SU454540A1 - Constant voltage regulator - Google Patents

Description

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The invention relates to the regulation and stabilization of the constant voltage of primary sources of high power.

DC voltage regulators are known, containing a zero full-wave rectifier on thyristors connected in series with a primary source transformer, filter chokes and a power supply output connected to a parallel thyristor inverter shunting the filter capacitor.

However, all such regulators are designed for low power. Therefore, transistor converters that can operate in an overvoltage mode, do not suffer from short circuits in the load, etc., are used as static inverters that supply a voltage boost rectifier.

When creating powerful regulators of this type, only stand-alone inverters made on thyristors can be used as static inverters. In this case, the described types of regulators are operable due to the transformer magnetized by the current flowing in the regulator circuit.

This happens for several reasons. Firstly, at the moment the regulator is turned on, the current value exceeds the rated current several times due to the presence of a charge current of the output filter. Thus, the starting current is determined by the sum of the load current, the charge current of the filter capacitance and the starting current of the thyristor inverter.

Secondly, the duration of the flow of the starting current is several times longer than the half-cycle of the inverter output frequency, since for the effective smoothing of the pulsations the natural frequency of the filter must be several times less than the frequency of the pulsations. Therefore, a current close to the short circuit current develops in the primary winding of the magnetized transformer when the inverter is started, leading to a breakdown of the inverting of the thyristor converter.

The aim of the invention is to provide reliable switching-on of a voltage regulator with a load while supplying a zero full-wave thyristor rectifier from a thyristor inverter. For this, a thyristor is connected between the common point of the thyristors of the rectifier and the zero point of the transformer, which, by the time of the transient processes in the filter and the inverter, shunts the regulator.

The drawing shows a constant voltage regulator circuit.

It contains a source of constant voltage 1, a transformer 2 with a primary winding 3 and output windings 4, 5, thyristor 6, thyristor rectifier 7, LC-8, power part of thyristor inverter 9 and load 10. In the initial state, the circuit is connected to power supply 1, and all thyristors of the circuit are closed. To start the regulator on the thyristor 6, a pulse is opened that opens it. In this case, the capacitance 11 of the filter 8 is charged, the output windings 4, 5 of the transformer 2 are minimized and without creating an initial magnetic biasing of the core. At the same time, control pulses are applied to the power part of the inverter 9. In this case, the inverter is started at idle with low initial currents. After termination of the transients in the filter 8 and the power section of the inverter 9, the thyristors of the rectifier 7 are supplied with control pulses shifted relative to each other by 180 °. Opening any of the thyristors of the rectifier 7 causes the thyristor 6 to be locked. When the phase of the control pulses applied to the thyristors of the rectifier 7 changes, relative to the output voltage of the inverter 9, the voltage on the load 10 changes. invention of the DC voltage regulator, containing a zero two-half-rectifier thyristor rectifier connected in series with the primary source transformer, filter choke and output and the power supply circuit connected to the parallel thyristor inverter, shun A filter capacitor, characterized in that, in order to increase the switching reliability, between the zero point of the transformer winding of the primary source and the common point of the rectifier thyristors in the forward direction, an additional thyristor is turned on.

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