DE2104075A1 - Arrangement for load switching in step transformers with anti-parallel connected thyristors - Google Patents

Description

Maschinenfabrik Reinheusen Rt ^ easburg, January 21, 1971 Gebrüder Scheubeck JlG.
regensburg

Arrangement for load switching with step transformers

The invention relates to an arrangement for load switching in step transformers with anti-parallel connected Thyristors in two similar circuits, each between one of two taps of the step transformer and the common derivation lie, with mechanical permanent contacts for relief and mechanical Isolating contacts are used to isolate the thyristors.

Such switching controls with thyristors and mechanical contacts are known and illustrated in FIG. With 1 and 2 the two selector contacts for the taps U ₁ and U «of the control winding of the transformer Tr, with 3 and 4 the permanent contacts, with 5 and 6 the isolating contacts, with 7 and 8 and 9 and 10 the anti-parallel connected thyristors in the circuits St and Stp and Y denotes the derivative.

Here, at the beginning of the switchover, before the permanent contact 3 of the stage U- of the regulating transformer Tr to be switched off opens, both isolating contacts 5, 6, which are each in series with the antiparallel thyristor pairs 7, θ and 9, 10, are closed. Then the load is transferred from one thyristor pair 7, 8 to the other 9, 10 and finally the permanent contact 4 of the stage U _{2 of} the regulating transformer to be connected closes and the isolating contacts 5, 6 open.

In the case of purely mechanical diverter switches, however, the switching sequence of the main and auxiliary contacts used is usually the same in such a way that in the switching sequence one switched contact with the next contact to be switched for a short time

-2- 209832/0507

Time overlaps, as shown schematically in Fig.2 for the circuit according to Fig. 1 is shown.

The task now arises to convert a thyristor device into a mechanical diverter switch with a predetermined contact sequence to be installed, i.e. to combine thyristors with mechanical contacts of an existing switch, in which these Contacts have a switching sequence that differs from the known circuits with thyristors, so they have so far been conventional thyristor circuits not readily usable.

The object of the invention is therefore to provide a customary to combine mechanical diverter switch with a thyristor switch. This is achieved according to the invention for a Arrangement for load switching of the type described above, characterized in that for each mechanical contact and for the two Thyristor circuits are each provided with a status indicator, which generates the ignition pulse generators of the corresponding via the logic circuit Control thyristor circuits. In this case, a switching direction-defining function is advantageously used in the control circuit Memory element is provided which can be controlled by the two status indicators of the permanent contacts. This is useful for the ignition of each thyristor circuit has the logical link axb + c (c) xd + h, where a is the switching state of the disconnector in the respective thyristor branch, b the switching status of the disconnector in the thyristor branch, c or c the switching state of the output of a storage element defining the switching direction, d the blocking voltage at the thyristor counter branch and h represents the switching state of the respective main contact.

In a further embodiment of the invention, each ignition pulse generator has a further direction-defining switch Upstream storage element which can be controlled with the logic circuit. This is useful for every thyristor circuit the logical connection c (c) xd + h as the switch-on condition and the logical one as the switch-off condition

209832/0507

Link b χ c (c) formed, where b is the switching state of the disconnector in the thyristor branch, c or c is the switching state of the output of the storage element defining the switching direction, d the reverse voltage at the thyristor counter branch and h represents the switching state of the respective main contact.

It should be added that for closed contacts the designation a, b, h, for open contacts the designation a, B ", H, for voltage in the thyristor opposite branch the designation _d, for the lack of voltage in the Thyristor counter branch the designation 3 and for the switching direction from contact 3 to contact 4 the switching designation c and the switching designation c stands for the opposite switching direction.

The structure of the circuit according to the invention enables the combination of a mechanical one in a simple manner Diverter switch with a thyristor switch. So now it is practically only required by a common one Diverter switch to remove the transition resistors and put the auxiliary contacts in the power strand in place the transition resistors to use the circuit with the anti-parallel connected thyristors. Farther this circuit has the advantage that its own switchover command generator, such as a control contact or photo encoder, can be omitted. This simplifies the switching method.

