DE1263911B - Distance relay with elliptical characteristic - Google Patents

Description

Distance relay with elliptical characteristic curve The invention relates to a distance relay with an elliptical characteristic, consisting of a polarized one Relay and at least three rectifier arrangements, with one rectifier arrangement one variable proportional to the line current in the triggering sense and a second one and third rectifier arrangement of line voltage proportional to or derived from line current and line voltage derived quantities can be supplied in the blocking sense.

It is known to use impedance measuring devices for distance protection of lines to be provided with a circular characteristic. These are mainly used for the protection of Cable routes and longer overhead lines are preferred, as none in these cases special arc reserve is required. In the case of cable routes, there would even be a Arc reserve can be disturbing because of the small conduction angle, as this is in the Impedance level in the direction of the effective resistance causes a shift in the characteristic curve, an undesirable increase in the minimum length for a cable to be protected is equivalent to.

Furthermore, mixed impedance measuring devices are known which consist of an impedance measuring device with a circular characteristic, the center point of the characteristic in the Impedance level is shifted in the direction of the effective resistance. This results in a sufficient arc reserve for many cases. The shift of the center point is selected according to the respective pipe angle.

With impedance or mixed impedance protection devices Cable and overhead line routes in the majority of all cases against line faults protection. A particular advantage of these protective devices is that the relay Have it checked with relatively simple means even when installed. - disadvantageous With these protective devices, there are short overhead lines and overhead lines Do not allow protection with above-average spacing between conductors. Furthermore, the Effectiveness of such a protective device is in question when the relay must work with increased base time, since the arc resistance is then considerable can increase.

There is also a distance relay with an elliptical characteristic known. This enables large arc reserves. However, it has the following Disadvantages: It is difficult to protect short cable runs in particular, because in this case there are uncertainties in the range. The latter is on the one hand due to the lower available measurement energy in the vicinity of the characteristic curve of a relay and on the other hand by the grinding cutting between elliptical characteristics and impedance vector for small conduction angles occurring in cable runs. Furthermore, the minimum cable length still to be recorded is determined by the arc reserve enlarged in a cable route in an undesirable manner.

Another difficulty is having to test a relay elliptical characteristic curve, since it is used to record the characteristic curve for current and voltage must be out of phase. A test with in-phase currents and voltages namely results in great uncertainties. These are through the two parallel connected, Rectifier arrangements acting in the blocking sense, which - in contrast for pure impedance measurement - can be subjected to different currents. As a result of the current dependency of the rectifier resistances, there are therefore for these rectifier arrangements have different internal resistances and thus different, depending on the current occurring repercussions with regard to the response of the Relay.

The invention is based on the object of creating a distance relay, which does not have the disadvantages set out above. In particular, it is said to be universal and can also be used for protecting short cable stretches and short overhead lines be. In addition, when installed, it should deal with the known impedance or have mixed impedance protection devices checked.

This object is achieved according to the invention in the distance relay mentioned at the outset solved in that a changeover switch is provided in the circuit of the current-proportional size is located in a switchgear Jung connected the third as well possibly the second rectifier arrangement with the current-proportional size establishes and in the other switch position this connection is released, whereby in the latter switching position, a circular characteristic results that the elliptical characteristic curve, which results from the first mentioned switch position, cuts.

By switching off the current influence in the blocking sense Acting rectifier arrangements result in a circular characteristic curve and thus the previously unknown possibility in a network with short cable runs to protect both cable and overhead lines with the same relay, although a considerable arc reserve must be provided for short overhead lines is, while with short cable runs the one caused by an arc reserve Increasing the protected area undesirably reduces the minimum length of the protected area Cable increases. In addition, the switchover creates the possibility of a relay with an elliptical characteristic curve in the same way as an impedance relay, So with in-phase currents and voltages, to check, It thus results the same setting devices for the line length for the relay according to the invention as for known impedance relays, but with the transition to the elliptical characteristic the setting - similar to the transition in the mixed impedance measurement - with a correction factor is to be provided. Compared to the mixed impedance measurement there is even the advantage that that no separate setting device is required for the correction factor. Rather, the correction factor is set on the existing impedance scale.

Another advantage of switching off the line current proportional The size of the rectifiers acting in the blocking sense is that during a test all rectifier arrangements are also recorded. The exam can take place on Installation location of the relay can be made with in-phase currents and voltages. The correct transition to the elliptical characteristic curve by restarting the 'current influence can be determined by simple control measurement by the function of the relay, for example in the case of a three-pole, by means of a test device Error is checked, whereby the phase connections are reversed.

The invention is explained in more detail below with reference to FIGS. 1 and 2 be, where F i g.1 an embodiment of the measuring circuit of the invention Relay shows and in F i g. 2 shows the characteristics of the relay. In the F i g.1 shown measuring circuit consists of the rectifier arrangements 1, 2, 3, in the diagonals of which a polarized relay 4 is arranged. The rectifier arrangements 1, 2, 3 are designed schalturig in the center, each being the center the secondary winding of the converter 31, 32, 33 is connected to the line 10, 10, and connected to the line 9 via resistors 11, 12, 12, 13. Between these and a capacitor 14 and an inductor 15 are also provided for the relay 4.

