SU1120423A1 - One-system device for checking serviceability of relay protection - Google Patents

Abstract

1. SINGLE-SYSTEM DEVICE FOR MONITORING REMOTAL PROTECTION CORRECTION, the signals at the control points of which, during protection duty, have a value that significantly depends on the load of the protected object, voltage or network frequency, the input resistors block, the converter element, the element COMPARATOR –IVIDATER, element test, the time lag element, while the inputs of the input resistor unit serve as the device inputs, the output of the time delay element serves as the device output, the time element input Through the COMPARATOR-INDICATOR element, the test element of the converter element is connected to the output of the converter element and connected to the output of the verification element, characterized in that, in order to increase the hardware reliability of the device, reduce its cost and size, it introduces a block for processing input signals at control points of different phases protection, the values of which in duty mode are equal to one another, included between the block of input resistors and the conversion element. 2. The device according to claim 1, about tl and h ayu w. This is because, in order to use it to monitor the health of the nodes, blocks, modules and cassettes of relay protection, the signals at control points of which in the protection duty mode are DC voltages, the input processing unit consists of a block of resistors with separate inputs and a combined output and a diode assembly with separate inputs and a combined output, while the inputs of the resistor unit and the diode assembly serve as inputs of the input signal processing unit, and the drivers - outputs of this unit, as a pre razovatelnogo element serves comparing element. 3. The device according to Claim 1, which is so that, in order to use it to monitor the health of nodes, blocks, modules and tapes of relay protection, the signals at the control points of which are on duty during protection three-phase sinusoidal ac voltages; the input signal processing unit is designed as a unit of resistors with a combined output, and a unipolar amplifier serves as a converter element. 4. The device according to claim 1, characterized in that, for the purpose of its

Description

use to monitor the health of nodes of blocks, modules and tapes of relay partitions, the signals at control points of which are on non-sinusoidal voltages during protection mode, cyima t-th harmonics

which is equal to zero, the processing unit of the input signals is implemented as a block of filters (harmonics with a combined output, and a unipolar amplifier serves as a converting element.

The invention relates to electrical engineering and is intended to monitor the health of components, blocks, modules, cassettes and relay protection circuits made on active semiconductor elements, i.e. with the use of transistors, amplifiers, logic circuits in the microcircuit design, and others, the signals at the control points of which during standby duty are voltage constant or alternating currents, the magnitude of which can significantly depend on the load of the object being triggered, the voltage or frequency of the network and etc. A known node for monitoring the operability of removable protection cassettes, the inputs of which are connected to control points of protection, contains elements s 3: Time holders, the output of which serves as the output of the control unit, the input of the rectifier tori, aaratory, display elements, and setting elements according to the number of control panels w , as well as the logical element of the IC, and the element of verification, the main inputs of the input controllers serve as inputs of the control node, to the additional inputs of the input totalizers, the outputs of the corresponding corresponding configuration elements and elements The checker, the outputs of the input summatfs via sequentially connected rectifiers, coolers and display elements are connected to the inputs of the OR element, the output of which is connected to the input of the time hold element, and the adders and their corresponding settings are located on the monitored cassettes 1 3. However, this node The control is not intended to control such nodes, blocks, modules, cassettes and relay protection circuits, the signals at the control points of which depend significantly on the load and the object to be protected, because in this case, when the load of the protected object occurs different. balancing input adders and control node is triggered falsely. It is also known a device for monitoring the operability of a relay protection comprising a test signal generating unit, a delay unit, a two-stable trigger element, input adders, comparator blocks, a comparator unit, display units and tuning units by the number of monitored replaceable protection modules, a tested-block unit. ki, test start unit, switching unit and logical block OR, the main inputs of the input adders are connected to the output terminals for connecting the corresponding controllers of the protection blocks, the first auxiliary input of each input adder is connected to the corresponding dego of the setting unit, and the second additional inputs of the adders - with the output of the checker block, the outputs of the input summs of the devices