary counter, a decoder, a pulse shaper and an actuator made in the form of a transistor [1].

 The disadvantage of this device is the relatively narrow functionality that does not allow using it as a relay of the frequency difference.

 The closest in technical essence to the proposed one is a device containing the first and second rectifier blocks made in the form of diodes, the cathode and anode of which are, respectively, the generator voltage terminal and the network voltage terminal, an algebraic adder, the first and second inputs of which are connected, respectively , with the anode of the first and the cathode of the second diode, the first and second operational amplifiers, which are, respectively, an inverter and a comparator, the inputs of which are connected to the output of the algebraic adder a, the third and fourth diodes, the anodes of which are connected to the outputs of the first and second operational amplifiers, respectively, a multiplier, the inputs of which are connected to the cathodes of the third and fourth diodes, the first and second inverters, the inputs of which are connected, respectively, to the cathodes of the third and fourth diodes, and the first and second actuators, the inputs of which are connected, respectively, with the output of the first and second operational amplifiers [2].

 The disadvantage of the closest technical solution is the relatively narrow functionality, since it generates a signal of approximate equality of the voltage amplitude of the network and the generator, which indicates the time interval of the possible adjustment of the generator frequency to the network frequency, but does not produce signals of unacceptable frequency mismatch between the input and synchronized signals at a given relative the permissible value of their mismatch. In addition, the device has a relatively low noise immunity in conditions of short-term interference or malfunctioning of elements of external devices.

 The technical result of the invention is the expansion of functionality and increased noise immunity.

 This technical result is achieved in that in a frequency difference relay comprising an input voltage rectifier, a synchronized voltage rectifier, a first algebraic adder, a first multiplier, a first inverter, a first comparator and first and second actuators, characterized in that the input voltage frequency meter is introduced, whose input is connected to the input of the input voltage rectifier, and the output is connected to the addition input of the first algebraic adder and to the input of the first multiplier, the output of which is Through the first inverter is connected to the first input of the first comparator, a synchronized voltage frequency meter, the input of which is connected to the input of the synchronized voltage rectifier, and the output is connected to the subtracting input of the first algebraic adder, the second comparator, the first input of which is connected to the output of the first multiplier, and the second input is connected with the second input of the first comparator and with the output of the first algebraic adder, the first element And, the first input of which is connected to the output "more" of the first comparator, swarm element And, the first input of which is connected to the output "less" of the second comparator, the third element And, the output of which is connected to the second inputs of the first and second elements And, the third comparator, the output "more" of which is connected to the first input of the third element And, the fourth comparator , the output "less" of which is connected to the second input of the third element AND, the second algebraic adder, the subtraction input and the addition of which is connected to the outputs of the synchronized voltage rectifier and the output of the input voltage rectifier, respectively Actually, the second multiplier, the input of which is connected to the output of the input voltage rectifier, and the output is connected to the first input of the fourth comparator, the second inverter, the input of which is connected to the output of the second multiplier, and the output is connected to the first input of the third comparator, the second input of which is connected to the second input the fourth comparator and with the output of the second algebraic adder, the first and second formers of short pulses, the fourth element And, the direct input of which is connected to the output of the first element And and to the input of the first a short pulse shaper, the inverse input is connected to the output of the first short pulse shaper, and the output is connected to the input of the first actuating element, and the fifth element And, the direct input of which is connected to the output of the second element And and to the input of the second short pulse shaper, the inverse input is connected to the output of the second shaper of short pulses, and the output is connected to the input of the second actuator, the frequency meters of the input and synchronized voltages form a voltage at their outputs I, whose values are inversely proportional to frequencies of the input and synchronizes voltages, respectively.

 The drawing shows an electrical block diagram of a relay of the difference of the frequencies.

