SU68239A1 - AC Voltage Divider - Google Patents

Description

Voltage dividers are widely used in various circuits at low power and low voltages. At high mosh. “OST x their use is limited due to the difficulties encountered in the commutation of large currents. In the case of high voltage, it is necessary to use high voltage insulation and appropriate protective measures against electrical shock. For these reasons, for these conditions, it is necessary to refuse this gparat. The present invention completely resolves these difficulties.

The proposed divider is made up of two saturation chokes connected in series to an AC circuit, the voltage supplying the load being removed from the terminals of one of these chokes. To regulate this voltage, the common point of the series-connected bias windings of the chokes is connected to a moving contact of a DC potentiometer, to the terminals of which a magnetic bias circuit is connected.

FIG. I depicted the electrical circuit of the proposed voltage divider; in fig. 2 - the same, the second option.

In the embodiment of FIG. 1 to a single-phase network / AC connect two serially connected throttles with a saturation of 2 and 3. The middle point of the AC windings and one of the extreme go to the consumer 4. The windings of the biasing (DC) 5 and (connected in series and their ends are connected to the extreme points The low-voltage low-voltage potentiometer 7 supplying them. The mean point of the magnetizing windings 5 and 5 is connected to the slider 8 of the potentiometer 7, as shown in the diagram.

When the dc potentiometer slider 8 is moved, there is a smooth redistribution of currents in the biasing windings 5 i 6 and, therefore, alternating voltage across chokes x 2 and 3, and regulation can be made in a wide range.

Since the power of the magnetizing windings is 1 g 1.5 / o of the power of the alternating current windings, according to the proposed scheme, it is possible to adjust large voltages and AC powers smoothly using the insignificant DC power, avoiding the difficulties mentioned above. . The proposed scheme can have various modifications, for example, regulation with the help of two DC potentiometers with self-threading of the magnetizing windings and mechanical fastening of the sliders, as well as other variants.

According to this principle, a voltage divider for a three-phase system can be made. A similar pattern of nocaza in FIG. 2. In each phase there are two serially connected throttles; in turn, the phases are connected in a star or delta and connected to an AC power source 1. The load 4 is connected to the middle points of the phases. The windings of the node magnetizers are all connected in series and in turn are connected to the extreme points of a low-power DC potentiometer. The center point of the magnetic circuit of the windings is connected to the potentiometer slider. AC voltage regulation is also performed by moving the DC potentiometer slider.

Subject invention

An alternating current voltage divider composed of two saturation chokes connected in series with an alternating current circuit, powered by a load from the terminals of one of the chokes, characterized in that, in order to regulate the load voltage while maintaining the total inductance of the chokes, the common point of the series connected The bias windings of the chokes are connected to the movable contact of the DC potentiometer, to the terminals of which the magnetic bias circuit is connected.

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