DE2738422A1 - High-power AC switch consisting of passive components - acts as series LC circuit in conducting state and parallel LC circuit in non-conducting state - Google Patents

Abstract

The high-power ac switch contains no active components and has little contact wear. When the switch is conducting an inductor (X) and a capacitor (C) are connected in series to form a resonant circuit through which the load current flows. When the switch is non-conducting at least one of these two components (X,C) is connected in parallel with an extra component (C) to form a parallel resonant circuit. This extra component may be another capacitor or an inductor (or both).

Description

AC switch made of aggressive components

The invention relates to AC switches made of passive components, especially for switching large electrical powers.

For switching also large electrical outputs in the alternating current network both switches with moving contacts and non-contact switches are used Switching devices with semiconductors.

The mechanical switches working with moving contacts are subject to a relatively high level of wear and tear, especially when the power is switched off parts of each other at the base of the switching arc that arises separate contacts melt or vaporize. This results for the contacts this switch has a relatively short lifespan which in turn requires maintenance the switch makes it necessary at relatively short time intervals. Because maintenance work at switches often with the shutdown of devices that are dependent on the switching means one strives to keep the distance between the Vartungon as large as possible do.

For this reason, switching devices with are also contactless working semiconductors, such as power thyristors, are known and used. However, these switching devices require a relatively large effort with regard to the devices controlling your ignition. This is especially true if phase shifts between the current and the voltage are to be expected. Apart from that, semiconductors are used in switches for very large capacities, like them at for example at the connection points of the high-voltage overhead line networks occur, can only be used to a limited extent.

The invention is therefore based on the object of an AC switch to create, on the one hand, with a very low contact erosion on its mechanical Contact points works and on the other hand also for use with extremely large to be switched AC electrical power is suitable.

According to the invention, this object is achieved in an alternating current switch for a current with the angular frequency # -2 # f solved in that in the conductive switching state a series circuit of an inductance X and a capacitance C with the size ratio # x-1 / # C is used in a series resonance to conduct current and that in the blocking switching state at least one of these two switching elements together with one electrically parallel connected switching element forms a parallel resonance circuit.

According to an advantageous embodiment of the invention, it serves as a additional switching element a second capacitance connected in parallel to the inductance X. C and is after a further split as an additional switching element of the capacitance C a second inductance X connected in parallel.

According to other advantageous embodiments of the invention, it is provided that the capacitance C as an additional switching element is one half of a transformer winding is connected in parallel, the other half of which is parallel to the inductance X. To Another design feature of the invention is the series connection of the inductance X and the capacitance C can be short-circuited and interrupted to relieve the load in continuous operation one upstream of the series circuit consisting of the inductance X and the capacitance C. Open additional contact after reaching the blocking switching state a leakage current through the AC switch.

In application to a step switching device for interruption to solve Load switching for transformers and chokes for large capacities with two with Taps on a step winding connect bars from a common load line outgoing voter arms, the object of the invention is achieved in that in Each of the two selector arms one by switching on a switching element of a parallel resonance Disconnectable alternating current switch is provided and that a step switch short-term step short-circuit is accepted before in the voter arm to be switched off by connecting a switching element and creating the parallel resonance, the short-circuit current is interrupted. A special step short-circuit current is advantageously missing limiting transition resistance, since the short-circuit current only increases linearly with the Increasing time trains (z. B. after i- # t sin #t) The alternating current switch according to the invention is particularly advantageous because a parallel circuit is used to switch off a load must be closed so that no cut-off arc can occur. The the parallel circuit closing contact work with very little wear and consequently have a very long service life with very long control intervals. The inventive AC switch is especially used in tap changers for power transformers Can be used very advantageously for very high outputs, because on the one hand in these systems very large powers have to be switched and, on the other hand, the voltage stripping the facility for maintenance purposes can be restricted to the lowest possible level can.

Some embodiments and an application example of an inventive AC switching devices are explained in more detail with reference to a drawing.