In the drawing, two exemplary embodiments of the invention are shown in the embodiments according to FIGS. 3 and 4, the reference symbols used in FIG. 1 for the individual devices of the circuit also for the switching circuits St 1 and St _{2 shown in FIG. 3} . The same switching circuits St. and St «are also to be attached to the circuit diagram in Fig..

For the current branches St ₁ and St ₂ , ignition transformers 11, 12 (FIG. 3) are provided, which deliver the pulse series of the ignition pulse generators 13, 14 to the thyristors 7, 8 or 9, 10 when voltage is present at their input.

-4-209832 / 0507

The control circuits according to FIGS. 3 and 4 initially contain a memory element 15 which receives voltage at output A through voltage at its set input S, but voltage at the inverse output A "through voltage at its reset input L. This memory element stores the switching direction, with voltage state c the voltage signal at its output A and thus switching direction from contact 3 to contact 4, and the voltage signal at output A (switching state c) means the opposite direction. The circuit according to FIG or 14. These storage elements 16, 17 store the status "ignition of thyristor branch St ₁ " or "ignition of thyristor branch St" ¹¹ and are expediently mutually locked.

The control circuits according to FIGS. 3 and 4 also have various status indicators 20-25, which indicate the switched-off and switched-on status of the permanent contacts 3, 4, the isolating contacts 5 »6 and the blocking or conducting status of the thyristor branches St ₁ and St ₂ to the Signaling the logic circuit, whereby the overlined letters indicate the negative state, e.g. open contact or lack of reverse voltage. The status indicators of the main contacts 3, 4 are indicated by 20 and 21, the status indicators of the isolating contacts 5 or 6 are indicated by 22, 23 and the voltage detection groups for the thyristor branches St. and St _{2 are} indicated by 24, 25. In the logic circuits, the modules 26-31 and 38 and 39 are AND gates and the modules 32-35 are OR gates, the gates which link the same variables in FIGS. 3 and 4 being denoted by the same numbers. In the circuit of the thyristors St ₁ and St ₂ (FIG. 3), 40, 41 capacitors and 42, 43 resistors are designated, which are connected in series and connected in parallel to the corresponding thyristor branch. The AND gates 38 and 39 are only used for locking.

The mode of operation of the control circuit according to Fig. 3 is as follows: It is assumed that the permanent contact 3 is closed and

-5- 209832/0507

the permanent contact 4 and the disconnectors 5 »6 are open, as shown in FIG. The memory element 15 is then prepared by the status indicator 20 for switching from U ₁ to U ₂ and has voltage at its output A. In addition, the OR stage 34 receives voltage at one of its inputs and outputs voltage to the pulse generator 13 via the AND gate 38, which also receives voltage from the inverse output 35 ″ ″ »Which belongs to the circuit St ^ or to the current-carrying permanent contact 3, is only closed at the beginning of the switchover or is already closed during stationary operation, when the permanent contact 3 carries the load current. It is only important as an isolating switch to the thyristors The load current commutates to the thyristors 7, 8 of the circuit St ₁ if the AND condition for the gate 30 is no longer met, the OR gate 34 does not receive voltage and at any of its inputs therefore switches off the ignition pulses for thyristors 7 or 8, as can be easily checked using the circuit diagram. As soon as the thyristors 7, 8 begin to block, the status indicator 24 gives voltage to the AND gate 27, the second input of which is prepared by the storage element 15 which determines the switching direction, whereby the ignition pulse generator 14 is switched on via the gates 35 and 39 and the branch St ₂ with ^ the thyristors 9 and 10 ignites. As soon as the isolating contact 5 opens, the AND condition is met for gate 31 and another input at the OR gate is assigned voltage. The same thing happens when the permanent contact 4 closes and applies signal voltage to gate 35 via status indicator 21. At the same time, this voltage at the output 21 prepares the storage stage 15, which determines the switching direction, for the next switchover to higher or lower taps, in which its inverse output A receives voltage.

