DE1293312B - Multipole direction relay - Google Patents

Description

The invention relates to a multi-pole directional relay that with voltages derived from the mains voltages and with voltages derived from the mains currents Stream is fed.

Multipole directional relays are known which are used as direction-sensitive indicators in uncoupling devices which are used to protect industrial plants from external interference. The well-known multi-pole directional relays are equipped with a measuring mechanism which forms the sum of the active powers resulting from the voltages and currents. Since generally not in all phases in a three-phase network. At the same time a short circuit occurs, the sign of the sum of the active powers JL is ' UL' cos (JL, UL) - with JL here the conductor current and with UL the conductor voltage - not only depends on the product of the values of the short-circuit-prone phases, but also from the corresponding products from the superimposed load currents of the phases that are not subject to short-circuits. In the phases that are not subject to short-circuits, the load currents, together with the almost unchanged high conductor voltages UL, result in a considerable amount of interference compared to the product of the short-circuit current and the often low conductor voltage in the phase subject to short-circuits. Since this relatively large load current dependency in the known multi-pole directional relays has not yet been eliminated, the use of the known multi-pole directional relays has been abandoned more and more in the course of time.

The invention is based on the object of the multi-pole directional relay reintroduce. However, it should be the large load current dependency of the well-known, equipped with a multipole measuring mechanism which forms the sum of the active powers Direction relays are reduced. According to the invention this is achieved by that the amplitudes of the derived voltages in a circuit arrangement with Limiter effect on one corresponding to the threshold value of this circuit arrangement Height are limited and that these reduced voltages and the dissipated currents are fed to a measuring device, which is the sum of the products from the respective derived current and the respective cosine of the angle by which the respective derived current is out of phase with the voltage assigned to it.

The limitation of the voltages derived from the mains voltages namely prevents to a level corresponding to the threshold value of the circuit arrangement an influence on the tripping behavior by, for example, single-phase Short-circuit occurring different high amplitudes of the mains voltages. One appropriate choice of the threshold value of the circuit arrangement with limiting effect namely enables that from the mains voltage in the non-short-circuit Phase derived voltage is reduced in amplitude to a value that the amplitudes of the short-circuited phases derived from the mains voltages Corresponds to stresses. It is expedient to use the threshold value of the circuit arrangement for this purpose to be set to an amount that is the smallest expected amplitude of the corresponds to a voltage derived from the mains voltage of a short-circuit prone phase. The measuring device of the multi-pole directional relay according to the invention are thus Voltages of approximately the same amplitude are supplied in all phases, regardless of whether the voltages from mains voltages are short-circuit or not Phases are derived. As a result, the release behavior of the invention Direction relay above the threshold value only from the sum of the products the respective derived current and the cosine of the angle by which the respective derived current, .. phase-shifted with respect to the voltage assigned to it is. Since the short-circuit current is generally significantly larger than the load current, the triggering behavior of the directional relay according to the invention is thus caused by load currents not affected.

There are already arrangements for protecting electrical power lines known with directional decision, but takes place with these known arrangements an amplitude limitation only for the reason to make gates with half waves different To be able to open and close polarity exactly. From the fact - -oh. while the opening times of the gate circuits pulses have passed through the gate circuit or not, it can then be determined in the manner of an alternative whether the phase shift 'is positive or negative. A product formation within the meaning of the invention is therefore not made in the known arrangements. Also takes place with the known Arrangements do not have a voltage limitation in order to - as in the case of the invention Directional relay - the influence of the amount of the respective voltage on the measurement result turn off. In addition, the known arrangements are only single-pole Systems in which the difficulties listed above do not arise.

The multi-pole directional relay according to the invention has a circuit arrangement with limiter effect and a.-. Measuring device, which is based on the threshold value of the Limiter for reduced voltages and the associated diverted currents will. In the measuring device multipliers are provided, which - from the reduced Controlled voltages - as a time average the product of the derived Form current and the cosine of the angle by which the derived current is opposite the voltage assigned to it is out of phase. The multipliers, their number corresponds to that of the reduced voltages or the diverted currents, are associated with a zero indicator, which is one of the sum of those defined above Products experiences corresponding excitement. The sign of this sum is due of the measures described above only depend on the measured variables of those affected by short circuits Phases are determined. Hall generators, for example, can be used as multipliers find to which the reduced voltages are fed as control voltages and their magnetic fields through air gap chokes through which the diverted currents flow be ex-witnessed. But it can also ring modulators to form the products or other circuit arrangements performing multiplications can be used.

The circuit arrangement with a limiter effect is expedient to be dimensioned so that positive and negative half-waves of the derived Tensions are limited to the same extent. You can, for example, from anti-parallel Circuit elements can be formed with a threshold value, and as circuit elements Find diodes, preferably Zener diodes, use.

It can be useful if the circuit arrangement has a limiter effect polarity amplifiers known per se are arranged downstream. The use of this polarity amplifier has the advantage that, in the event of a short circuit, the may be very low Tensions can be amplified so that the multipliers of the measuring device relatively high control voltages with constant amplitude are supplied. Through this the sensitivity of the multi-pole directional relay is increased, i.e. the so-called "Dead zone" is reduced in size. The tripping behavior of the direction relay remains the same regardless of the level of the line voltage.