are connected to the the moves of the block of the scanner, the outputs of the forkshirovanija test signals - with the main inputs of the switching, the triggering input is connected to the output of the test triggering unit, the main outputs of the input terminals for connecting the corresponding control blocks of the protection block, and the compensating outputs of the compensating inputs of the corresponding input accumulators connected to the outputs of the display unit, and its output through a two-stable trigger element - with the prohibiting input of the switching unit G 21, However, this device is not units are assigned to control such nodes, blocks, modules, cassettes and relay protection circuits, the signals at the control points of which, in the guard mode, depend significantly on the load of the protected object, since in this case, when the load of the protected object changes, an unbalance of the input adders and control device is triggered falsely. In addition, a three-phase device for control of a relay protection is known, which contains three input adders, three watches of a mitele, a cell of a display element, a time delay element. a check element, three adders, three elements of the FORCER-COHARATOR, three AND elements, two OR elements and the BAN element, the inverting input of each corresponding adder connected to the output of one rectifier, and the non-inverting input from the output of another rectifier, the outputs of the adders connected to the inputs of the corresponding elements of the RECTIFIER-COMPARATOR, the output of each element of the RECTIFIER-COMPARATOR is connected to the inputs of two corresponding elements AND, and to the corresponding input of the first element OR, the outputs of the elements AND s are the inputs of the corresponding display elements, and the output of the first element OR is with the main input of the BANNER element, the inputs of the second element OR are connected to the outputs of the first three display elements, and the output is with the inhibiting input of the BAN element whose output is connected to the fourth display element Cz 3 . A disadvantage of the known device is its great complexity, which leads to high cost, large dimensions and relatively frequent damage to the device itself to monitor the health of the relay protection, i.e. to low reliability. Moreover, due to the complexity of the design, it is unprofitable to use the device to monitor the health of simple cassettes with a small number of control points, since its damages, which are frequent relative to the monitored cartridge, reduce the effectiveness of the control and require quite frequent intervention by service personnel. . The purpose of the invention is to improve the hardware reliability of the device, reducing its cost and size. The goal is achieved by the fact that in a single-system device for monitoring the operability of relay protection, the signals at test points in the protection duty mode have a value significantly dependent on the load of the object to be protected, the voltage or frequency of the network containing the input resistor unit, converter, element the COMPARATOP-INDICATOR element, the verification element, the time delay element, while the inputs of the input resistor unit serve as the device inputs, the output of the time-delay element serves as the device output, The element of the time output through the COMPARATOR-INDICATOR element is connected to the output of the converter element, the test input of the converter element is connected to the output of the verification element, the input signal processing unit at the control points of different protection phases is entered, the values of which are on duty one after another resistors and conversion element. In order to use the device to monitor the health of nodes, blocks, modules and relay protection cassettes, the signals at control points of which, in the protection duty mode, are direct current voltages, the input signal processing unit consists of a block of resistors with separate inputs and a combined output and diode assembly with separate inputs and a combined output, while the inputs of the resistor unit and the diode assembly serve as inputs to the input signal processing unit, and the outputs as outputs of this unit, as transducer element is a reference element. In order to use the device to monitor the health of nodes, blocks, modules and relays protection cassettes, the signals at control points of which are three-phase siyco single and alternating current voltage during protection duty, the input signal processing unit is designed as a unit of resistors with a combined output, and a unipolar amplifier serves as a conversion element. In order to use the device to monitor the health of nodes, blocks, modules and relay protection cassettes, the signals at control points of which are non-sinusoidal voltages in the protection duty mode, the sum of iX harmonics is zero, the processing unit of the input signals is in the form of a filter unit A tx harmonics with a combined output, and a unipolar amplifier serves as a converter element. In contrast to the known device, where blocks of only one phase are located on each cassette, similar blocks of different protection phases are located in the proposed cartridge on each controlled cassette. While the tasks of the device for