DE1298619B - Arrangement to reduce voltage jumps when switching over tap changers for regulating transformers with anti-parallel connected thyristor pairs - Google Patents

Description

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The invention relates to an arrangement of a pair of thyristors and only switches a few half-waves to reduce voltage jumps when changing over, but before the load changeover, the switching of step switches for regulating transformers, the connection of thyristor gates, which step switches from step selector circuit and permanent contact manufactures and clocks in series with switch-off 5 that that thyristor pair, which is parallel to the currentable, antiparallel-connected thyristor pairs and leading permanent contact, only after closing parallel to the thyristor pairs of permanent contacts exist between tap selector contacts, and the thyristor pairs and and Thyristor pair is ignited.
Permanent contacts on one side each have a common derivation Characterized in that when the first one closes, they have between device. ίο tap selector contact and thyristor pair lying There are switching arrangements known (Siemens isolating switch still no connection between the magazine, 39 [1965], issue 4, page 270), in which thyristor discharge and the permanent contact discharge by means of anti-parallel connected thyristors of the load exists, and under the prerequisite that the ignition current from a tapping of a control transformation of that thyristor pair which is to take over the load current gate switched to the next higher or lower one from the closed permanent contact. In the steady state of the on-load tap-changer only after the first disconnector has been closed, the load current is taken over by mechanical permanent lying after the closing of this first trermal contact and the thyristors are de-energized by means of disconnectors, blocking both thyristor pairs on the tap. voltage and take over with a suitable voltage. In Fig. 1, such a known switching arrangement 20 is only split up to half the step voltage. First shown. The regulating transformer Tr has the step taps A and B after the corresponding thyristor pair has been triggered and is connected to the diverter switch via or after closing the second disconnector, selector contacts 1 and 2, whereby the one thyristor pair is connected in parallel to the. The diverter switch consists of the anti-connected permanent contact is connected, thyristor pairs 3 and 4 connected in parallel, then a thyristor pair takes over the entire step voltage via disconnectors 5 and 6 with the respective selection as blocking voltage.

lerkontaktl and 2 or the taps ^ and B The main advantage of the invention is

of the transformer are connected. In parallel to that achieved by the fact that this unbalanced

Thyristor pairs 3 and 4 and the disconnectors 5 switching on the two thyristor pairs the voltage

and 6 are permanent contacts 7 and 8. The thyristor 30 voltage jumps to half the peak value of the

pairs 3 and 4 will be reduced by the control unit 9 and thereby also

controls. 10 is the derivative of the diverter switch. the risk of ignition on the thyristors

The actual load switching is largely switched off by the tap or thyristors

fung ^ 4 for tapping B of the control winding of the lower dielectric strength can be selected

Transformer takes place when both thyristor 35 can.

pairs 3 and 4 on the step winding of the transfer In Fig. 2 is an embodiment of this switching mators, as shown in Fig. The arrangement according to the invention shown. The same permanent contact 7 is opened as soon as the separating parts of this circuit with the circuit according to FIG. 1 switch 5 applies voltage to the thyristor pair 3 and are provided with the same reference numerals. The thyristor firing pulses from the controller 9 40 thyristor derivation is kept with 11 and the permanent contact. Depending on the controller, this can be denoted by 12 before or after the derivation, the thyristor closing of the disconnector 6 being. In this known switching method according to FIG. 1, on the other hand, contact derivation 12 is directly connected to the discharge when the disconnector 6 is closed, and circuit 10 of the diverter switch is connected.
rather the thyristor pair 4 is connected upstream, the entire step voltage as reverse voltage to this from tap / 1 to tap B of the transformer thyristor pair, because at this point in time either mators Tr , the invention will be further explained: the Isolating switch 5 and the thyristor pair 3 or The selector contact 1 is closed and the permanent contact 7 must be live. Since Ierkontakt2 is preselected and also closed, the thyristor pairs so sen again before each switchover. The load current flows from the tap ^ through which voltage must be applied, there is a risk of isolated opening 7 to discharge 10 with selector contact 1 and the closed permanent cone large switching numbers and 4 to voltage jumps. The aim of the invention is to divide these voltage jumps into half the step voltage as a blocking voltage and thus reduce the risk of through-ignition in the voltage. Thereafter, the disconnector 5 is switched instantaneously and thus the safety is closed, whereby the thyristor pair 3 is short-circuited over the duration of the switching process with such thyristor permanent contact 7 and the Thy diverter switch is increased. This is achieved by the pair of ristors 4 taking over the entire step voltage according to the invention in that the isolating switch 60 must. Now the switching is arranged by ignition of the asymmetrical in such a way that thyristor pair 3 and opening of the permanent contact 7 initiates an isolating switch between a tap selector switch. In the zero crossing of one of the following clock and a thyristor pair and the second separating half-cycle, the load current is taken over by the thyristor switch between the common thyristor pair 4 and the thyristor pair 3 begins processing and the common permanent contact conductor 65 to block. By closing the permanent contact 8 is switched, and that the thyristor pairs asymmetrical and removal of the ignition pulses from the thyristor table can be applied to voltage in such a way that first pair 4, the load current is commutated to the permanent contact 8 of the disconnector between tap selector contact and. Then the thyristo-

Ren 3, 4 de-energized by opening the disconnectors 5 and 6 in the sequence 5, 6.

Claims (1)

Claim: Arrangement to reduce voltage jumps when switching over tap changers for regulating transformers, which tap changers from tap selector contacts in series with through Circuit breaker switchable, anti-parallel connected thyristor pairs and parallel to the There are permanent contacts lying on the thyristor pairs and the thyristor pairs and permanent contacts each have a common derivative on one side, characterized in that the Disconnectors (5 and 6) are arranged asymmetrically in such a way that a disconnector (6) between a tap selector contact (1 or 2) and a thyristor pair (3 or 4) and the second disconnector (5) between the common thyristor lead (U) and the common Permanent contact lead (12) is connected, and that the thyristor pairs (3 and 4) are asymmetrical voltage can be applied in such a way that first the disconnector (6) between the tap selector contact (1 or 2) and thyristor pair (3 or 4) switch and only a few half-waves after that, but still Before the load changeover, the second disconnector (5) provides the connection between the thyristor discharge (11) and permanent contact lead (12) and that that thyristor pair (3 or 4), which is parallel to the current-carrying permanent contact (7 or 8), only after closing the Disconnector (6) between tap selector contact and thyristor pair is ignited. 1 sheet of drawings