The rectifier arrangement 3 is fed via the lines 5, 6 by a quantity proportional to the line current 1. It acts in the triggering sense on the relay 4. The rectifier arrangement 3 is fed via the lines 7, 8 by a variable proportional to the line voltage U. The rectifier arrangement 2 is fed by a difference variable proportional to the line current 1 and to the line voltage U. Both rectifier arrangements 2, 3 act in the blocking sense. Auf the relay 4. This results in the measurement criterion 111 = 1U-IclI + IUl, (1) if the current in / uss on the rectifier arrangement 2, e.g. B. by screwing a plug into the socket 16 is switched on. In this case, the relay has the functions shown in FIG. 2 with a largest diameter D. A focal point of the ellipse coincides with the installation location of the relay, which corresponds to the origin of the R, X coordinate system in the impedance plane. The latter is due to the fact that the rectifier arrangement 3 is only supplied with a quantity proportional to the voltage U. The factor k in equation (1) is a measure of the eccentricity of the ellipse. It corresponds to the distance to that in FIG. 2 not shown second focal point of the ellipse. If k is made zero by switching off the current influence on the rectifier arrangement 2 by screwing the plug into the socket 17, the result is the circular characteristic curve 21 with the radius D / 2. The center of the characteristic curve 21 is also at the origin of the R, X coordinate system. The measurement criterion is then 111 = 1uI + JUI- (2) The point of intersection between the elliptical characteristic curve 20 and the circular characteristic curve 21 is denoted by P. It results from the choice of k. In the exemplary embodiment, the point of intersection corresponds to a line impedance with an angle of 35 °. For this line angle, the range of the distance relay is the same for elliptical and keel-shaped curves.

In the exemplary embodiment, the k-factor is determined by the choice of the number of turns the winding 25 is fixed. However, it may also be useful instead of one fixed winding counting to provide a winding 25 with different taps, with which then also ... the eccentricity of the ellipse can be adjusted.

In Fig. 2 are also the impedance vectors for conduction angles entered from t0 and 20 °. A conduction angle of Q60 ° corresponds to one in medium-voltage networks Frequently occurring value for overhead lines, corresponds to a line angle of 20 ° a common value for cable runs. One takes from the characteristic curves 20, 21 of FIG. 2; that with the 'relay according to the invention both short distances protect overhead lines as well as short cable runs. The arc reserve RL at a conduction angle of 60 ° is about 150% of the set point at tipping point 22 Impedance. This relay enables the protection of overhead lines with increased Distance of conductors and also protection of lines where relay settings are to be provided with an increased bottom time.

The impedance, and thus the length of the line to be protected set by means of a resistor 1.9 in the voltage path, with .the simplicity for the sake of only a tap corresponding to the fast time of the relay is shown became. - The atrial side The measured variable supplied has an imprinted behavior, so that when the winding 25 is switched on or off, there is no change in the respective Current results. If necessary, however, to compensate for the resistance of the Winding 25 a resistor 18 can be provided.

By switching off the winding 25 and thus by the transition from an elliptical to a circular characteristic there is also the Possibility to calibrate the distance relay according to the invention with simple means. In addition, an operational check of the built-in relay can be carried out in the same way as with previously used impedance or. Make mixed impedance relays. In particular no currents and voltages are required for such a test, their phase position must be changed. Another particular advantage is that all rectifier arrangements 1, 2, 3 are recorded during the test. One would namely what actually close by would have, the rectifier arrangement 2 with a transition from elliptical to circular If you switch off the characteristic, it could not be detected during a test. aside from that the circular characteristic curve 24 would then result with the radius D and thus both relatively large correction factors when transitioning to the elliptical characteristic curve as well a doubling of the minimum length of a cable section that can be detected by the distance relay. In contrast, the disconnection of the winding 25 results in the exemplary embodiment Equality of the setting scale for the elliptical and for the circular characteristic curve with a pipe angle of 35 °. So that the correction factors, which z. B. with a conduction angle of 60 °, a reduction in the minimum detectable length corresponds to the distance between the points 22, 23, smaller and can be adjusted by setting can easily be taken into account. The transition from circular to elliptical Characteristic curve only to be carried out verification of the proper connection of the Winding 25 can be carried out, for example, by a relay function test without great effort in the event of a three-pole fault, the voltage connections being reversed in this way that there is an angle of 60 or 30 ° between current and voltage. In order to the correct connection of the winding 25 is checked. A review however, the setting scale is no longer required. For testing the built-in Relay, the last-mentioned control measurement can be omitted because the Connections of winding 25 of the converter built into the relay during operation is unthinkable. This means that the relay according to the invention is in the same Way as known impedance relays can be tested even when installed.

Claims (3)

Claims: 1. Distance relay with elliptical characteristic curve, consisting of a polarized relay and at least three rectifier arrangements, a quantity proportional to the line current via a rectifier arrangement in the triggering sense as well as a second and third rectifier arrangement of the Line voltage proportional or derived from line current and line voltage Sizes can be supplied in the blocking sense, characterized in that a changeover switch (16, 17) is provided in the circuit of the current-proportional quantity (J), which is shown in a switching position (16) a connection of the third and optionally the second Produces rectifier arrangement with the current proportional size and in the other Switching position (17) releases this connection, which results in the latter switching position (17) results in a circular characteristic curve which corresponds to the elliptical characteristic curve which results in the first-mentioned switching position (16), intersects. 2. Distance relay according to claim 1, characterized in that between the rectifier arrangements (1, 2, 3) and a common connecting line (9) resistors (11, 12, 13) are arranged. 3. Distance relay according to claim 1 or 2, characterized in that that a rectifier arrangement (3) has only one .the line voltage proportional Size is fed. Publications considered: Swiss patent specification No. 300 167; C. I. G. R. E. Report No. 307 of Group 31 to the 13th session in Paris (1950); Archives for the Energy Industry, Special Service No. 299, pp. 11 and 12.