monitoring the operability of the relay protection are limited only by fixing the fact of the occurrence of a malfunction, it is not required to reveal the damaged phase, as in the known device. This allows us to simplify the design of the control device. Figure 1 shows the structural diagram of the proposed device; Fig. 2 is a schematic structural diagram of the first embodiment of the device; on fig.Z - the same, the second variant of the device; and figure 4 is a structural diagram of the third variant of the device. The device (Fig. 1) contains a block 1 of input resistors, the inputs of which serve as inputs to the device, and a block 2 of processing input signals, designed to process the signals received from block 1, and connected to the outputs of block 1. The converter element 3 is connected to the output block 2 and is designed to transform and amplify the incoming signals to it. The test input of the converter element 3 is connected to the output of the test element 4, intended to verify the operability of the device. The output of the conversion element 3 through the element COMPARATOR-INDICATOR 5 is connected to the input of the element 6 time delay. The COMPARATOR-INDICATOR element 5 is designed to generate an output signal in the case when the input signal exceeds the threshold of the comparator, and to signal the triggered state of the comparator. The time delay element 6 is intended to delay the signal arriving at it for a time of, for example, 1015 seconds. The output of the time delay element 6 serves as the output of the control device. The device (Fig. 2) contains a block of input resistors designed to separate the circuits of controlled protection and the circuits of the control device, as well as proportional conversion of the control signals input to the inputs of the device. The inputs of block 1 are connected to the inputs of the block 2 for processing input signals, consisting of a block 7 of resistors with separate inputs w and a combined output and a diode assembly 8 with separate inputs and a combined output. The combined output of the resistor unit 7 serves as the first output of the unit 2, and the combined output of the diode assembly 8 is the second output of the unit 2. The inputs of the converter element are connected to the 2 inputs of the unit 2, which in this version of the device is designed as a reference element 9 proportional to the difference of the signals coming from block 7 and the diode assembly 8. The device (FIG. 3) contains a block 1 of resistors, which in this case is designed as a block of input resistors with a combined output. The output of block 2 is connected to the input of the conversion element, which in this embodiment is designed as a unipolar amplifier 10, designed to amplify the incoming signal and its input and extract the amplified alternating signal at the output of one half-wave. To the output of each unipolar amplifier 10 is connected to the input element of the COMPARATOR-IVDICATOR 5. The outputs of all elements 5 are combined and connected to the input of the exposure element 6, the time, the output of which serves as the output of the device. The second input of each unipolar amplifier 10 is connected to the output of test element 4. The device (figure 4) contains a block of 1 input resistors, the outputs of which are connected to the inputs of the block 2 processing input signals, which in this case is made in the form of a block of harmonic harmonic filters, 11 with a combined output. Harmonic filters 11 are designed to extract the harmonic component of the i-th harmonic from the incoming signals at their inputs, for example, the fundamental harmonics of the electrical network. The combined output of harmonic filters i1 is connected to the input of a unipolar amplifier 10, to the output of which is connected; the input of the COMPARATOR-INDICATOR element 5. The outputs of all the elements 5 are combined and connected to the input of the time delay element 6, the output of which serves as the output of the device. The second input of each unipolar amplifier 10 is connected to the output of test element 4. The device according to claim 2 is designed to monitor the health of such nodes, blocks, modules and cassettes of relay protection, the signals at the test points in the protection duty mode are DC voltages, the magnitude of which can significantly depend on the load of the protected object, the voltage or network frequencies, etc. The device according to p. 3 is designed to monitor the health of such units of blocks, modules and cassettes of relay protection, the signals at the koTopbix control points in the protection duty mode are sinusoidal alternating current voltages, the value of which significantly depends on the load of the protected object, voltage or frequency network, etc., and the amount at any time is almost zero. The device according to claim 4 is intended to monitor the operability of such units of blocks, modules and tapes of relay protection, the signals at test points of which, in the protection duty mode, are non-sinusoidal voltages

mi, the sum of i – x harmonics of which at any moment is almost zero, and the magnitude of the signals may significantly depend on the load of the protected object, voltage or frequency of the network, etc.

Blocks 2 input resistors are made according to standard circuits.