 The frequency difference relay comprises a synchronized voltage frequency meter 1 connected in series, a first multiplier 2, a first comparator 3, a first actuator 4, an input voltage frequency meter 5 connected in series, and an algebraic adder 6, the other input of which is connected to the output of the synchronized voltage frequency meter 1, the first inverter 7, the input of which is connected to the output of the first multiplier 2, and the output is connected to the first input of the first comparator 3, the second comparator 8, the first input of which connected to the output of the first multiplier, and the second input connected to the output of the algebraic adder 6 and to the second of the first comparator 3, the second actuator 9, the first element And 10, the first input of which is connected to the output "greater" of the first comparator 3, the second element And 11, the first input of which is connected to the output "less" of the second comparator 8, the third element And 12, the output of which is connected to the second inputs of the first 10 and second 11 elements And, the third comparator 13, the output "greater" of which is connected to the first input of the third element And 12, fourth a comparator 14, the output of which is “less than” is connected to the second input of the third element And 12, a synchronized voltage rectifier 15, the input of which is connected to the input of the synchronized voltage frequency meter, an input voltage rectifier 16, the input of which is connected to the input of the input voltage frequency meter, the second algebraic adder 17, the subtraction input and the addition input of which is connected to the outputs of the synchronized voltage rectifier 15 and to the output of the input voltage rectifier 16, respectively, the second multiplier 18 the input of which is connected to the output of the input voltage rectifier 16, and the output is connected to the first input of the fourth comparator 14, as well as the second inverter 19, the input of which is connected to the output of the second multiplier 18, and the output is connected to the first input of the third comparator 13, the second input of which is connected with the second input of the fourth comparator 14 and with the output of the second algebraic adder 17, the first 20 and second 21 short pulse shapers, the fourth element And 22, the direct input of which is connected to the output of the first element And 10 and to the input of the first shaper 20 short pulses, the inverse input is connected to the output of the first shaper 20 short pulses, and the output is connected to the input of the first actuator 4, and the fifth element And 23, the direct input of which is connected to the output of the second element And 11 and the input of the second shaper 21 short pulses, the inverse input is connected to the output of the second shaper 21 of short pulses, and the output is connected to the input of the second actuator 9.

 The first 4 and second 9 actuating elements can be made in the form of a relay coil with corresponding contacts, which is directly or through an amplifier connected to the output of the corresponding element I. Frequency meters 1 and 5 can be made in the form of an amplifier, the resonant circuit is included in the output circuit of which tuned so that the nominal values of the input frequencies come in the middle of the linear part of the branch of its frequency response. In this case, the output voltage of the meter will be inversely proportional to the frequency of its input signal. The first 20 and second 21 shapers of short pulses generate a short pulse by the difference in the signal at their input from the level of logical zero to the level of a logical unit. The durations of short pulses are set by the value of the maximum time interval within which a mismatch in the frequency of the input and synchronized voltages is allowed above the permissible deviations. The remaining blocks are standard blocks of electrical engineering.

 The relay operates as a difference of frequencies as follows.

When the relay is turned on, a signal is generated at the output of meter 1, the value of which is inversely proportional to the frequency of the synchronized voltage 1 / f _s , and at the output of meter 5, the frequency of the input voltage 1 / f _s . In this case, the relative magnitude of the frequency difference is formed at the output of the first algebraic adder 6
1 / f _in -1 / f _c = (f _c -f _in ) / f _c • f _in ≅ (f _c -f _in ) / f _in ² .

In addition, the signal from the output of the meter 5 is multiplied in the first multiplier 2 by a small coefficient K _f , which determines the permissible deviation of the frequency of the synchronized voltage from the input. Therefore, in the first comparator 3, the values of K _f / f _in and (f _c -f _in ) / f _in ^{2 are} compared, and in the second comparator 8, the values of K _f / f _in and (f _c -f _in ) / f _in ^{2 are} compared . Therefore, the signal of a logical unit at the output “greater than” the first comparator 3 will appear if it is necessary to adjust the frequency of the synchronized voltage upward, and at the output “less” of the second comparator 8, if necessary, adjust the frequency of the synchronized voltage in the direction of decreasing.

When the relay is turned on, a signal is generated at the output of rectifier 15, the value of which is proportional to the amplitude of the synchronized voltage U _c , and at the output of rectifier 16, to the amplitude of the input voltage U _I. In this case, at the output of the second algebraic adder 17, the magnitude of the voltage amplitude difference U _in -U _{c is formed} . In addition, the signal from the output of the rectifier 16 is multiplied in the second multiplier 18 by a small coefficient K _U , which determines the permissible deviation of the amplitude of the synchronized voltage from the input. Therefore, in the third comparator 13, the values - K _U • U _I and U _in - U _{c are} compared, and in the fourth comparator 14 the values K _U • U _I and U _I - U _{s are} compared.

