DE1588417C - Distance protection or differential protection relay circuit - Google Patents

Description

3 4

Connect the protective relay circuit mentioned at the outset thereby encoder. The pulse generator can be used as solved that to the integrator one of an arrangement with a separate time circuit from-exciter or a pulse generator coming, be guided. The query pulses can, however the integrator with an enable signal also using current or voltage, impacting first line is connected that 5, for example, the zero crossings of these quantities, to the integrator also derive one of a pulse network to be monitored. With return coming, the integrator looks for a switch-on process, but it is favorable, To provide multiples of half a period with an interrogation - per se known reminder circuits, second line applied to the signal connected so that even after the quantity used is no longer used is and that the output of the integrator is on an io - for example when the collapse flip-flop that gives a switch-off command switched voltage in the event of a short circuit - the one for the measuring circuit required query pulses can be derived

When the integrator is queried, this will be possible.

the output of the same connected flip-flop In the following, the invention is to be released on the basis of the, so that this embodiment can address in more detail in the case of a positive memory 15 drawings, while it is explained in the negative, from which further details memory content in the non-addressed state ver as well as other advantages; thereby shows
remains. Furthermore, the memory content of the integrating F i g. 1 the structure of a rectifier bridge element can be deleted at the end of the query. circuit for a protective relay circuit and
It can be seen from this that the integrator of the 20 F i g. 2 the structure of a distance protection relay with the subject matter of the invention a significantly different on, distance and direction measuring element.
would be fulfilled as the smoothing capacitor according to In F i g. 1 is from a distance relay or differen cited French patent. tial relay only those related to the

Furthermore, it is advantageous due to the rectifier bridge scarf line which is of interest to the first invention given signal shows the memory content of the 25 device. The remaining parts correspond to the wide integrator to be deleted so that the execution of the protection relays known before starting, The history of the integration did not neglect to reproduce it evaluates wildly. would. - The rectifier bridge circuit exists

A particular advantage of the rectifier bridge 1 according to the invention, the protective relay circuit via terminals 2, 3, is the interrogation of the triggering measured variable (for example, a memory content of the integral element at defined line current / proportional current //) at times of multiples of half a period will. Given an output terminal of bridge 1. As a result, on the one hand attenuation is directly connected to a line 4, the other output devices in the case of the advantageously implemented as an electronic terminal via a resistor 5 with a line 6 circuit and thus inertia-free tilting circuit. The blocking measured variable (example element is omitted, and on the other hand an Ar current iu constant under the various measuring conditions proportional to the line voltage U ) is achieved by a further rectifier bridge 7 at the time of the protective relay circuit. They are supplied via terminals 8, 9. One output terminal working time is at least the same as that of bridge 7 is directly connected to line 4, the other working time, which in known rectifier bridge 40 output terminal reaches via a resistor 10 with the circuits under optimal conditions, line 6 is connected. Has been in the common diagonal. In spite of the rectifier bridges 1, 7 according to the invention, a linear integrating protective relay circuit is also arranged under the unfavorable element 11, to which the consistently short working time difference | Ai | the rectified input variables are not more susceptible to interference; because the 45 (| // |, | / u |) is fed. The output 14 of the integration of the integrating element that is to be connected in the bridge circuit is applied to a variable which is not shown and results in a multiple element in each case (for example a Schmitt trigger). Half a period is an exact response criterion. Integrating element 11 is also connected to a first line 12. In addition, the influence of the measured variables and a second line 13 are connected. The integrating element is started, practically switched off, via the superimposed interference pulses through the integrating element 50 first line 12. that is, the integration is released. About the

The second line 13 in the protective relay switch according to the invention is used to query the memory

Device provided measuring circuit can both as the content of the integrator 11, in which, for example

Current comparison circuit as well as the voltage output 14 of the integrator 11 to the input

comparison circuit are carried out. In the 55 of the flip-flop is switched through. As a linear

The current comparison circuit generally referred to above is a circuit known per se

the linear integrator is provided in the common.