It serves as the first input of the comparison element 9, the inverting input through a variable resistor 19, intended for tuning the device, is connected to the second input of the comparison element 9, and through a chain of series-connected resistor and diode 20, intended for testing the button 12, one clamp of which is connected to the positive terminal of the power source, and the second clamp serves as the output of element 4.  The element KOSH1ARATOR-INDNKATOR 5 can be made according to different schemes of the input of the element COMPARATOR-IVDIK (Fig. 2) serves to output the base of the transistor 13, designed for operation in the emitter follower mode.  The collector of the transistor 13 is connected via a ballast resistor 14 to the negative terminal of the power source, and through a chain of parallel-connected windings of a small-sized relay 15 with sealed contacts and a diode 16 to the common wire.  Relay 15 is designed to operate when the input signal of element 5 exceeds the comparing threshold, and diode 16 to prevent breakdown of transistor 13 when it is closed due to the electromotive force induced in the coil of relay 15.  The contacts of the relay 15 are connected between the positive terminal of the power source and the output of the element 5.  A chain of series-connected ballast resistor and LED 17, connected between the output of the element 5 and the common wire, is intended to signal the activated state of the relay 15.  The time delay element 6 is made according to the standard time relay circuit and is intended to delay the signal arriving at it for a time equal to, for example, 10-15 seconds.  Block 7 resistors are made according to the standard scheme with separate inputs and a combined output.  The diode assembly 8 is made according to a standard scheme with separate inputs and a combined output.  Comparison element 9 may be performed according to various schemes.  Comparison element 9 (FIG. 2J comprises an amplifier 18 in a microcircuit design, the non-inverting input of which is right of the device — with the third input of the reference element 9.  In the case of a controlled cassette ime. More than three control blocks, the outputs of the remaining blocks 7 are also connected to the first input of the comparison element 9, and the outputs of the other diode assemblies 8 to the inverting input of the amplifier 18 through the same control resistor 19.  A resistor 2f included in the negative feedback circuit of amplifier 18 is designed to provide the required circuit gain.  The resistor 22, the extreme terminals of which are connected to the power supply terminals, and the resistor 23 connected between the resistor motor 22 and the non-inverted input of the amplifier 18, are designed to adjust the operating point of the amplifier 18, the resistor 24 is): to the power supply, the diode 25 is designed to shunt the signal circuit positive fullness, has a tendency to exit.  The resistor 26 and the capacitor 27 are designed to smooth the output signal of the reference element 9.  The output of the comparison element 9 is the common terminal of the resistor 26 and the capacitor 27.  If the signals at the control point are voltages of negative polarity, in the diode assembly 8 the diodes must be turned on by the polarity opposite to that shown in FIG. 2, the resistor 19 is connected between the input of the comparison element 9 and the non-inverting input of the amplifier 18, the resistor 23 is connected not with the non-inverting input, but with the inverting input of the amplifier 18, which in this case serves as the first input of the comparison element 9.  When the number of control points is greater than 3, the chains are from others. diode: assembly 8 is connected either to inverting (if other opposite signals have positive polarity) or to inverting (if other control signals also have negative polarity) the inputs of amplifier 18.  Circuits from the remaining blocks 2 are connected to another input of amplifier 18.  The scheme of connecting the blocks between themselves and the types of blocks and elements of the structural scheme 23 remain unchanged in this case as well.  The unipolar amplifier 10 can be implemented, for example, in the same way as the comparison element 9, but since the functions performed by it are simpler, simpler, and its design is.  A unipolar amplifier 10 (FIG. 3) contains elements 18-27, which fulfill the same functions, and are connected in the same way as in element 9 of the comparison.  Harmonic filters 11 can be made according to the standard scheme with both active elements (amplifiers) and standard passive elements (for example, resistors and capacitances).  The device (FIG. 2) works as follows. For setting up the device, first it is supplied with power supply voltage from the supply voltage sources, and there should be no signals at the device inputs.  Moving the slider of the resistor 22, one achieves that the voltage at the output of the amplifier is almost zero or a small positive voltage in the order of a fraction of a volt. and the signal to the third input is of such magnitude that it is desirable to have the response of the control device.  