In the figures, embodiments of the multi-pole directional relay according to the invention are shown. In FIG. 1, the multi-pole directional relay according to the invention is shown in the form of a block diagram. The direction relay consists of the measuring device M, which forms the sum of the individual products, and the circuit arrangement S with a limiter effect. The currents J1, J2 and J3 derived from the mains currents are fed to the measuring device M via the connecting lines L 1, L2 and L 3. The voltages U1, U2 and U3 derived from the mains voltages are fed to the circuit arrangement S with a limiter effect via resistors Zv.

The derived voltages U1, U2 and U3 are used in the circuit arrangement S limited to the threshold value Uz with a limiter effect. Lie at the measuring device consequently the limited voltages U 1 z, U 2 z and U 3 z. The threshold value Uz the circuit arrangement S with a limiter effect is taken into account that the Sum of the products of the height defined above, formed in the measuring device M of the derived voltages remains independent over a wide range, to one Set value that is far below the amplitude of one from the mains voltage one voltage derived from the phase not subject to short-circuit.

In the case of the multi-pole directional relay according to the invention, the in the case of known multi-pole directional relays, this causes disturbing load current dependency reduces that the relatively high amplitude of the .not short-circuited from the mains voltage Phase derived voltage to the threshold value Uz of the circuit arrangement S with Limiter effect is limited and therefore no longer compared to the amplitude of the other, possibly derived from mains voltages short-circuited phases Tensions is increased. Because the amplitude of the short-circuit from the mains currents The currents derived from phases are generally a multiple of those from the load currents derived currents, it is ensured that the triggering behavior of the invention Directional relay not disruptive due to load currents flowing in the undisturbed phases being affected.

The upstream of the circuit arrangement S with a limiter effect Resistors Zv are used to limit the current. They can be as resistive or as complex Be formed resistors. For additional suppression of the influence of the load current it is advantageous to use complex resistors and to dimension them in such a way that that their phase angle corresponds approximately to that of the conduction angle in the event of a short circuit. It is also the use of non-short-circuit voltages to compensate for the conduction angle possible with certain network conditions.

In FIG. 2 shows a multi-pole directional relay which is suitable for connection to a star-connected three-phase network. In this case, the voltages U1, U2 and U3 are derived from the line voltages and the currents J1, J2 and J3 are derived from the line currents. The circuit arrangement S with a limiter effect is followed by three polarity amplifiers P. The use of this polarity amplifier has the advantage that the multi-pole directional relay has a high sensitivity even at very low conductor voltages. Another advantage is that the power consumed can be greatly reduced.

The measuring device, in which the sum of the products of the respective derived current and the respective cosine of the angle by which the respective derived current is phase-shifted with respect to the voltage assigned to it, can, as shown in FIG. 3, Hall generators H1, H2 and H3 can be seen. Polarity amplifiers are connected upstream of the Hall generators so that control currents i of the same and almost constant amplitude flow through them. The magnetic fields for the Hall generators H1, H2 and H3 are generated in air gap chokes D 1, D 2 and D 3 , which are excited by the derived currents J1, J2 and J3. Hall voltages ul, u2 and u3 then occur at the Hall generators, which are proportional to the respective product of the control current and the magnetic field. The mean value of the Hall voltage over time corresponds to the respective product J - cos (J, i). The sum of the Hall voltages u 1, u 2 and u 3 of the individual Hall generators H 1, H 2 and H3 is formed by connecting them in series; the summed up Hall voltages influence, for example, a polarized relay N serving as a zero indicator.

According to FIG. 4, the products already defined above can also be formed by ring modulators G 1, G 2 and G3. The reduced and possibly increased voltages as well as the derived currents are fed to the ring modulators. The time average of the output variable of each ring modulator is also proportional to the product of the derived current and the cosine of the phase angle between the electrical variables supplied to it. The outputs A 1 or A 2 and A 3 of each ring modulator G 1 or G2 and G3 are each connected to a winding of a polarized relay serving as a zero indicator N, so that the relay is supplied with an excitation corresponding to the sum of the defined products . Corresponding electronic circuit arrangements can also be used instead of a polarized relay.

Claims (7)

Claims: 1. Multi-pole directional relay that comes from the mains voltage derived voltages and with derived from the network currents Currents is fed, characterized in that the amplitudes of the derived Voltages in a circuit arrangement with a limiter effect (S) on one of the threshold values this circuit arrangement corresponding height are limited and that this decreased Voltages and the derived currents are fed to a measuring device (M), which is the sum of the products from the respective derived current and the respective Cosine of the angle by which the respective derived current forms compared to the voltage associated with it is out of phase. 2. Directional relay according to claim 1, characterized in that the products are each formed by multipliers (H1, H2, H 3 or G l, G2, G3) . 3. Directional relay according to claim 2, characterized in that each multiplier consists of a Hall generator (H1, H2, H3) . 4. Directional relay according to claim 3; characterized, that the main generators (H1, H2, H3) are connected in series and that to the outputs a zero indicator (N) is connected to this series circuit. 5. Direction relay according to claim 2, characterized in that ring modulators are used as multipliers (G1, G2, G3) are used, which are mutually decoupled from a zero indicator (N) are connected. 6. Directional relay according to claim 1, characterized in that that the circuit arrangement with a limiter effect (S) positive and negative half-waves the tensions are limited to the same extent. 7. Directional relay according to claim 1 or 6, characterized in that the circuit arrangement with a limiter effect (S) Contains diodes, preferably Zener diodes. B. Directional relay according to claim 1, 6 or 7, characterized in that the circuit arrangement has a limiter effect per se known polarity amplifiers (P) are arranged downstream.