In the case of a distance relay, the first arranged. In the case of the voltage comparison line 12 with the output of a not shown The circuit are the rectifier bridges resistors 60 and the second line 13 with the exciter downstream, which are connected to one another in this way, output of a started or freidaß by the exciter connected to the given impulse generator (not shown) with a blocking and triggering effect. When using the rectifier bridging counteract. The difference between this voltage circuit according to FIG. 1 in a differential relay waste is then fed to the integrator. 65 the connection of the first line 12 is omitted

It is advisable to use the second one for querying a starter relay. The line 12 is then also

provided line to the output of one of the connected to the pulse generator, from which then

Stimulator started or released impulses - probably the start impulses as well as the interrogation impulses

5 6

to be delivered. In this case - as known - line 12) and the query of the memory content

the tripping effect of the rectifier bridge 1 (signal via line 13) takes place in one of the

guided current from differential current, the blocking digital measurement and control technology known

effective current supplied to the rectifier bridge 7,

derived from the through current. 5 F i g. 2 shows schematically the structure of a distance

The mode of operation of the rectifier bridge switching relay with a distance measuring element 27 and a

according to Fig. 1 is the following: direction measuring element 28, which is in rectifier bridge

The phase position of the rectifier bridges 1 and 7 circuit according to FIG. 1 are executed. The supplied triggering or blocking arrangements for the delivery of the start signal as well as alternating variables can be different, especially in the case of an error io of the interrogation signal. This means that the quantity \ Ai \ Mit U and / are the voltage or current carried by the monitored network can assume both positive and negative values. The values of | Ai \ repeats denoting sizes. These are the distance each after half a period. From the size measuring element 27, the direction measuring element 28 and an I Ai I, the presence of an excitation element 20 can thus be supplied directly. Unless no underimpedance error is found. It is only the integration via an excitation, but rather an overcurrent excitation half a period ago, that provides a usable error criterion; The output period of integer multiples of a half of the excitation element 20 is extended to an input of a period. The selected integration duration 20 AND-GIiedes 21 connected, at the output of which is specified by means of the pulse generator, whose first line 12 and the input of a response interrogation pulse are connected via line 13 to the integration delayed time relay 22. The member 11 is there. With a differential relay, the speech delay of 22 is corresponding to the pulse generator after a query pulse over the desired integration duration of the integrating elements, the first line 12 also a start pulse, through 25 of the distance measuring element 27 or the direction measuring element the integrating element 11 is selected to its initial state element 28 - that is, one half period that is reset and restarted. Corresponding mains voltage or an integral multiple of reset circuits are also examples thereof. The affirmative output of the timing relay 22 is already known from sawtooth generators. In the case of one with the input of two drop-out delayed distance relays, the 30 timing relay 25, 23 given via the line 12 is connected. The negated output start pulse from a separate excitation element as well as a timing relay 25 is passed to the second input of the, whereby the integrating element 11 is reset and started on its an-and element 21, the affirmative output of the other initial state and the timing relay 23 to the second line 13 connected. Pulse generator for the Abfiageimpulse released By means of the timing relay 23, the intended Abfiage. 35 question time of the integrating links from 27 or 28, by means of 25

Each interrogation pulse given via the line 13 sets a pause time, which pause time is greater switches the output 14 to the downstream or the same as the interrogation time.
The lines 12 and 13 lead to the integrating memory content of the integrating element 11 - that is, positive elements of the distance measuring element 27 or the directional charge of a time-determining capacitor - an- 40 measuring element 28, which corresponds to the one in F i g. 1 and are executed in the exhibited circuit if the memory content is negative. The outputs 14 'state remains. The mentioned flip-flop element of 27 or 14 "of 28 lead to an AND element 29, then emits the signals for triggering in the usual way when a signal is present on 14 'and 14" and sends a message. Output signal to a downstream, not shown

However, it can also be advantageous to emit the flip-flop element placed at the output 45. The flexible link can

of the flip-flop element connected downstream of the integrating element - as in connection with the description

to connect a memory element, which only after more- F i g. 1 executed - a storage element connected downstream

times the pulse of the flip-flop element - more expedient - so that a trigger signal is only triggered when repeated

wise two impulses - emits an output signal Existence of the response condition is emitted,

and its memory content if the excitation 50 The distance relay according to Fig. 2 works as follows:

condition is deleted. Duich the storage element in the trouble-free operation of the network to be protected

If, above all, a desired insensitivity is the response condition for the excitation element 20

compared to switch-on processes on lines as well as not fulfilled. The AND element 21 therefore does not exist

increased security against interference pulses achieved. Output signal and the distance relay is blocked.

