SU1026192A1 - Device for testing current protection - Google Patents

Abstract

A DEVICE FOR TESTING THE CURRENT PROTECTION1 containing a series-connected transformer with a pulse shaper, a frequency divider, a key, a reversible counter, the outputs of which are connected to the thyristor control unit for coarse current control, the thyristor control unit for current smoothing, the load resistances in the thyristors circuit, current transformer, connected through fixing ammeters, to the circuit of the tested protection, which is so that, in order to reduce the time for checking the response current and returning the protection while maintaining the accuracy of determining the response current and return, a second reversible counter, second, third, and fourth keys, counting triggers of the binary counter for recording the number of operations and returns, matching element, and AND elements are added, and the second input is connected to the output of the frequency divider summing the second reversing counter, via the third key-in (L subtracting this counter, and its height: the turns are connected to the inputs of the thyristor control unit, continuously adjusting the current and through Element Y and the fourth key are connected to the subtract input of the first reversible counter, the key lock inputs are connected to the outputs of the binary trigger counting trigger triggers of the number of operations and returns, which is connected through the matching matching element to the output of the binary counter, and the binary counter outputs are connected also through elements And with thyristor control units of coarse and smooth current control and fixing ammeters.

Description

The invention relates to electrical engineering, in particular, to devices for the relay protection of energy circuits, in particular, to devices for setting and checking settings for the operation of current protection and current relay. The UIA-U5052 test devices are known, which include a K513 unit, which provides manual current control and measurement using an ammeter with a current transformer. The K513 unit includes an input transformer, resistors, switches, current transformer, ammeter, taking into account the wide range of current settings for current protection operation (from fractions of amperes to 150A), at high current currents it is necessary to limit the time of current flow through the tested relay or protection to exclude Damage to their elements in these modes due to overheating, as long as the permissible input current is usually less than 10A. The K513 device does not allow a sharp decrease in the time of the flow of large currents when manually adjusting the current. The closest in technical essence to the present invention is a device for automatic control of the actuation current of a fully automatic control device for the protection of BBV generators. The automatic current control device contains a series-connected transformer, a digital-controlled resistance, a current transformer, a measuring input (current sensor), a measuring element of the tested current protection, a pulse counter, and a current pulse generator. From the current protection measuring element, through the pulse shaper, the signal arrives at the stop of the counter, which through the control circuit is connected to the keys on the triads of all 8 bits, in whose chains there are corresponding load resistances. The start of the pulse counter occurs at the moment of starting the current pulse generator. After the protection element triggers, the input current does not change and can be read by a digital ammeter. The known device is embedded as part of the automatic control device in the generator protection kit and provides automatic linear (step) current control from O to ISA. Due to the small current settings (up to 15A) in the device, it is not necessary to limit the duration of the current flow and it does not turn off after the protection has been activated. In maximum current protections, where the setting range is wider, accurate fixing of the response current when it changes linearly requires maintaining small current ramp up levels, which determines a considerable time for high currents to flow and makes possible damage to the input current protection circuits due to overheating . The purpose of the invention is to reduce the response time of the response current and the return of protection while maintaining the accuracy of determining the fault current and the return current. The goal is achieved in that a device for testing current protection, containing a series-connected transformer with a pulse shaper, a frequency divider, a key, a reversible counter, the outputs of which are connected to a coarse current control unit of thyristors, a smooth current control unit, load resistances thyristor circuits, a current transformer connected through clamping ammeters to the circuit of the tested protection, a second reversible counter is additionally introduced, the second one, t retiy and fourth keys, counting triggers of the binary counter of fixing the number of operations and returns, matching element and elements AND, while the summing input of the second reversible counter is connected to the output of the frequency divider, and its outputs are connected via the second key to the inputs of the thyristor control unit of smooth current adjustment and through the second element I and the fourth key are connected to the subtraction input of the first reversible counter, the key lock inputs are connected to the outputs of the circuit binary trigger triggers for fixing the number of operations and returns, the input of which is connected via the matching element to the output of the protection being tested, and the outputs are also connected via AND elements to the coarse and smooth current control thyristor control units and fixing ammeters. FIG. 1 shows a block diagram of a current test device for a shield; in fig. Figure 2 shows a comparison of the rise time of the current before the protection trips with its linear / variation with the same small steps (curve 1) and with the change, the current is initially coarse steps and then the small steps for accurate measurement (curve 2). At the same time, the detection time of the operation current and the return of protection can be dramatically reduced. The device consists of a transformer 1 with a limiting amplifier and a pulse shaper; a frequency divider 2 for generating pulses longer than the protection response time; keys 3-6; . reversible pulse counters 7 and 8; element and 9; units 10 and 11 of the control, by thyristors of coarse and smooth current adjustment; block 12 containing thyristors and resistances; current transformer 13; digital fixing ammeters 1Л and 15; use tested secure 16 or current relay; matching element 17; counting trigger 18 binary counter fixing the number of operation and return elements And 19 and 20. The device for testing current protection contains a transformer 1 block to the secondary windings of which are connected to the amplifier-limiter, converting the sinusoidal voltage into rectangular pulses, corresponding to the duration of a positive half-wave voltage and with a pause corresponding to a negative voltage half-wave .