SU1053182A1 - Device for checking serviceability of relay protection with n groups of inputs - Google Patents

Abstract

A DEVICE FOR MONITORING CORRECT PROTECTION CORRECTION WITH n INPUT GROUPS, containing n blocks of input resistors whose inputs serve as inputs to the device, test element, two diode-resistor elements OR, to the outputs of which are connected the inputs of the element RX-COMPARATOR, time-delay element, the input of which connected to the output of the element RECTIFIER-COMPARATOR, and the output serves as an output of the device and a selective indication unit, characterized in that, in order to monitor the operability of the protection units with control ignals of alternating current, unchanged in magnitude in the protection duty mode, 2 n diode-resistor elements of the OR, elements of the CTMATOR-APERIODIC AND

Description

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, integrated circuit logic circuits, etc. A known indicator of failures of the relay protection, containing elements NOT whose inputs serve as inputs of the indicator of failures and is connected to the control points of the monitored protection device, the elements AND whose inputs are connected to the corresponding outputs of the elements NE. And with the corresponding inputs of the indicator from also a delay element, in which is connected to the corresponding input of the fault indicator, and an output with inputs of the corresponding AND elements, and the outputs of the And elements serve as outputs of the failure indicator i. This fault indicator reveals any malfunctions almost instantly, however, it records only the failures of the blocks included in the logical part of the protection, and not the care of the parameters of the elements included in the blocks, and therefore, firstly, is not suitable for monitoring the health of the measuring part of the protection and, secondly, it does not control the gradual withdrawal of the parameters of the circuit elements, if this does not lead to a block failure. i. There is also known a node for monitoring the operability of removable protection cassettes designed to monitor the repair of such protection cassettes, the signals at the control points of which are in the duty mode of protection are unchanged DC voltages, the inputs of which are connected to the protection check points containing the holding element time, the output of which serves as the output of the control unit, input adders, rectifiers, comparators display elements and settings elements by the number of monitored cassettes, as well as the OR element and the the test input, the main inputs of the input adders serve as inputs of the control unit, the outputs of the corresponding configuration elements and the verification element are connected to the additional inputs of the input adders, the outputs of the input adders through sequentially connected rectifiers, comparators and display elements are connected to the inputs of the OR element, the output of which is connected to the input element of the time delay, and the input adders and the corresponding settings are located on the controlled cassettes. The disadvantages of this control unit include its rather high complexity, which leads to high cost, relatively large dimensions and relatively frequent damage to the control node itself, - the complexity of a known construction narrows its scope - the device is unprofitable to use for monitoring the health of fairly simple cassettes, since its damages, which are frequent with respect to the controlled cassette, will reduce the effectiveness of the control. and require quite frequent intervention of service personnel to restore health. The disadvantages of this control unit are such that it is not applicable for monitoring the performance of such protection tapes, the signals at the control points of which are in alternating current mode of protection or alternating current voltage L contain a significant variable component. signals input adders cannot be balanced to zero. It is also known to have a device for monitoring the operability of a relay protection, designed to monitor the health of such protection tapes, the signals at the control points of which are in constant watch protection mode are constant DC voltages containing input adders whose inputs serve as inputs to the device, the element checks, two diode-resistor elements OR and a time delay element whose output serves as a device output, a selective indication unit and a RIGHT-COMPARATOR element, with the inputs Single selective indicating and two OR elements are connected to the outputs of the input adders, the outputs of OR elements attached VIRYAMITEL element inputs of the comparator, whose output is connected to the input of the time delay element. The disadvantages of this device include the fact that it is not applicable for monitoring the performance of such protection cassettes (nodes, blocks, modules), the signals at the control points of which are in alternating current mode or contain a variable component, since with such pilot signals, adders cannot be balanced to zero. The purpose of the invention is to ensure that the protection blocks are working.

with control signals of alternating current, unchanged in size in the duty mode of protection.