The deviation of one of the signals at the control point from the other two, at which the control device is triggered, is chosen based on the fact that small deviations of signals at the control points caused by irrelevant details, from which the schemes of phase-controlled devices are monitored, and other non-dangerous As the operation of controlled protection causes, does not lead to a false response of the control device.  Practically, you can configure the proposed device to trigger, for example, when the signal at one of the control points deviates from the signals at the other control points by 1 V or more.  After presetting the control device, it is connected to the monitored protection relay and the voltage is discharged from the power source to both the monitored relay and the control device.  The inputs of the monitored relay emit signals (currents and voltages with the help of laboratory autotransformers of rheostats, from test tester equipment HbDc or kits, normally used during adjustments and testing of relay protection), imitating the protection of the protected object with a nominal load.  Each of the signals taken from the control points is converted by the resistors of the input resistor unit 1 to the corresponding currents, which are added and fed to the non-inverting input of the amplifier 18, causing a positive polarity at its output, since the signals at the control points are direct current positive polarity voltages.  The signal of the yolko-polarity signal, taken from the output of the amplifier 18, is shunted by.  a ballast resistor 24 and a diode 25 and further are not output. v The inclusion in blocks t and 7 of two high-resistance resistors in each circuit ensures reliable separation of the monitored protection circuit and the proposed one. control devices l.  The control device input circuits prevent possible false or excessive control of the monitored command for any single damage in the control device circuit.  Thus, the signal at the non-inverting input of amplifier 18 is proportional to the sum of the signals at the control points.  The resistors of the right-hand side of block 1, I1, have a value approximately by less than the resistance of resistor 19, therefore only the diode in diode assembly 8, which is in the circuit of the largest of the three input signals, opens.  The remaining diodes are covered by a voltage that is connected to it at resistor 19.  As a result, the current flowing through the resistor 19 to the inverting input of the amplifier 18 is proportional to the largest of the control points signals. By moving the slider of the resistor 19, it is achieved that at the nominal load of the protected object and the correct, properly controlled relay, the signal at the output of the amplifier 18 is approximately equal to zero (or at the output of the amplifier 18 is a positive voltage in the order of a fraction of a volt). .  In this case, at the output of the element 9, there is no comparison voltage.  There is no voltage at the input of the COMPARATOR-INDICATOR element 5.  The transistor 13 is closed, the relay 15 is in an idle state, the LED 17 does not illuminate.  There are no signals either at the input of the time delay element 6 or at its output.  . A device configured in such a way to monitor the operability of the relay protection can be put into operation together with the controlled protection.  In the watchdog mode of the monitored protection, when the monitored and properly tuned monitored voltage cassettes at the control points are changed in magnitude, they remain equal to one another.  The maximum signal at one of the control points is approximately equal to the average value of all three signals at the control points.  As a consequence, the signals at the inputs of the amplifier 18 are still balanced and the voltage at its code is close to zero.  The state of the subsequent blocks also does not change,.  If a protected protection cassette is damaged, in which one of the control signals changes sufficiently, or if one of the control signals changes in a dangerous manner due to misalignment and change of parameters of elements of controlled protection, the signal at the corresponding control point becomes significantly larger or smaller than the signals at the other points .  If, for example, the signal at the reference point of phase C is increased relative to the signals at phases A and B, then it is this signal that opens the corresponding diode 8 and is connected to the resistor 19.  As a result, the current supplied to the inverting input of amplifier 18 becomes proportional to the changing signal at the control point of phase C, and the signal at the non-inverting input of amplifier 18 proportional to the average value of the signals at control points increases to a lesser degree.  A negative voltage appears in the output of amplifier 18, a factor of -.  131 ent of amplification is greater than the difference of its input signals.  This is a voltage.  smoothed by a chain of resistors 24 and 26 and capacitor 27 (if it contains a variable component, which may occur if the monitored protection cartridge is damaged) and goes to the base of transistor 13, which operates in the emitter follower mode, therefore the voltage applied to its base is separated on the winding relay 15.  If the signal on the control car of the damaged cassette deviates from the rest of the control signals to a sufficiently large degree, relay 15 is activated and closes its contacts.  