SU936294A1 - Stabilized ac voltage-to-dc voltage converter - Google Patents

Description

I

The invention relates to converter technology and can be used in the development of secondary power sources.

Stabilized rectifiers are known which contain a transformer, a main rectifier, an auxiliary rectifier for obtaining a reference voltage, a reference voltage source regulating a transistor 1 J.

The disadvantage of the converter is that it requires additional windings on the transformer to power the auxiliary rectifier of the voltage source, which complicates the circuit.

Closest to the invention is a stabilized AC / DC converter containing a transformer, to the secondary winding of which a bridge rectifier is connected, which controls the transistor and the source of the voltage, and the base of the regulating transistor is connected to one of the outputs of the voltage source, the other the output of which is connected to the first output terminal, which is common, and the emitter of the regulating transistor is connected to the second output terminal.

However, to obtain a highly stable 10v source of the reference voltage, it is necessary to have a two-fold voltage at the input, i.e. served at the entrance. parametric stabilizer reference

15 sources. This voltage should be higher than the stabilized one. In this device, this voltage overvoltage from an auxiliary rectifier is obtained due to the difference

Claims (1)

The smoothed LC voltage of the main rectifier and the voltage of the auxiliary rectifier are close to the amplitude voltage due to the capacitive filter. Moreover, in a three-phase stabilized rectifier, the required excess cannot be obtained, and there is not always a need for an LC filter in the main rectifier circuit. The disadvantage, therefore, is the complexity of the transformer due to the additional windings for the auxiliary rectifier of the reference voltage source or the need to have an LC filter in the main voltage circuit. The aim of the invention is to simplify the stabilized variable voltage converter to the current. This goal is achieved by the fact that in a stabilized AC voltage-to-DC converter, containing a transformer, to the secondary winding of which is connected a bridge rectifier, a control transistor and a voltage source, the base of the control transistor is connected to one of the outputs of the voltage source, the other output of which is connected to the first output output, which is common, and the emitter of the regulating transistor is connected to the second output output, the bridge rectifier and the secondary The transformer's winding is three-phase, the latter is connected according to the star, the zero point of which is connected to the collector of the regulating transistor, one output of the bridge rectifier is connected to the common output terminal, and the other to one of the inputs of the reference voltage source, the other input of which is connected to the common output pin. The drawing shows a circuit stabilized by an alternating voltage converter into a constant converter The converter contains a three-phase transformer 1, the secondary windings of which are connected by a star method, rectifier valves 2 7 connected to a three-phase bridge, filter capacitors 8-11, zener diode 12, which is a non-linear element the reference voltage source and the regulating transistor 13, whose collector is connected to the zero point of the star of the secondary fouling, the emitter to the output terminal of the stabilized conversion ovatel, and the base to the source of the reference voltage. The source of the reference voltage other than a three-phase bridge rectifier 2-7; It contains a filter capacitor 9, a quenching resistor I, a capacitor filter 10 and a zener diode 12. Valves 3. 5 and 7 connected to the corresponding windings of a three-phase transformer, in relation to the neutral zero point of the star connection, form a three-phase half-wave rectifier. The device works as follows. A three-phase bridge outlet |} converter converts the alternating voltage taken from the secondary windings of transformer 1 into a constant from which the parametric stabilizer of the voltage source is powered. A three-phase half-wave rectifier formed by valves and 7; feeds through a regulating transistor. As the output voltage of the stabilized converter increases, the potential difference between the base and the emitter changes in such a way that the control transistor 13 becomes closed, its transition resistance increases, the voltage drop increases and the output voltage remains almost constant, and vice versa, as the output voltage decreases, it decreases voltage drop across the control transistor. Thus, the use of the invention avoids unwinding auxiliary windings for the rectifier of the source of the reference voltage or the placement of the LC filter in the main rectifier circuit. This makes it possible to reduce the complexity of manufacturing a transformer, the cost of copper and other materials, the size and weight of the transformer. In addition, the stabilized variable-voltage-to-constant voltage converter circuit is simplified. Claims of the Invention A stabilized AC / DC converter containing a transformer, to the secondary winding of which a bridge rectifier is connected, which controls the transistor and the source of the reference voltage, the base of the regulating transistor being connected to one of the outputs of the reference voltage source, the other output of which is connected to the first output terminal, which is common, and the emitter of the regulating transistor is connected to the second output terminal, which is the fact that, in order to simplify, bridges second rectifier and the secondary winding of the transformer, you pblneny three-phase, the latter is connected in star, va zero point of which is connected to kol3629 To a regulator transistor lecturer, one output of a bridge rectifier is connected to a common output terminal, and the other to one of the inputs of a reference voltage source, the other input of which is connected to a common output terminal. Sources of information taken into account in the examination to 1. Karpov V.I. Semiconductor compensation voltage and current stabilizers. M., Energie, 19b7 p. 106, fig. 632. Karpov V.I. Semiconductor IS compensation, on-line voltage and current stabilizers. M., Energie, 196 s. 13 (G fig.7b. i. 2S 2S WITH ffi-C-Ift ten 9 four J A5 g