The goal is achieved by the fact that in a device for monitoring the operability of relay protection with U groups of inputs containing q blocks of input resistors whose inputs serve as inputs of the device, a test element, two diode-resistor elements OR, to the outputs of which there are inputs of the element RIGHT-COMPARATOR, element the time delay, the input of which is connected to the output of the element RECTIFIER-COMPARATOR, and the output serves as the output of the device, and the block of selective indication, 2 P diode-resistor elements OR, n elements SUMMER-aperiodic links AI elements equilibration, the inputs of each pair of input OR elements are connected to the output of the corresponding frame of the input resistors. the inputs of each element of the SU14MATOR-APERIODIC ROOM are connected to the outputs of two corresponding elements OR, and the input of the balancing element is connected to its output, to the outputs each. Of these, the inputs of the two corresponding OR elements and the selective indication unit are connected, and the output of the verification element is connected to one of the inputs of the OR elements of the corresponding polarity.

The drawing shows a structural-principle scheme of the proposed device for monitoring relay protection.

A device for monitoring / maintaining a relay protection contains blocks of input resistors designed to separate the circuits of the monitored protection and the circuits of the monitoring device. The inputs of the blocks 1 serve as the inputs of the -th group of the proposed device and are connected to the test points of the X-controlled block of the cassette). Protection. The outputs of each block 1 are connected to the inputs of two diode-resistor elements OR 2 and 3, which are designed to isolate the total signals of the corresponding polarity. The outputs of the elements or 2. and 3 are connected to the elements of the element SUMMATOR-APERIODIC TERMINAL 4, designed to sum the signals received at its inputs and to smooth (integrate) the resultant signal. To the output of the SUMMATOR-APERIODIC CENTER 4 is connected the input of the balancing element 5, designed to compensate (balance) the signal wired at the output of the 4 element on duty

and properly configured protection. The elements and blocks listed above constitute in aggregate the input unit b of the proposed device for monitoring the health of the relay protection, designed to process control and roller signals from one of the monitored relay protection blocks. The test points of other monitored relay protection units are connected respectively to the inputs of the input nodes 7 and 8, etc., having the same function and design as the node 6.

The outputs of the input nodes 6-8 are connected to the inputs of the block 9 — selective indication of the damaged block of monitored protection, and two diode-resistor elements OR 10 and 11, designed to isolate large of the incoming

0 their inputs are signals of corresponding polarities. ;

The outputs of the elements OR 10 and 11 are connected to the inputs of the element RIGHT-COMPARATOR 12, designed to rectify the signals arriving at its inputs and to compare the received signal with the trigger threshold, the output of the element RIGHT-COMPARATOR 12 is connected to

0 input element 13 time delay, designed to create a time delay in the output signal circuit of the proposed device. The output of element 13 is the output of the proposed device. The output of the € 14 test, designed to verify the health of the proposed control device, is connected to the inputs of the elements OR

0 of the corresponding polarity.

The above blocks and elements are as follows.

Block 1 of the input resistors consists of chains of series-connected resistors 15, and through each of these chains one input of block 1 is connected to the corresponding output. The high voltage impedance resistor in block 1 is used to reliably separate the circuits of the monitored relay protection unit and the control device itself. With such a connection of resistors in block 1, no single damage in the device,

5 control will not be able to change the signals at the control points of protection and its failure to function.

