SU782078A1 - Dc voltage converter - Google Patents

Description

(54) CONSTANT VOLTAGE CONVERTER

one

The invention relates to electrical engineering and can be used in secondary power supply systems for converting a constant voltage to two different polarity voltages of a lower level, having a common point, which is necessary for powering, for example, operational amplifiers.

A DC / DC converter with two different-pole output voltages is known, comprising a transistor inverter, a transformer, and a rectifier 1.

A disadvantage of the known converter is the presence of a transformer, which leads to large dimensions and manufacturing complexity of the device.

Transformerless DC converters include capacitors, diodes, and switching transistors.

The closest in technical essence to the present invention is a transformerless converter with two opposite polarity output voltages having a common point. The converter contains two transistors, three diodes and a storage capacitor. The first transistor is controlled by an external signal, second in antiphase with the first transistor, using one of the diodes that is connected to the collector circuit of the first transistor and the bias resistor connected between

5 base and collector of the second transistor 2.

A disadvantage is the significant loss in the second transistor due to its incomplete unlocking. The purpose of the invention is to increase efficiency.

10 This goal is achieved by the fact that in a constant voltage converter containing a first chain consisting of a n-series connected ne, dvoy transistor, first diode and second

 the transistor and the emitter connected to the first transistor to the first input terminal of the converter and the collector of the second transistor to the second input terminal of the converter, the second chain consisting of consistently-connected second and third diodes and connected by the cathode of the second diode to the output terminal of the positive, polarity and anode of the third diode to the output terminal of the negative polarity and cumulative

a capacitor connected between the connection point of the first diode and the emitter of the second transistor and the connection point of the second and third diodes, with the base of the second transistor connected directly to the collector of the first transistor and to one of the bias resistor terminals, the common output terminal of the converter and the other terminal of the bias resistor is connected to the junction point of the second and third diodes, and the converter outputs are shunted by filter capacitors.

The drawing shows a diagram of the Converter.

The converter contains transistors 2, 3 connected in series through diode 1, a storage capacitor 4, the positive lining of which is connected to the emitter of transistor 2, and negative - to one output of a bias resistor 5, the second output of which is connected to. a collector and a base, respectively, of transistors 3, 2 and the rectifying circuit, the anode of diode 6 and the cathode of diode 7 of which are connected to the positive and negative output terminals respectively and through filtering capacitors 8, 9 to the common output terminal, and the cathode of diode 6 and anode of the diode 7 are combined and connected to the negative plate of the storage capacitor 4. The base of the transistor 3 is connected to the source 10 of the control signals. The device works as follows. At the time of the signal from the control source 10, the transistor 3 is saturated, the storage capacitor 4 is charged by the power supply through the transistor 3, the diode 6 and the load connected between the positive output terminal and the common output, at these points in time the transistor 2 is closed attached to its transition " base-emitter voltage on diode 1.,.

At the moments when there is no signal from the output of the control source, the storage capacitor 4 is discharged through the bias resistor 5 and the base-emitter junction of transistor 2, thereby providing deep saturation of transistor 2 and, simultaneously through transistor 2, the load connected between the negative output terminal and the common output and diode 7.

Since the time constants of charge and discharge of storage capacitor 4 are equal to when operating at a differential load, the capacitor is charged to the voltage and - -. Accordingly, the voltage at the positive output terminal is equal to) and at the negative output terminal - EL U4 t . e. increases efficiency.

Claims (2)

1. US Patent No. 367185, cl. 321-2, 1972. 2. USSR author's certificate number 526991, cl. H 02 M 3/335, 1974.