SU1288848A1 - D.c.voltage-to-d.c.voltage converter - Google Patents

Abstract

The invention relates to electrical engineering and can be used in secondary power sources. The purpose of the invention is to increase reliability by simplifying and reducing weight and size. The converter contains the master oscillator 1, the power amplifier 2 with the primary winding 3 of the output transformer on two cores 4 and 5, the voltage of the secondary winding.6, the passage through the rectifier 8 and the filter 9, is fed to the output terminals 11 and the input of the voltage measuring element 10 When the output voltage changes, the current through the matching resistor 15 is supplied to the base-emitter junction of the transistor 13, changing its pass resistance of the power junction. Performing half-wavelength high-voltage 12 and a matching circuit in the form of a resistor 15 ensures the stabilization of the output voltage while simplifying the circuit, which increases the reliability and weight and dimensions, 1 Il. i (L -t-0 -9

Description

The invention relates to electrical engineering, in particular to converter equipment, and can be used in the development of secondary power sources.

The purpose of the invention is to increase reliability by simplifying and reducing weight and size.

The drawing shows a schematic diagram of a voltage converter.

The converter consists of an inverter, made in the form of a generator 1, power amplifier 2 from the primary winding 3 of the output transformer on two cores: output 4 and control 5.

The secondary winding 6 is wound on the core 4, and the control control winding 7 is wound on the control core 5. The secondary winding 6 is connected to the input of the first rectifier 8, and the rectifier input 8 is connected to the input of the filter 9, the output of which is connected to the input terminals of the voltage measuring element 10 and simultaneously with the output terminals 1 1. The control winding 7 is connected via the second rectifier 12 to the transition emitter-collector of the regulating transistor 13, between the collector and the base of which the triggering resistor 14 is connected, and the base of the transistor 13 through the matching resistor 15 is connected to one voltage output terminal 10. The regulator transistor emitter is connected to the second output terminal of the voltage measuring body 10

The converter voltage is as follows.

When a direct voltage converter is applied to the converter, generator 1 produces a pulse voltage signal of the form a square wave, which is transmitted by amplifier 2 operating on the primary winding 3 wound simultaneously on both cores 4 and 5 of the transformer. In this case, EMF is induced in each of windings 6 and 7.

The voltage from the secondary winding 6, the passage through the first rectifier 8 and the filter 9, goes to the load 16 and simultaneously to the input terminals of the measuring body 10 of a voltage consisting of three resistors and a zener diode. From the output of the measuring body 10 voltage, in violation

its balance due to a change in the constant output voltage, the current through the terminating resistor 15 is fed to the input (emitter-base) of the transistor 13, changing its pass resistance of the emitter-collector.

The voltage from the control winding 7 causes a current through the second voltage of the I2 and the emitter-collector junction of the transistor 13. Due to the unilateral conduction of the rectifier 12, the current has the form of unipolar pulses. This current causes the magnetization of the core 5, which causes a redistribution of the magnetic flux

from primary winding 3 to core 4 i

Magnetic flux, close through

The core 4 causes an increase in the emf in the secondary winding 6 and, therefore, the voltage across the load. A change in voltage at the output terminals 11 leads to a change in the pass resistance of the transistor 13 so that the change in voltage across the load is compensated. A change in voltage across a load can be caused not only by a change in the voltage to be converted, but also by a change in the load current.

The invention consists in simplifying the device by eliminating the phase-impulse control circuit, eliminating the third secondary winding wound on two cores for the power supply of the phase-pulse control circuit, and eliminating the power supply itself, which increases the reliability of the converter and reduces the weight and size.

Claims (1)

Invention Formula DC / DC converter containing an inverter with an output transformer on two cores with primary, secondary and control windings, the primary winding being located simultaneously on two cores, the secondary winding is located on the first core of the transformer and through the first rectifier connected to the filter input , the output of which is connected to the output and input terminals of a voltage measuring device connected through a matching circuit with a baso-emitter junction regulator3 1288848 4 transistor, emitter-collection-simplification and mass reduction, and whose transition is across the second barriers, the second rectifier is connected to the rectifier parallel to the half-wave, between the co-regulating winding located by the collector and the base of the regulating transistor on the second core of the transformer, 5 A resistor is included in the resistor, characterized in that the torus and the matching circuit are made to increase reliability by means of a matching resistor,