Figures 1, 2 and 3 each show a single-pole embodiment for an AC switch.

Figure 4a to e shows two symmetrical to a common load line Anoronete alternating current switch in a step switching device for transformers in five successive switching positions required for a step switch.

Corresponding parts are given the same prefix in all figures Mistake.

Between two to be connected or disconnected by a switch Terminals 1 and 2 are connected in series with a capacitance C and an inductance X arranged. In the arrangement according to FIG. 1, there is a parallel to the inductance X in series with a switch 8 second capacitance C is provided. The in inductance X and the capacitances C are designed so that c is X- 1 / taC. Form accordingly the inductance X and a capacitance C in series have a series resonance with the resulting Resistance close to zero. On the other hand, the resulting resistance is in the case of a parallel connection the inductance X with a capacitance C is almost infinitely large.

To create a conductive connection between terminals 1 and 2 the switch 5 is opened, so that the series circuit from the capacitance C and the inductance X is effective. Since this is the resulting resistance the series connection is practically zero, occurs between terminals 1 and 2 also no significant resulting voltage drop, so that the circuit arrangement acts like a closed mechanical switch. To break a thiter between the terminals 1 and 2 flowing current, the switch S is closed, so that the Inductance X forms a parallel resonance circuit together with the second capacitance, the resulting resistance is almost infinite. As a result, practically flows no more power between terminals 1 and 2 and possibly via the switching arrangement Consumers connected to voltage are no longer supplied with electrical power provided.

Since the components in particular also have an ohmic resistance and consequently remaining at resonance resistances, it is advisable to use both in series with the series connection of the capacitance C and the inductance X as also a mechanical contact, not shown, in parallel with this series connection to be provided. The contact lying in series with the series connection serves through Open to interrupt a Restatromes at due to parallel resonance locking AC switch. The switching contact parallel to the series connection on the other hand, serves to relieve them in continuous operation by closing the according to the application AC switch short-circuits. Even harmonic currents must be switched by these switching contacts.

Also in the arrangement according to FIG. 2, a capacitance C and a Inductance X connected in series between terminals 1 and 2 and are used to conduct current when the AC switch is "closed". However, in parallel there are only reversed order again an inductance X and a capacitance C die also form a series resonance and a part of the flowing over the arrangement Lead load current. The respective connecting lines between the capacitance C and the inductance X of these two parallel branches are controlled by a switch 8 v.rbindbar, which is closed to lock the switch and thereby the two converts parallel series resonances into two parallel resonances in series. Here, too, a mechanical switch box can again be used in a manner not shown tak series to interrupt a residual current or harmonic current in the event of a blocking Switching status and a switching contact parallel to the arrangement to relieve the arrangement be provided in continuous operation.

In the arrangement according to FIG. 3, there is parallel to the series circuit from the capacitance C and the inductance X a transformer TR with windings WI and W2, where W1 is equal to W2. The connection line of the windings W1 and W2 is via a switch 8 with the connecting line of the capacitance C and the inductance X can be connected. The winding WI of the transformer TR has the same Inductance like inductance X, so that the relationship # X = 1 / # C for this too is applicable. In the conductive switching state, the load current flows again via the series resonance from the capacitance C and the inductance X, the windings W1 and W2 of the transformer TR are short-circuited. In contrast, the windings form in the blocking switching state W1 and W2 together with the capacitance C and the inductance X are in parallel resonance, because these two switching elements have the same voltages due to the transformer can be specified. With this switching arrangement, too, depending on the application be expedient to prevent a residual current or to relieve the Wecheelstroischalteinrichtung Provide an additional mechanical contact each in the conductive state.

In Figure 4, two are symmetrical to a common load line L. arranged. AC switch according to the principle of the circuit according to FIG. 1 is provided. each of the AC switches is made of a series resonance consisting of an inductance X and a capacitance C and an additional contact provided in series K1 or K2 and one each that can be connected in parallel to the inductance X via a switch 81 or 52 Capacity C built up.