-. At the same time, thyristors with load resistances (block 12) and a circuit for managing these thyristors in, circuits with coarse current control (10) and in circuits with continuously adjustable current (11) are connected to this transformer. The output of the limiting amplifier of block 1 is connected to a divider 2 frequency, which forms the pulse duration exceeding the response time of the current protection to a multiple of an integer number of frequency periods of the network. To the output of block 2, keys 3, 5 and 6 are connected to the input of reversible counters 7 and 8, the outputs of which bits are connected to the inputs of the thyristor control circuits 10 and 11. 1 92 4. At the time of launching the circuit, all outputs of the reversible counters 7 and 8 and counting flip-flops 18 are set to the state O on the direct outputs. Since before the protection is triggered on the blocking inputs of the key 3, the signals are 1, and on the blocking inputs of keys 5, and 6 are signals O, the pulses from the output of the frequency divider arrive only at the summing input of counter 7 via key 3- At the subtracting input, counters 7 and 8 and summing at the input of the counter 8, the signal 1, the counter 7, through the control unit 10, turns on the coarse ret thyristors. the current is boosted in block 12 and through the current transformer 13 and ammeters} k and 15, which fix respectively the operation and return protection currents; at the protection input, the current varies in large steps to a value different. or higher current protection operation. 8, the moment of the first protection actuation, the signals at the outputs of the matching element 17 and on the direct and inverse outputs of the first counting trigger 18 change. At the same time, the blocking inputs of the keys 3 and 5 signal O, and the summing inputs of counters 7 and 8 signal 1. On the blocking inputs of the keys and 6 signals 1, and therefore, through these keys, the subtractive inputs of counters 7 and 8 can receive input pulses. A jerk impulse received from splitter 2 frequencies through key 6 to the subtracting input of counter 8 will change the state of all its outputs O to G, so at this moment one impulse will go through element 9 and key k to the subtracting input of counter 7i counter 7 reduces the output current by an amount equal to the current when all the bits of counter 8 are turned on; in this case, the current at the protection input will not change, since the first subtractive pulse at the input of the counter 8. in the first section reads all its bits and reduces by one pulse output sig state of the counter 7. When the next pulses arrive at the subtraction input of the counter 7, its outputs will have different combinations of signals O and 1 and through the And 9 element and the key k to the subtracting input. the counter 7 will not receive more pulses until the all-Outputs of the counter 8 again receive the O signals. Consequently, the current at the output of the protection 16 begins to decrease in small steps to a value equal to or less than the return current of the pro- tected protection. When selecting a four-bit reversible counter 8 (K155IE7 chip) and using three bits in the counter 7, the sensitive current control level will be about 0.8%. At the time of return of the current protection, the first trigger on the input of the O device is set at the direct output to O and switches the second additional counting tri1-ger 18. At the same time, on the blocking inputs of keys 3 and 6 there will be a signal O and on their outputs signals 1, and on the blocking input of key 5 a signal 1 and through key 5 pulses from splitter 2 amounts Calculating the input of the counter 8. When. This includes, through element 11, the thyristors of the smooth adjustment of the current and the current at the protection input in small steps increases until it triggers. If at the moment when the current reaches the return current through the element 20, a signal is sent to memorize the value of the return current by the ammeter 15, then at the moment of the second (accurate) protection operation, the element 19 will receive a signal to memorize the value of the protection operation current by the ammeter 1 and then through blocks 10 and 11, all the thyristors of block 12 will be turned off. The proposed device for testing overcurrent protection reduces at times the detection current of the operation and the return of the maximum current protection depending on the setpoint, while maintaining a high accuracy of the setting of the operation setpoint even for protection with a time delay. Thus, at high protection currents, the test time is reduced by 5 times, and at current in the middle of the range, the test time is reduced by 3 times. In this case, the power consumption during testing is reduced by reducing the time | 1 of the current flow, the likelihood of damage to the input circuits of the current protectors during the flow of a large current due to overheating, as well as the productivity of commissioning and testing of protection devices, decreases.

MOX

U9.2

Claims (1)

DEVICE FOR TESTING CURRENT PROTECTION1, containing a series-connected transformer with a pulse shaper, a frequency divider, a key, a reversible counter, the outputs of which are connected to a control unit for thyristors of coarse current regulation, a control unit for thyristors for smooth current regulation, load resistances in the thyristor circuit, current transformer included through the clamping ammeters into the circuit of the tested protection, which is so that, in order to reduce the time for checking the operating current and returning the protection when In order to injure the accuracy of determining the response and return currents, a second reverse counter, a second, third and fourth key, counting triggers of a binary counter for fixing the number of operations and returns, an adjustment element and AND elements are added, while the summing input is connected to the output of the frequency divider the second reversible counter, through the third key-input subtraction of this counter, and its outputs are connected to the inputs of the thyristor control unit, smooth adjustment of the current and through the second element And and four This key is connected to the subtraction input of the first reversible counter, the key blocking inputs are connected to the outputs of the counting triggers of the binary counter for fixing the number of operations and returns, the input of which through the matching element is connected to the output of the tested protection, and the outputs of the binary counter are also connected via AND elements to thyristor control units rough and smooth adjustment of current and fixing ammeters. SU.,. 1026192 1026192 '2