SU418839A1 - - Google Patents

Description

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The invention relates to the field of electrical engineering, in particular, can be used in the field of dimensional electrochemical machining.

A known switching method for a power transformer with a symmetrical thyristor switch on the primary side.

The disadvantages of this method are that the switching of the transformer windings is performed without taking into account the direction of the residual flow in its core. As a result, intense transients occur, the duration of which reaches 10–12 periods of supply voltage; high transient currents are 6-8 times higher than the rated current of the transformer.

These drawbacks of the known method of switching a power transformer do not allow it to be used to obtain a pulse voltage with a short pulse duration (melower than 10-12 periods of mains voltage).

The aim of the invention is to eliminate the noted disadvantages and to ensure the operation of the transformer with minimal transients at the moment of switching on, as well as receiving pulses with a duration up to 0.25 of the mains voltage period.

This goal is achieved by switching the transformer with a cut-off angle

phase nanr l enn 90 ° and taking into account its previous magnetized state by memorizing the direction of its magnetization and so that the magnetizing flow is directed opposite to the residual one.

FIG. 1 is given a circuit for switching on a thyristor switch; in fig. 2 is a timing diagram, where A, B, C are the phases of a network voltage.

Suppose, with a sufficiently high phase A phase, which corresponds to the phase angle of the LSNen phase phase equal to 90 ° (time / i), the thyristor 1 is triggered by a polarizing pulse, which turns off when the mains voltage changes. Similarly, thyristors 2 and 3 of phases C and B are started. The currents of phases A and B create residual currents of a positive direction in the core of a power transformer, and the current of phase C is negative.

Thus, over time ti-4, a voltage pulse is formed, consisting of pulses A, B and C.

During time / 2- / 3, there are no impulses to start the thyristors - a pause is formed. At time / 3, the thyristor 4 is triggered and the phase A current creates a magnetizing flux in the core of the power transformer 5. The thyristors 6 and 7 of phase C and B operate in a similar way.

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This method allows discrete variation of the pause time by forming a prohibition that triggers the thyristors 1-6. Pulse) With voltage can be made up of one, two, three or more pulses of fa.ch A, B, C of the mains voltage. If the pulses are applied to the nz single phase pulses of phases A, B, C, then these phases must be switched in the following sequence: - | -A, -B, + C, -A, + B, -C, + A, etc. In this case, the pulse duration is equal to 0.25 of the mains voltage period, and their maximum frequency is 60 Hz at the mains voltage frequency fc 50 Hz. If you change the phase switching sequence - (+ A, -C); (+ C, -B); (-B, -A); (+ A, -C), etc., the pulse duration will be equal to 5/12 of the mains voltage period, and the pulse frequency is 75 g, with fc 50 Hz. This method makes it possible to carry out both an emulsion and a continuous mode of operation of a power transformer. Continuous mode corresponds to the case when iauzu between pulses exclude.

PREDIME 1 N OGRAUSE

The method of co.M.M.

the Rienee duration is half the period of the mains voltage, with each switching on, the direction of the residual current of the transformer rods is remembered and each subsequent switching on is carried out with a magnetic flux, which is opposite to the residual one.

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