In place of the above-mentioned embodiment of 55. In the event of a fault, the excitation integrator 11 can also be used to address a counting memory element 20. Since the distance relay was blocked, it is necessary to provide one which is also suitable for counting up and down from the negated output of the timing relay 25. In the counting memory - accordingly, a signal is forwarded, with which the and the sign of Ai given by 21 - adding or subtracting condition is fulfilled. The output signal of the pulses entered here, the number of which is proportional to the value 60 AND element 21, the response-delayed time of I Ai I. However, relay 22 and the integrating elements of the distance element can also be inexpensive, not Ai being started in a digital value around the direction measuring element 27, 28. Setting the start, but doing this already for the measured variables themselves, causes the memory to be deleted at the same time, so that immediately the triggering contents of the integral elements. - If within the active measured quantities, adding, the blocking is entered into the counting memory speech condition and thus the output signal from. If the content of the 20 is deleted, the distance relay is immediately blocked again. Counting memory as well as its release (signal via the This results in a desired security against

Glitches. However, if the pickup condition remains, after the delay time has elapsed, the Timing element 22 emits a signal by means of which the time-delayed timing elements 23, 25 are narrowed. While the delay time, the signal from the negated output of the timing relay 25, the AND condition, is omitted 21 is no longer fulfilled, and the integrating elements of the distance and direction measuring elements 27, 28 are no longer acted upon by any input variable. - At the same time now appears during the delay time of the timing element 23 an interrogation signal, which via the line 13 also the integrating elements of 27,28 applied, with which their memory content is queried. Provided that there is a positive during this query If there is a signal at the outputs 14 'and 14 ", a signal also appears at the output of 29. Then the trigger condition is fulfilled, which - if necessary after repeated occurrence - to leads to a shutdown of the power supply unit to be protected.

If the trigger condition is not met or not met if the query is repeated, after Expiry of the drop-out delay of the timing relay 25 again from the negated output via the line 26 a signal given to the AND element 21, so that if there is still a signal from the excitation element 20 a new one The distance and direction measurement is carried out in the manner already described.

The circuit according to FIG. 2 can be further simplified if the dropout delays of the timing relays 23 and 25 are the same size. Then the time relay 25 can be omitted and the second input of the AND element 21 can be connected via line 26 to the negated output of timing relay 23. If a response and dropout delayed timing relay is provided, only this is required. then the output of the excitation element is also connected to an input of the AND element 21, at which Output the first line 12 and the input of the response and drop-out delayed timing relay connected are. Next are the negated output of the timing element with the second input of the AND element 21 and the affirmative output of the timer is connected to the second line 13. the The response delay of the timing element is set according to the desired integration time of the integrating element, the drop-out delay is selected according to the query time for the memory content of the integrator. The advantages achieved by the invention are in particular that a fast size comparison measuring element for protective relays of the type mentioned was specified, which is preferably as a rectifier bridge circuit is executed and has a short, defined response time. In contrast to known distance relays with rectifier bridge circuits the response time is retained even towards the end of the range.