209832/0507

-6-

ο
The mode of operation of the control circuit according to the example in Fig. 4 is as follows:

It is again assumed that the permanent contact 3 is closed and the permanent contact 4 and the isolating switches 5 and 6 are open. The load current flows from the tap U _{1 of} the regulating transformer via the selector contact 1, the permanent contact 3 to the derivative Y (Fig. 1). The storage element 16 (Fig. 4) is switched on because the permanent contact 3 is switched on. The storage element 17 is switched off. As a result of the closed permanent contact 3, the storage element 15 is controlled in such a way that a voltage signal is present at its output A. Now, after closing the disconnector 5, the permanent contact 3 opens, so the load current can _{commutate to the thyristor circuit St 1} because the Thyristors 7 and 8 from the ignition pulse generator 13 received ignition pulses. As soon as the isolating switch closes, the AND gate 28 receives a voltage signal, as a result of which the OR gate 32 also applies voltage to the extinguishing path L of the storage element 16, which is decisive for the switching state of the pulse generator 13. Therefore, at this moment the firing pulses are _{removed from the thyristor circuit St 1} , but the load current continues to flow in the fired thyristors 7, 8 until its natural zero crossing. After the zero crossing, the thyristors 7, 8 of the branch St ₁ begin to block. As soon as the blocking voltage at the thyristor pair 7, 8 has reached a certain value, the status indicator sends voltage to the AND gate 27 and, since its second input also receives voltage because the memory element 15 has voltage at its output A, the ignition pulse generator is transferred its memory 17 and the OR gate 37 switched on, whereby the thyristors 9 and 10 received Zundimpulse. Then the auxiliary contact 5 opens, the permanent contact 4 closes, whereby the memory 15 defining the switching direction is switched, and finally the isolating contact 6 opens, so that the switching is then ended and the load current

-7-209832 / 0507

now from U "via the Vählerkontakt 2 the permanent contact 4 to the derivative Y flows.

An important condition is both for the circuit of Figure 3 and for the Schaltung'nach Fig. K, da3 the
Isolating contacts 5 and 6 overlap at least one half-wave when they are switched, ie both contacts should be switched on together for at least one half-wave at the same time
be. If this condition is not met, it could happen that the isolating contact which has reached that point
was energized, even under current, ie under load, has to switch off because its thyristors are not yet in the
Locked state have passed.

-8- 209832/0507

Claims (5)

Claims 1. Arrangement for load switching in step transformers with anti-parallel connected thyristors in two similar circuits, each of which lies between one of two taps of the step transformer and the common derivation, with mechanical permanent contacts for relief and mechanical isolating contacts for potential separation of the thyristors, the switching sequence of which is used by a Logic circuit can be controlled, characterized in that a status indicator (20-25) is provided for each mechanical contact (3, 4, 5, 6) and for the two thyristor _{circuits (St 1} and St ₂ ), which control the ignition pulse generators via the logic circuit (13, 14) of the corresponding thyristor circuits (St ₁ and St ₂ ). 2. Arrangement according to claim 1, characterized in _f that in the control circuit a switching direction-defining memory element (15) is provided, which of the two status indicators (20, 21) of the permanent contacts (3, 4) can be controlled. 3. Arrangement according to claim 1 or 2, characterized in that the logic operation axb + c (c) xd + h is formed for each thyristor circuit, where a is the switching state of the disconnector (5 or 6) in the respective thyristor branch (St. . or St ₂ ), b the switching status of the disconnector (6 or 5) in the thyristor counter-branch (St ₂ or St ₁ ), c bew. St ₂ or St ₁ ) and h represents the switching state of the respective main contact (3 or 4). 209832/0507 4. Arrangement according to claim 1 or 2, characterized in that each ignition pulse generator (13 »14) has a further switching direction-defining memory element (16, 17) is connected upstream, which is connected to the logic circuit are controllable. 5. Arrangement according to claim 4, characterized in that for each thyristor circuit (St ₁ , St ₂ ) the logic operation c (c) χ d + h as the switch-on condition and the logic operation b χ c (c) is formed as the switch-off condition, wherein b the switching state of the isolating switch (5 or 6) in the thyristor branch (St ₁ or St ₂ ), c or c the switching state of the output of the storage element (15) that determines the switching direction, and d the reverse voltage at the thyristor opposite branch (St ₂ or St ₁ ) and h represents the switching status of the respective associated main contact (3 or 4). 209832/0507