At the same time, the LED 17 starts to turn on and a signal arrives at the input of the time delay element 6.  With you.  Holding the order of 10-15 seconds at the output of element 6, a signal appears that lights up on the control panel of the board Defective protection circuits.  A team of maintenance personnel in light of the LED 17 easily exposes the damaged cartridge and replaces it, after which the monitored protection device can continue to work further.  In order to restore the protection. took as little time as possible, service personnel should have a supply of wrong, properly tuned zash cartridges ready for use.  In this case, blocks 1–5 of the control device should be located directly on the monitored cassettes and tuned simultaneously with the corresponding cassettes.  Controlled protection at the time of cartridge replacement should be disabled.  If necessary, the signal from the output of element 6 of the time delay can be brought not only to signaling that the protection has failed, but also to block the defective protection.  The control unit behaves in a similar way when the signal is reduced at one of the three control points with respect to the other signals.  In this case, the signal at the inverting input of amplifier 18, which is proportional to the maximum of the control signals, remains unchanged, but changes (decreases) the signal at the non-inverting input, which is proportional to the arithmetic average of the input signals.  At the output of amplifier 18, as in the previous case, a negative polarity signal appears proportional to.  the difference of the input signals of the amplifier 18.  Relay 15 is activated, and then everything happens in accordance with the description.  The device for monitoring the protection of the relay protection is not intended to locate the fault inside the cut cartridge.  Troubleshooting and restoration of the cassette, if necessary, should be carried out by other methods.  Relay protection cassettes are often covered to protect the weather from a layer of slamalak or a transparent compound.  This increases their reliability, but eliminates the restoration of the cassette after its failure.  In this case, the cassette after the failure is replaced by another, but not restored.  With Short Circuits or other transient modes (alarm modes), the control signals from the controlled protection to the proposed control device may vary in different degrees.  For example, with asymmetrical short-circuits, as a result, it may briefly (before the short circuit is triggered) trigger a distant signal from relay 13, but the signal that the protection fails at the output of element 6 does not time out, since element 6 (10-15 s) the alarm mode is eliminated. To monitor the health of the device, press the button 12, and on the inv. The certifying inputs of all amplifiers 18 are fed through the chains 20 to the error signal, all the relays 15 should operate and all the LEDs 17 should be lit.  The ballast resistor in the string 20 is selected in such a way that the error signal issued in the test mode to the amplifier 18 is with a small margin enough to trigger the relay 15.  If, in the test mode, the LED 17 in one of the elements 5 does not light up, then the corresponding device should be considered faulty and replaced with a working one together with the monitored cassette.  15 1 Device for monitoring the serviceability of burdock protection (FIG. H) works as follows.  The adjustment of the operating point of the amplifier 18 and the sensitivity of the device is carried out in the same way as in the first embodiment.  The balancing on O amplifier 18 is performed by reasonably accurate selection of the values of the resistors in block 1.  In this case, it is achieved that, when simulating the rated load of the protected object, the signal at the output of the amplifier 18 is approximately zero.  In principle, this is not difficult, since the control signals in the case under consideration are sine far-field voltages of equal magnitude, in sum, approximately equal to zero.  In the watchdog mode of monitored protection with operable and properly tuned monitored cassettes, the equality of the sum of monitored signals to the different phases of the protection keeps c.  The slight unbalance that may occur is insufficient to trigger the relay 15 located in element 5.  There are no signals at the outputs of elements 5 and 6.  When the monitored cassette is damaged, an imbalance of the monitored signals occurs at the inputs of the monitoring device and a variable voltage appears at the output of the amplifier 18.  The positive half-wave of this voltage is shunted by the diode 25, and the negative half-wave through the resistor 26 is fed to a capacitor 27, which smoothes the shape of the incoming signal.  If the magnitude of the signal on the capacitor 27 is sufficient to trigger element 5, a signal will appear at the output of the latter, and the input LED and its composition will turn on.  Otherwise, the second variant of the proposed device for monitoring the operability of the relay protection works in the same way as the first Device for monitoring the protection of the relay protection (FIG. 4) designed to monitor the health of such protection tapes, the signals at control points in the watch mode are non-sinusoidal voltages, the sum of, for example, the harmonics of which are almost zero at any time.  3 Setting up this device is similar to the setting of the second option.  