1 sheet of drawings 209520/232

Claims (5)

Claims · ^ me rectifier bridge circuit represents a size comparison measuring element with which the triggering 1. Distance protection or differential protection relays and blocking measured variables in their arithmetic circuit according to the size comparison method, metic mean value after being weighed. That the triggering and blocking acting 5-like measuring elements are relatively slow, as the actual measured variables each a rectifier bridge circuit lent measuring element - usually a moving coil relay - one are supplied, in the common Diago- has to show certain inertia and damping. nalen a linear integrator is arranged, as is known, there are namely rectifiers as a result characterized that on the bridge circuits due to phase shift integrator (11) a period of time determined by a stimulus element during which a or a pulse generator, coming, the integrating equal of the instantaneous values of the measured variables to one Member (11) with a release signal applied wrong decision of the actual measuring element feel first line (12) is connected that to the wüide. To prevent wrong decisions is therefore Integrating element (11) furthermore one of a pulse- the measuring element with a certain inertia and encoder coming to provide the integrator (11) after 15 damping. Replacing the moving coil one Multiples of half a period with a relay by an electronic element would thus The second line (13) applying the query signal hardly leads to shorter working hours, is connected and that the output (14) of the integrator as far as the measuring duration is also in this case (11) on a switch-off command must be stretched until there are no impermissible ones giving flip-flop is switched. 20 measurement errors result. In other words: it 2. Distance protection relay circuit according to claim 1, is a certain also with electronic elements characterized in that the second conduit (13) provides inertia and damping. - The shortest with the output of one of the excitation element (20) working time of size comparison measuring elements For these reasons, started or released pulse generators fail for at least one period of the is bound. 25 monitored change sizes. 3. Distance seat relay circuit according to claim 2, the above-mentioned shortest working time characterized in that the output of the but only under certain optimal Be-excitation member Reach (20) with an input of an unconditional. So, as is well known, increases with that Element (21) is connected, at the output of which distance measuring element of a distance relay the working time the first line (12) and the input of an at-30 towards the end of the range increase considerably while they sprechverzöget th timing relay (22) are connected, at the direction measuring element of the same in the vicinity and that the affirmative output of this timing relay of the relay installation location can be greatest. this each with the input of two fall-delay is a very big disadvantage, as for the setting of the Time relay (25, 23) is connected, the negated graduation times of a distance relay being the larger work output of a drop-out delayed timing relay 35 times of distance and direction measuring elements to the second input of the AND element (21) must be taken into account. and the affirmative outcome of the other falling - so that appears for electronic measuring elements delayed timing relay to the second line (13) size comparison method is fundamentally at a disadvantage are connected. to be compared to a phase comparison method. 4. Distance protection relay circuit according to claim 2, 40 This is likely to have caused that most characterized in that the output of the proposals for electronic measuring circuits for The excitation element (20) with an input of the AND distance relay is based on phase comparison methods. Link (21) is connected, at the output of which the In the latter one always has a defined knife first Line (12) and the. Receipt of a persistence, which also occurs in the event of an error towards the end of the speech and drop-off delayed timer increases 45 range does not increase. On the other hand, however, that are closed, and that the negated output size comparison measurement drive certain advantages Move the timing element with the second input of the And opposite the phase comparison video. So can Element (21) and the affirmative output of the time, for example in a circuit for an elliptical member with the second line (13) connected characteristic with a single measuring element a characteristic are. 50 with a considerable arc reserve. 5. Distance protection relay circuit according to claim 2 from French patent 1347 586 is or one of the following, characterized in, a protective device in rectifier bridge Schaldaß at the output of the integrator (11) device has become known, in the at least two measuring downstream Flip-flop element a storage element · sizes are compared with one another. In the community is, that after multiple pulses 55 seeds diagonals of the rectifier bridge circuit emits an output signal from the flip-flop and a smoothing capacitor is provided, which in Verdessen If the excitation connection with a Zener diode is lost, the memory content is the one to be compared condition is deleted. Tensions integrated and stabilized. The comparison of measured variables takes place continuously. 60 The invention is based on the object of a working according to the size comparison method The invention relates to a distance protection, punch protection or differential protection relay circuit on or differential protection relay circuit after the admit, which has a short constant working time size comparison method in which the triggering and has. In particular, this working time should not be fed to a rectifier 65 End of the range of a distance measuring element or in a bridge circuit, in the vicinity of the relay installation location, in the vicinity of which a linear integrating element measuring element rises in the case of a diagonal in common direction.
is arranged. According to the invention, this object is achieved in