SU1257747A1 - Device for controlling a.c. voltage - Google Patents

Description

The invention relates to electrical engineering, in particular, to the transmission and distribution of electrical energy on alternating current, and is intended to smoothly control the voltage and eliminate voltage oscillations on the secondary side of the transformer.

The purpose of the invention is to simplify the device, as well as to increase its reliability and efficiency.

The drawing shows a diagram of a device for voltage regulation.

The device contains a transformer having a primary primary winding 1, a secondary winding 2 and an adjusting winding 3. The extreme and common leads of the adjusting winding are interconnected via a chain consisting of series-connected reactor 4 and capacitor 5 whose middle point is connected to the input terminal of the device. In this case, the reactor and capacitor are shunted with thyristor switches 6 and 7, each, respectively.

When the capacitor shunting the reactor and the adjusting winding of the transformer, the total equivalent resistance

U

X.

X. - (Uij.

where X, is the relative resistance of the total inductance of the shunt circuit with the base resistance of the capacitor,

From this expression it follows that with decreasing Xj, the total resistance decreases, and it remains capacitive until X. 1. If X ^ i 1, the total resistance is inductive in nature.

When the nature of the equivalent resistance changes, the voltage on the secondary winding 2 of the transformer changes.

The device works as follows.

In the mode of transformer minimum loads or voltage increase, the thyristor switch 7 is fully open, and switch 6 is closed. Capacitor 5 is shunted and the equivalent resistance is inductive.

dinene to the maximum number of turns of the transformer primary winding, which provides the maximum transformation ratio and the minimum

g is the value of the secondary voltage. In addition, the additional inductive load in the form of a reactor 4 connected in parallel to the control winding 3 contributes even more to 10 W & Gu reduce secondary stress,

In the mode of maximum loads or undervoltage, the thyristor switch 6 is open and the switch 7 is closed. At the same time, the reactor 4 is shunted and the equiquivalent matching is of an elastic nature. At the same time, the output of the mains supply is connected to the minimum number of turns of the transformer primary winding, which determines the minimum transformation ratio and the maximum secondary voltage. In addition, the additional capacitive load in the form of capacitors 5., connected in parallel to the adjusting winding 3, contributes to an even greater increase in the secondary voltage.

Changing the angles of control of the thyristor ™ 30 switches 6 to 7 with a change in the load of the transformer and the voltage on its secondary winding 2, maintains this voltage within the allowable limits, preventing the current overload of the control winding 3,

Claims (1)

Invention Formula An alternating voltage control device containing thyristor switches, a transformer, the primary winding of which is made in the form of serially connected main and adjusting windings, the last and the common output of the latter are interconnected by a chain consisting of a reactor and a condecator, the middle point of which is connected to the input device output characterized in that, in order to simplify the device, increase its reliability and efficiency, the reactor and capacitor are shunted with thyristor switches 5 and the second the capacitor lead is connected to the extreme lead, and the second lead of the reactor is connected to the common lead of the control winding.