In FIGS. 4a to 4e, five are typical for a step circuit Switching states of the arrangement of the two AC switches are shown. In the Schaltstollung according to Figure 4a, the load current flows through a not shown Selector contact and the contact Kl for series resonance from the capacitance C and the Inductance X to the load line L, after a not shown possibly for Relief of the switching device in continuous operation provided switch open is. The contact K2 is also in the following switching step according to FIG. 4b closed, so that there is also a series resonance in series with this Load current flows to load line L. Since the two series resonances across the contacts K1 and K2 connected to different taps on a transformer winding are, a step short circuit occurs in this switching position, in which time Course of the step short-circuit current throttled only by the existing line impedances and the proportions present in the circuit elements of the AC switches shmschen resistances. Due to the linear increase in current z. B. accordingly the function i-t sin ast it takes a few half-waves until the step short-circuit current Inadmissibly high values reached.

Even before inadmissibly high values of the step short-circuit current are reached the switching state according to FIG. 4c is set, in which the switch S1 is closed and has thus built up a parallel resonance in the upper AC switch, both the step short-circuit current which has flowed through the contact K1 up to that point as also interrupts the load current flowing through this contact K1 because the resistance in the parallel resonance is almost infinitely large. The actual load current will in this switching stage already from contact K2 and the one in series with it Series resonance led. The switching states are now one after the other according to Figures 4d and 4e reached, in which first the upper AC switch through Opening of the contact K1 is voltage-relieved and then the parallel resonance is canceled by opening switch S1.

The switching states shown in FIGS. 4a to 4e are also shown with The use achieved in a similar manner to the switching principles according to FIGS. 2 and 3 the AC switch leads in a tap changer of transformers the result is an arrangement with very low-wear mechanical switches, because the shutdown of the largest occurring current by closing one Switch and the one created thereby to block the load and step short-circuit current Parallel resonance and not by mechanically breaking a circuit.

In this way, the occurrence of a cut-off arc and thus one of the main causes of wear in previously known tap changers avoided.

8 claims 4 figures L e r s e i t e

Claims (8)

Patent claim 1. AC switch made of passive components, especially for switching large electrical outputs, d a d u r c h e k e n n z e i c h n e t that in the conductive switching state a series circuit of a Inductance X and a capacitance C with the size ratio # x-1 / # C in a series resonance serves for power supply, and that in the blocking switching state at least one of these two switching elements (C, X) together with one connected electrically in parallel Switching element (c, x, W1) forms a parallel resonance circuit. 2. changeover switch according to claim 1, characterized in that as an additional switching element, a second connected in parallel to the inductance X. Capacity C is used (Figure 1). 3. Exchange switch according to claim and 2, characterized in that that in addition, as an additional switching element of the capacitance C, a second inductance X is connected in parallel (Figure 2). 4. AC switch according to claim 1, characterized in that of the capacitance C as an additional switching element one half (W1) of a transformer winding is connected in parallel, the other half (W2) of which is parallel to the inductance X. (Figure 3). 5. AC switch according to claim 1 and one of claims 2 to 4, characterized in that the series connection of the inductance X and the capacitance C can be short-circuited to relieve the load in continuous operation. 6. Exchange switch according to claim 1 to 5, characterized in that that one of the series circuit consisting of the inductance X and the capacitance C is connected upstream Additional contact After reaching the blocking switching state through open interrupts a residual current. 7. AC switch according to claim 1 and one of claims 2 up to 5, in use also a step switching device for uninterrupted load switching for transformers and chokes for high capacities with two taps a step winding connectable, proceeding from a common load line Voter arms, characterized in that in each of the two voter arms a through Switching on a switching element (C) to form a parallel resonance that can be switched off Alternating current switch is provided, and that a short-term when step switching Step short circuit is accepted before in the voter arm to be switched off Switching on a switching element (C) and creating a parallel resonance of the step short-circuit current is interrupted. 8. alternating current switch according to claim 7, characterized in that a special transition resistance limiting the step short circuit current is missing.