SU1504644A1 - Magnetic a.c. voltage controller - Google Patents

Abstract

The invention relates to secondary power sources of radio equipment. The aim of the invention is to expand the range of output voltage control and improve weight and size parameters. The goal is achieved by the fact that an additional magnetic saturable node 5 and an inductive element 4 are introduced into the device. In this case, the circuit elements are connected so that at zero current of the regulator the output voltage can be equal to zero. During the operation of the regulator, all current consumed by the load flows only through the magnetic saturable nodes 3 and 5 and does not pass through the inductive elements 4 and 6, which therefore can be compact. 1 il.

Description

VSKSIE

315

The invention relates to electrical engineering and can be used, for example, in variable voltage stabilizers.

The purpose of the invention is to expand the range of adjustment of the output voltage and improve the weight and size parameters.

The drawing shows a functional diagram of the magnetic regulator.

The first magnetic nodal node 3 and the second inductive element 4 are connected to the input terminal 1. The second magnetic nodal node 5 and the first inductive element 6 are connected to the input terminal 2. The control windings of the nodes 3 and 5 are connected to the output of the regulator 7. The first output terminal 8 is connected to the point

interconnection between the first magnetic I node 3 and the first inductive element 6, and the second output terminal 9 is connected to the connection point of the second magnetic node 5 and the second inductive element 4.

The regulator works as follows.

Let at zero current of the regulator 7 inductance of all magnetic nodes and elements be equal to each other. In this case, the voltage between you-; The output pins 8 and 9 are zero,: since at each magnetic node, i gives half of the input voltage and i potentials at points 8 and 9 are equal to each other. When the magnetic nodes 3 and 3 are partially saturated with the current of the regulating organ 7, their inductances decrease. This leads to a decrease in the voltage applied to them and, accordingly, to an increase in the voltage on the inductive elements 4 and 6, i.e. at point 8, the voltage becomes more than half of the input voltage, and at point 9 -

less than half of the input voltage, Forming a potential difference between points 8 and 9 leads to an input voltage. With a further increase in the output current of the control unit, the output voltage will increase, and in the limit, when the cores of the magnetic nodes 3 and 5 are completely saturated, the output voltage will differ from the input voltage only by an amount equal to the fall of the voltage on the active resistance nodes 3 and. Thus, in a magnetic regulator of alternating voltage,

The regulation range is achieved by the fact that at zero regulator current, the output voltage can be zero. In addition, when the regulator is operating, all the current consumed by the load flows only through the magnetic nodes 3 and 5 and does not pass through the inductive elements 4 and 6, which therefore can be small5

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overall. It is only necessary that they withstand a voltage equal to the input voltage and do not stand at idle current, while in the known regulator the second transformer connected in series with the magnetically controlled transformer should not reach at the maximum load current, since this current is substantially This translates into a no-load current, and this leads to the overall mass-dimensional indicators of this transformer and the entire known regulator in a circuit.

Claims (1)

Invention Formula A magnet, an AC voltage regulator, containing a first magnetic fixed node with a control winding and a first inductive element connected in series between the input terminals, and a regulator, OTH, with the aim of expanding adjustment range - output voltage and improvement of mass-dimensional indicators; a second magnetic napsing unit with a control winding and an inductive element are inserted in it, with one output of the second magnetic saturable node connected to the junction point The first inductive element and one input terminal, and the other output of the second magnetic node being connected to one end of the second inductive element and one output terminal, the other end of the second inductive element connected to the point of connection of the first magnetic saturable node with another input terminal, the connection point of the first magnetic saturable node with the first inductive element is connected to another output circuit, while the control windings of both magnetic nazpotnyh nodes are connected in series and no connected to the output of the regulator.