In the duty mode, harmonic filters 11 are extracted at their outputs, for example, the first harmonic component of the pilot signals.  The currents proportional to the divided signals are summed at the combined output of the harmonic filters and fed to the input of the unipolar amplifier 10.  In the duty mode of a valid and properly configured protection, the total input signal of the unipolar amplification l 10 is approximately equal to zero, and if the monitored cassette is damaged, it becomes different from zero.  Otherwise, the third variant of the proposed control device works similarly to the second.   Thus, the proposed device for monitoring the operability of the direct protection allows timely detection and elimination of malfunctions occurring in the controlled cassettes, including unacceptably large changes in the parameters of the elements, which lead to a significant voltage deviation at one of the control points from the voltages other control points, t. e.  perform the same functions as the known.  At the same time, the proposed device is simpler, cheaper, has smaller dimensions and higher reliability.  All these advantages are obtained by simplifying the design of the control device.  The proposed device for monitoring the protection of the relay protection is somewhat simpler than the base object. In contrast to the base object, it is possible to control such cassettes, modules, blocks and nodes of the relay protection, the signals at control points of which substantially depend on the load of the protected object. points (to include in their structure those points, the voltage on which substantially depends on the load of the protected transformer).  The application of the invention allows to increase the depth of control due to the fact that it is possible to lower the threshold of operation of the comparator of the control device.  This is due to the fact that there is no need to adjust the comparator threshold of the proposed 1711 control devices from such changes in the parameters of the controlled protection devices, which lead to a simultaneous and approximately the same change in the values of the control signals at all controlled points at once.  This refers to the change in the parameters of the monitored protection when the ambient temperature changes, the magnitude of the supply voltage from the power source, etc. d.  Reducing the threshold for the operation of the comparators that are part of the proposed device, dp, control of the protection of the relay protection, increases the depth of the control points

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Claims (4)

1. A ONE-SYSTEM DEVICE FOR MONITORING RELAY PROTECTION MALFUNCTION, the signals at the control points of which in standby mode have a value that substantially depends on the load of the protected object, voltage or network frequency, containing a block of input resistors, a converter element, an COMPARATOR-INDICATOR element, a test element, the time delay element, while the inputs of the input resistor block serve as the inputs of the device, the output of the time delay element serves as the output of the device, the input of the time delay element through the ele The COMPARATOR-INDICATOR element is connected to the output of the converter element, the test input of the converter element is connected to the output of the verification element, characterized in that, in order to increase the device's hardware reliability, reduce its cost and dimensions, an input signal processing unit at the control points of different phases is introduced into it protection, the values of which in standby mode are equal to one another, included between the block of input resistors and the converter element. 2. The device according to claim 1, with the exception of the fact that, in order to use it to monitor the health of nodes, blocks, modules and cassettes of relay protection, the signals at the control points of which are in standby mode are DC voltages, the input signal processing unit consists of a resistor block with separate inputs and a combined output and a diode assembly with separate inputs and a combined output, while the inputs of the resistor block and the diode assembly serve as inputs of the input signal processing block, and outputs as outputs of this th block, a comparison element serves as a transducing element. 3. The device according to claim 1, characterized in that, in order to use it to monitor the health of nodes, blocks, modules and relay protection cassettes, the signals at the control points of which in standby mode are three-phase sinusoidal AC voltages, the input signal processing unit is made in the form of a resistor unit with a combined output, and a unipolar amplifier serves as a converter element. 4. The device according to claim 1, characterized in that, for the purpose of its use for monitoring the health of nodes, blocks, modules and relay protection cassettes, the signals at the control points of which in standby mode are non-sinusoidal voltages, the sum of the i-harmonics of which is zero, the input signal processing unit is made in the form of a ix harmonic filter unit with a combined output, and a unipolar amplifier serves as a converting element. • 1