The elements OR 2 and 3 are made according to the standard diode-resistor circuit. The diodes 16 in the element 2 serve to pass only positive polarity signals to the resistor 17, and are connected by their anodes to the inputs of the element 2, and by cathodes to its output. Resistor 17 is connected between the output of element 2 and the neutral wire and serves to separate the signal proportional to the sum of the signals of the positive field at the inputs of the element 1. Element OR 3 is equivalent to element 2 with the difference that the diodes 18 are connected to the inputs with their cathodes element 3, and the anodes - to its output. Resistor 19 extracts a sum signal of negative polarity. The inputs of the item. SUMMATOR-APERIOD RING 4 is connected via resistors 20 and 21 to the inputs of amplifiers 22 in integral form, the input of element 4 connected to the output of element OR 2. is connected by means of a resistor 20 to an inverting input of amplifier 22, and the input connected with the output of the element OR is connected via a resistor 21 to the non-inverting input of the amplifier 22. The resistors 20 and 21 are ballast resistors, and the amplifier is designed to sum and amplify the incoming signals to its input. Between the inverting and non-inverting inputs of the amplifier 22 is a symmetric Zener diode 23, designed to protect the inputs of the forces of the bodies 22 from breakdown. The capacitance 24 and the resistor 25 included in the negative feedback circuit of the amplifier 22 are intended to be provided. proportionality of the output of the signal of the amplifier 22 and the sum of the absolute values of its input signals and the smoothing of the output signal. The degree of smoothing of the output signal of the amplifier 22 depends on the time of the X-Chain consisting of elements 24 and 25. The output of the amplifier 22 serves as an output of the SUMMATOR-APERIODIC element 4. Resistor j26 connected between the (+) and (-) power supply terminals, and a resistor 27 connected between the engine of the rheistor 26 and the inverting input of the amplifier 22 serve to provide the necessary displacement of the operating point of the amplifier 22. I The balancing element 5 consists of a ballast rheistor 28 connected between the input and output of the element 5 and the variable variable a resistor 29 connected to the terminal + of the power supply, the second to the neutral wire, and the slider connected to the output of the balancing element 5. Resistors 28 and 29 are designed to balance to-zero the signal at the output of element 5 on duty of a serviceable and properly configured controlled protection. If necessary, the balancing element 5 can also be performed on the base of an amplifier in a microcircuit version according to the standard adder circuit, with one of the summed signals being the signal input to the element 5, and the second signal being removed from the resistor 29. The selective display unit 9 is completed as follows . Each of its inputs is connected via a button (or switch) .30 with the first output symmet. Zener diode 31. Buttons 30 are designed for alternately connecting the corresponding inputs of block 9 to the first output of Zener diode 31. The chain of consecutively connected buttons 32 and resistor 33 also connected to the first output of Zener diode 31 from the side of the resistor 33, and to the terminal from the button side (+ a) power source intended for checking the health of the circuits of block 9. The Zener diode 31 serves as a threshold organ, not passing signals whose level is below its stabilization threshold, and passing higher level signals through n. A resistor 34 is connected between the second terminal of the stabilizer 31 and the neutral wire to isolate signals above the stabilization threshold of the stabilizer 31. A resistor 35, one output of which is connected to the second terminal of the zener diode 31, is a ballast resistor. Diodes 36 and 37 i connected by their first output; dami to the resistor 35, serve to separate the signals arriving at them by the sign. The capacitors 38 and 39, connected between the second terminals of the diodes 36 and 37 and the neutral conductor, are intended, in conjunction with a resistor, 35, to smooth the incoming signals to them. Resistors 40 and 41, connected between the main terminals of capacitors 38 and 39 and the bases of transistors 42 and 43, are designed to limit the currents in the bases of the transistors. Transistors 42 and 43 are designed to operate as keys. Chains of series-connected resistors and LEDs 44 and 45, connected between the power supply terminals and collectors of transistors 42 and 43, are designed to signal the activated state of block 9. Elements OR 10 and 11 are made similar to elements OR 2 and 3. Diodes 46 and 47 are designed - to separate incoming signals by sign. and resistors 48 and 49 are used to isolate the larger of the corresponding signal arriving