SU725172A1 - Stabilized inverter - Google Patents

Description

one

The invention relates to electrical engineering, in particular, to secondary power sources with voltage conversion and can be used to power radio equipment, automation devices and computer equipment.

A stabilized inverter is known in which the stabilization of the output voltage is carried out according to the principle of static control of two channels 1. However, the known stabilized inverter has a low temperature coefficient of voltage (current) stabilization without special thermal compensation measures, since the autogenerators of the channels are powered from various power sources with different temperature coefficients; ientami, and has a low reliability.

The closest technical solution to the proposed one is also a stabilized inverter built on the principle of an astatic controller, containing a power amplifier, master and slave autogenerators, a measuring transformer and a voltage element, one output of which is connected to a power supply common to the emitters of both autogenerators 2.

Although both autogenerators of this inverter are powered from a common reference voltage source, a voltage rectifier (current) of the measuring transformer is connected to the power supply circuit of the slave autogenerator, which reduces the temperature coefficient of voltage stabilization (current) and the reliability of the stabilized inverter. In addition, the presence of separation diodes connected in series with the switching transformers of both oscillators is also a destabilizing factor. The purpose of the invention is to increase the reliability and accuracy of voltage stabilization. This goal is achieved by the fact that in a stabilized inverter containing two power amplifiers, whose outputs are connected in series, the inputs are parallel, and the control circuits are connected to the output of the master and slave autogenerators, respectively, the supporting element, bypassing the input of the master autogenerator and a measuring transformer, the primary winding of which is connected to the inverter in progress, the specified transformer is made with two secondary windings, and the slave oscillator is output Nen on

a push-pull circuit with an output transformer having two primary windings, each of which is connected to the supporting element through the corresponding secondary winding of the measuring transformer.

The drawing is a diagram of the proposed inverter.

The proposed device uses a power amplifier 1 with output transformers 2 and 3, a master 4 and a slave 5 autogenerators, a measuring transformer 6 and a support element 7, one output of which is connected to a power bus common to emitters, transistors of both autogenerators, and the other output of element 7 connected to the midpoint of the primary winding of the transformer 8 of the master autogenerator 4 and the connection point of the secondary windings of the measuring transformer 6 connected in series with the primary windings of the transformer 9 slave oscillator 5.

The device works as follows.

The transistors of the power amplifier 1 of the master and slave channels are energized from the autogenerators 4 and 5. The output voltage of the inverter is formed as the sum of the voltages of the secondary windings of the output transformers 2 and 3. The output voltage through the measuring transformer b is fed to the power circuit according to the selected transformation ratio slave oscillator 5, where in each half-period of operation the voltage of the corresponding half of the secondary winding of the measuring transformer 6 is summed with the voltage on the supporting element 7. Due to this, the total deviation of the output voltage from the set value under the influence of a change in the input voltage or load current causes such a change in the frequency of the slave oscillator 5, and hence the phase of the voltage of the slave channel relative to the driving droplet, stress takes

the set value, i.e., remains stable.

The use of the invention will improve the reliability and temperature coefficient of voltage stabilization of the stabilized inverter.

Increased reliability in the proposed

device is achieved by simplifying

inverter circuits and in particular due to

eliminating straightener in the secondary circuit

winding measuring transformer.

The increase in the temperature coefficient of voltage stabilization in the proposed device is achieved due to the fact that it contains a smaller number of thermo-dependent elements and, therefore, has a greater identity between the parameters of the autogenerators and their power supply circuits.

Claims (2)

Invention Formula A stabilized inverter containing two power amplifiers, the outputs of which are connected in series, the inputs in parallel, and the control circuits are connected to the outputs of the master and slave autogenerators, respectively, the support element, bypassing the input of the master autogenerator, and the measuring transformer, the primary winding of which connected to the output of the inverter, characterized in that, in order to increase the reliability and accuracy of stabilization, the measuring transformer is made with two orichnymi windings, and oscillator driven push-pull circuit is configured with an output transformer having two primary windings, each of which is connected to the supporting element through the corresponding secondary winding of the measuring transformer. Sources of information taken into account in the examination 1- USSR Author's Certificate No. 199244, cl. H 02M 7/48, 1968. 2. USSR author's certificate M 437058, cl. G 05F 1/64, 1972.