If the condition is met - K _U • U _I <U _I - U _with <K _U • U _I , which corresponds to finding the difference in the amplitudes of the input and synchronized voltages within acceptable limits, then a logical unit signal will be generated at the output of the third AND 12 element, which will open the first 10 and second 11 elements And and will allow you to control the first 4 and second 9 actuators. At the same time, the first 20 and second 21 short pulse shapers will generate short pulses, the duration of which is set by the maximum time interval within which a frequency mismatch of the input and synchronized voltages is allowed above the permissible deviations, when the input signals are switched from a logic zero to a level logical unit. These pulses are fed to the inverse inputs of the fourth 22 and fifth 23 And elements, respectively, which eliminates the adjustment of the frequency of the synchronized voltage for short time intervals, caused, as a rule, by short-term interference or malfunctioning of external devices. In other cases, the frequency control of the synchronized signal will take into account the fact that the mismatch of the amplitudes of the input and synchronized voltages is within acceptable limits.

 Thus, the proposed device has wider functionality, since it responds to unacceptable relative mismatch of the frequencies of the input and synchronized voltages, and not only to the absolute values of the mismatch, which is necessary for a number of technological processes, and the frequency adjustment signal of the frequency of the synchronized voltage is formed only with an acceptable mismatch voltage amplitudes, taking into account the exclusion of the influence of short-term interference and malfunction of external devices, which increases the noise immunity of the device.

Sources of information
1. Electrical reference book, in 4 volumes, t.2. Electrical products and devices. / Under the general editorship of V.G. Gerasimova et al. - M.: Publishing House MPEI, 1998, p. 390, fig. 35.10.

 2. Andreev V.A. Relay protection and automation of power supply systems. - M.: Higher School, 1991, p. 355, Fig. 12.16.

Claims (1)

 Frequency difference relay comprising an input voltage rectifier, a synchronized voltage rectifier, a first algebraic adder, a first multiplier, a first inverter, a first comparator and first and second actuators, characterized in that an input voltage frequency meter is introduced, the input of which is connected to the input of the input voltage rectifier , and the output is connected to the input of addition of the first algebraic adder and the input of the first multiplier, the output of which through the first inverter is connected to the first input of the first comparator, a synchronized voltage frequency meter, the input of which is connected to the input of the synchronized voltage rectifier, and the output is connected to the subtracting input of the first algebraic adder, the second comparator, the first input of which is connected to the output of the first multiplier, and the second input is connected to the second input of the first comparator and the output the first algebraic adder, the first element And, the first input of which is connected to the output "More" of the first comparator, the second element And, the first input of which is connected to the output "Less" of the second comparator, the third element And whose output is connected to the second inputs of the first and second elements And, the third comparator, the output of "More" which is connected to the first input of the third element And, the fourth comparator, the output of "Less" which is connected to the second input the third element And, the second algebraic adder, the subtraction input and the addition of which is connected to the outputs of the synchronized voltage rectifier and the input voltage rectifier, respectively, the second multiplier, the input of which is connected to the output in rectifier input voltage, and the output is connected to the first input of the fourth comparator, the second inverter, the input of which is connected to the output of the second multiplier, and the output is connected to the first input of the third comparator, the second input of which is connected to the second input of the fourth comparator and the output of the second algebraic adder, the first and the second short pulse shaper, the fourth element And, the direct input of which is connected to the output of the first element And and the input of the first short pulse shaper, the inverse input is connected to the output the house of the first short-pulse driver, and the output is connected to the input of the first actuating element, and the fifth element And, the direct input of which is connected to the output of the second element And and the input of the second short-pulse generator, the inverse input is connected to the output of the second short-pulse generator, and the output is connected with the input of the second actuating element, the frequency meters of the input and synchronized voltages form voltage at their outputs, the values of which are inversely proportional to the frequencies of the input and hroniziruemogo voltages, respectively.