at inputs 10 and 11 of the signal. Diodes 46 with their cathodes are connected to the inputs of the MLE 10, block, and their anodes are connected to the output of this element. Diodes 47, on the contrary, are connected by their anodes to the inputs of the element OR 11, and their cathodes are connected to the output of the element. Between the outputs of the corresponding elements and the neutral wire, the resistors 48 and 49 are turned on. The RIGHT-COMPARATOR element 12 is designed as follows. A divider of resistors 50, 51 and 52, 53 intended for providing normal operating modes of the amplifier in micro circuit design 54 is connected to its inputs. The middle point of the divider 50, 51 is connected to the inverting input of amplifier 54, which is designed for operation in comparator mode The midpoint D18litel 52, 53 is attached to a non-inverting one. input to amplifier 54. A resistor 55, connected between the negative terminal of the power supply and the non-inverting input of amplifier 54, is designed. to provide a trigger threshold for the comparator, in which amplifier 54 operates. A symmetric Zener diode 56 connected between the inputs of amplifier 54 is designed to protect the inputs of amplifier S4 from breakdown. Resistor 57 connected by one output to output of amplifier 54 is a ballast resistor, and the diode 58, connected between the second output of the resistor 57 and the neutral wire, is designed to bypass the negative signal circuit, removed from the output of the amplifier 54. The capacitance 59, connected in parallel to the diode 58, together with the resistor 57 It is designed to smooth the waveform j of the amplifier 54 being removed from the output and the transistor 60 supplied to the base. The transistor 60 is designed for operation in the emitter follower mode. Between the emitter of the transistor 60 and the neutral wire, there are included relays with the Pöhr metizirovanny | and contacts 61, intended for electrical separation of the circuits of elements 12 and 13, and a chain of resistor and LED | 62u predisaggerated to signal the condition of the element RECTOR-COMPARATOR 12. Relay contacts 61 serve as the output of element 12. As a time delay element 13, any standard time delay element can be used, for example, an electromechanical or any other time relay with a time delay of 12–15 s. The test element 14 consists of a button 63, one output of which is connected to the terminal / minus of the power source and a resistor 64, one output of which is connected to the second output of button 63, and the second output serving as output of element 14. The proposed device for monitoring the health of the relay protection works as follows. Signals simulating a normal mode of operation are assigned to a protection device whose blocks are to be monitored. In this case, the signals from the control points of the monitored protection blocks arrive at the inputs of the corresponding blocks 1 of the input resistors. Diodes 16 and 18 separate the sig agam by the sign of the half periods. Due to the fact that the resistance values of the input resistors 15 are about an order of magnitude greater than the resistance values of the resistors 17 and 18, the currents in the input circuits of the proposed control device are determined practically by the values of the resistances of the resistors 15. The currents proportional to the sum flow through the resistors 17 and 19 signals of corresponding polarities, and the voltage across resistors 17 and 19 are proportional to these signal sums. The voltage from the resistor 17, proportional to the summed input signals of positive polarity, flows through the ballast resistor 20 to the inverting input of the amplifier 22, trying to cause a negative polarity at its output - proportional to the sum of the input signals of positive polarity. Voltage from resistor 19, proportional to the sum of negative polarity input signals, flows through the ballast resistor 21 to the non-inverting input of amplifier 22, and also tends to cause a negative polarity voltage at its output. Thus, the signal at the output of the amplifier 22 is proportional to the sum of the absolute values of the input signals of block 1 and has a negative polarity. An appropriate choice of the magnitude of the capacitance 24 and the resistance of the resistor 25 provide the necessary. my signal smoothing at the output of amplifier 22, i.e. the output signal of amplifier 22 is practically DC voltage. Its value is set by a resistor 26, which provides an additional shift in the operating point of amplifier 22, at about half the maximum output voltage of amplifier 22. Thus, a negative polarity current flows from the output of amplifier 22 through resistor 28 and part of resistor 29 between it. engine and zero wire. At the same time, a positive polarity flows around the entire resistor 29 from its output connected to the positive terminal of the power source to the output