SU537333A1 - AC Voltage Regulator - Google Patents

Description

one

The invention relates to the field of electrical engineering and can be used to obtain stable voltages for powering electronic equipment.

Voltage stabilizers 1, 2 are known. One of the known stabilizers contains a regulating element, which is connected in series through a bridge rectifier in series with the primary winding of a power transformer. The disadvantage of this device is the large time of setting the output voltages upon switching on.

The second known device, which is the closest technical solution to the invention, contains a power transformer, an adjustable element connected via a rectifier in series with the primary winding of the power transformer, a resistor and a zener diode connected in series and connected to the auxiliary rectifier input, and the common point to the regulating element. The disadvantage of this stabilizer is the complexity and the long time to set the output voltages when it is turned on, especially when the capacitive load is connected. In this case, the current of the control transistor is determined only by the resistance of the resistor, bypassing the collector-base junction, and the resistance of this resistor cannot be chosen sufficiently small.

The aim of the invention is to simplify the stabilizer, reduce the time required to establish the output voltage of the stabilizer, and expand the range of variation of the load current.

This goal is achieved by the fact that the power winding of the power transformer is made in the form of two sections, between which a rectifier is connected with a regulating element, and the diodes of the auxiliary rectifier are connected to symmetrically located taps of the primary winding sections.

A schematic diagram of the stabilizer is shown in the drawing.

The stabilizer contains a power transformer 1, on which there are sections 2 and 3 of the primary winding and at least one

secondary winding 4. Between sections 2 and 3, through rectifier 5, the control transistor 6 is turned on, the base of which is connected through the resistor 7 and the zener diode 8 to the output of the auxiliary rectifier 9.

The stabilizer works as follows.

At the beginning of each half cycle, when the instantaneous value of the mains voltage is below the t / orp limiting level (twice the voltage of stabilizing the Zener diode 8), the Zener diode 8 is in a non-conducting state. The auxiliary rectifier current flows through the resistor 7 into the base of the transistor 6 and opens it. Sections 2 and 3 of the primary winding are interconnected, a full network voltage is applied to them. At the moment when the instantaneous value of the network voltage becomes equal to t / orp (this corresponds to the equality of the voltage applied to one of sections 2 and 3 of the primary winding of transformer 1, a voltage of 0.5 ogre), the zener diode breaks through and a part of the current of the resistor 7. As a result, the base current of the transistor 6 decreases and it changes to the linear mode in the saturated mode. A constant voltage of 0.5 f / orp is maintained at each of sections 2 and 3. The voltage drops across the transistor 6. After the instantaneous value of the mains voltage drops below f / orp, the zener diode turns off and the trazistor 6 goes back into saturation mode. The form of voltage on sections 2 and 3, as well as transformed into secondary windings 4, is a sinusoid truncated, i.e. close to trapezoidal. In comparison with the prototype, the proposed stabilizer is simpler, power transformer 1 does not contain winding feedback, the control transistor control circuit contains a smaller number of elements. When the stabilizer is turned on, the control transistor 6 operates in the same mode.

as in the stabilizer operation mode. The current of the transistor 6 is determined by the resistance of the resistor 7 regardless of the mode of operation of the stabilizer and the moment of its inclusion

Claims (2)

1. Belopolsky I.I., Tikhonov V.I. Transistor Stabilizers for Elevated and High. “Energy, M, 1971, pp. 14-24. 2. Auth. St. No. 449339, cl. G 05f 1/44, 1970. S 2x 7 - {zzh r A v V l