connected to the neutral wire. Thus, it turns out that a part of the resistor 29, located between its engine and the neutral wire, flows around the difference of the indicated currents. By mixing the resistor slider 29, these currents are equal, with the result that the total current flowing through the part of the resistor 29 located between the slider and the neutral wire becomes equal to zero. The voltage across the resistor 29, i.e., becomes equal to zero. at the output of block 5. The chains of the remaining input nodes 7 and 8 are similarly tuned. After the adjustment of the voltage at the outputs of nodes 6-8 is completed, the TC is equal to zero, no signals are received at the inputs of the elements OR 10 and 11, there are no signals and the inputs of the BLINTER1 "1ITEL-COMPARATOR 12" element. By means of the current flowing through the resistor 55 the non-inverting input of amplifier 54, this amplifier is shifted to the negative region of the characteristic. The output voltage 54 is negative; a diode, 58, which shunt the negative signal circuit, prevents it from entering the base of transistor 60. The transistor 60 is closed, the relay 61 is in an inoperative state, the LED 62 is not illuminated. Since the contacts of the relay 61 are open, time delay element 13 does not work and there is no signal of a malfunction at the device output. In the flea 9 there are no signals at the inputs, transistors 42 and 43 are closed, LEDs 44 and 45 are not illuminated, button 63 is open. In such a state, the proposed device for monitoring the operability of the relay protection is put into operation. If, in a monitored relay protection unit, damage occurs that leads to a change in voltage at one or several test points, the voltage at the output of amplifier 22 corresponding to the damaged unit will change and the current flowing through the resistors 28 and 29, oh, amplifiers 22, will change. By this, the balancing element 5 is unbalanced and at its output by the Vits voltage. If, for example, the current from amplifier 22 decreases, a positive voltage on the slider of the resistor 29, if the current from amplifier 22 increases from the initial voltage, a negative voltage on the slider of the resistor 29. Depending on the sign of the voltage at the output of the element 5, this voltage is applied through diodes 46 or 47 to the resistor 48 or 49. If the output voltage is negative, then it goes to terminal 48, if it is positive to resistor 49. In another case, this voltage tends to put the amplifier 54 into the operating state, i.e. in os5; sst positive characteristics. If the input signal of the RECTIFIER COMPUTER 12 turns out to be greater, the threshold of the comparator triggered by the value of the resistor 55, then the comparator is triggered and at the output of the amplifier 54 a positive voltage appears. It is smoothed by a chain of resistp 57 and capacitance 59 and enters the base of transistor 60, as a result of which transistor 60 opens, relay 61 triggers and LED 62 lights up. Relay 61 closes its contacts and starts the element. 13 time delays, which, with a time delay of 10-15 seconds, illuminates on the control panel of the board. The failure of the protection circuits and, if necessary, blocks the defective protection. After the fire on the control panel of the board The protection circuit’s malfunction has to be changed by the maintenance crew. To do this, press buttons 30 on block 9 one by one. When pressing the button corresponding to the faulty block, the output from the corresponding element 5 goes through an external button to the symmetric Zener diode 31 Since, the incoming signal exceeds the stabilization threshold of the Zener diode 31, a voltage appears on the resistor 34 and through the corresponding diode 36 or 37 the capacitance 38 or 39 is charged. the corresponding transistor 42 or 43 opens and the LED 44 or 45 starts to glow. The glow of any of the LEDs 44 or 45 indicates that the protection unit, which corresponds to the pressed button 30, is faulty. The defective unit detected in this way is replaced with a healthy one. The protection of the inputs of the amplifiers 22 and 54 from the breakdown with large discrepant signals provide symmetrical Zener diodes 23 and 56, respectively. If all the monitored protection blocks are intact, then due to temperature and other permissible changes in the parameters of the elements of their voltage circuits at their control points may vary within a small range. In this case, small in magnitude signals appear on the output of the corresponding elements 5. Large of these signals are separated by resistors 48 and 49 and are fed to the inputs of element 12. The comparator performed on amplifier 54, however, will not work as its threshold triggered offsets, such signals from the imbalance. Apart from such signals, the imbalance and stabilization threshold of the Zener diode 31, therefore, block 9 also does not feel such imbalances.

In the alarm mode of the monitored protection (in case of damage in or out of the protection zone), large unbalance signals may occur at the outputs of the elements 5, since the balancing of elements 5 in these modes may be disturbed. In this case, element 12 will operate, and the relay 61 will trigger its contacts and start time delay element 13. However, time delay element 13 has a delay of 10-15 seconds (and if it is required, something else), it is rebuilt in time from the alarm mode of the monitored protection and us its output, i.e. at the output of the proposed device for monitoring the operability of the relay protection, the signal in the alarm mode does not appear if the protection is intact.

To check the operability of the proposed device itself, it is necessary to press button 63. At this, all elements 5 should be unbalanced, LED 62 should light up and when any of the buttons 30 is pressed, LED 44 should be lit. The LED 45 and its associated circuits are checked by pressing button 32.

The proposed device for monitoring the protection of the relay protection reveals not only the instantaneous failures of the elements included in the monitored units, but also the misalignment, as well as the departure of parameters for another reason. Involvement of personnel in the monitoring process in case of application of the proposed device reduces only to elimination of the arisen malfunction after it is detected. Finding a damaged unit is not difficult - this is done by simply pressing a button on the selective display unit of the proposed device. The appearance of the damaged part inside the block is not required, since the damaged block is replaced entirely

The experiments performed show that the proposed monitoring device also allows monitoring the operability of transition contacts in connectors, the operability of auxiliary wiring circuits of a protection device, etc.

The proposed device has more functionality than the well-known

0 is able to provide control not only of such protection blocks, the signals at the control points of which are DC voltages, but also AC voltages, unchanged in magnitude

5 duty protection mode.

As a base object, a health monitoring node, removable protection cassettes installed in pilot operation at substations has been adopted

0 Yuzhnosahalinsk Paronaisk and Kholmsk in the Sakhalin energy system. Compared with the basic object, the proposed device has wider functional

5 possibilities, as it is capable of depreciating the control of not only such protection blocks, the signals at the control points of which are DC voltages, but also the voltages

0 AC, unchanged in magnitude in the duty protection mode. In addition, the proposed device is based on the control of five removable ones. , blocks (cassettes) of protection, like this

5 takes place in the base object, is simpler in construction (has about 1.5 times less parts than the base object). Consequently, it increases by 1.5 times, reliability, decreases in size, decreases

0 cost.

The effectiveness of the use of the proposed device for monitoring the operability of the relay protection will be expressed in a decrease in the number

5 false, unnecessary actions of relay protection, as well as failures of the controlled triggering signals, i.e. in enhancing relay protection. All this will reduce

0 damage from the unreliability of relay protection. The specific amount by which the damage will be reduced will depend on the complexity of the controlled protection, its principle of operation, type of

5 and features of the protected object.

Claims (1)

DEVICE FOR MONITORING RELAY PROTECTION PROPERTIES WITH η INPUT GROUPS, which contains input resistor blocks, the inputs of which serve as device inputs, a test element, two diode-resistor elements OR, to the outputs of which are connected the RECTIFIER-COMPARATOR element inputs, time delay element, the input of which is connected to the output of the RECTIFIER-COMPARATOR element, and the output serves as the output of the device and the selective indication unit, characterized in that, in order to ensure the health monitoring of the protection units with control signals lamas of alternating current; unchanged in standby mode, 2 η diode-resistor elements OR, I SUMMER-AERIODIC RING elements and n balancing elements are introduced into it, and the inputs of each pair of input OR elements are connected to the outputs of the corresponding block of input resistors, the inputs of each SUMMATOR- element Aperiodic link is connected to the outputs of two corresponding OR elements, and to its output is connected the input of a balancing element, the outputs of each of which are connected to the inputs of two corresponding elements s OR and the selective indication unit, and the output of the check element is connected to one of the inputs of the IDN elements of the corresponding polarity.