SU981974A1 - Dc voltage stabilizer - Google Patents

Description

(54) CONSTANT VOLTAGE STABILIZER

This invention relates to stabilized DC power supplies.

Voltage stabilizers are known that contain a regulator, a feedback amplifier with an amplitude-frequency correction circuit, a reference voltage source, and an output voltage divider 1.

The closest to the technical essence of the invention is a DC voltage regulator containing a regulator, the control input of which is connected to the output of a single-stage differential amplifier, one input of which is connected to the output of the first voltage divider, the second input to the blocking capacitor and to the output An N-stage differential amplifier, the first input of which is connected to the source of the reference voltage, and the second input to the output of the second voltage divider 2 J.

A disadvantage of the known stabilizers is the low dynamic parameters of the stabilizer.

The aim of the invention is to improve the dynamic parameters of the stabilizer.

The goal is achieved by the fact that in a constant voltage stabilizer the second voltage divider

r and the source of the reference voltage are connected to the measuring terminals of the stabilizer for connecting the control circuits to the load, and the ground terminal of the blocking condensate

0 torus and the first voltage divider

connected to power circuits from a stabilizer connected to the leads for connecting the load.

The drawing shows an electrical diagram of a constant stabilizer

15 voltages

The stabilizer contains a regulator 1, a single-stage differential amplifier 2, the output of which is connected to the input of the regulating

20 organ 1, the first input - with the output of the first voltage divider 3, the second input - to the first output of the blocking capacitor 4, and through a resistor 5 to the output - a cascade differential amplifier 6, the first input of which is connected to the source voltage reference 7, and the second the input to the second voltage divider 8. The stabilizer also contains a filter capacitor 9 and a resistor 10 connected between the second input of the amplifier 2 and the voltage source 7. At the same time, the second voltage divider 8 and the horn source. The voltages 7 are connected to the measuring transducers of the stabilizer 11 and 12 which are connected to the load by control circuits. The first voltage divider 3 and the second lead of the capacitor 4 are connected to the power circuits of the stabilizer, in this case with 6 output power leads for connection to the load.

In the dynamic mode of the stabilizer, the amplifier 2, which is controlled by a difference signal, is obtained by comparing a portion of the output voltage from the first voltage divider 3 to the voltage on the blocking capacitor 4, which performs the second function reference voltage source. The resulting difference signal is amplified by amplifier 2, the output voltage of which is controlled by regulator 1, which compensates for a change in the output voltage of the stabilizer. Due to the high speed of the single-stage differential amplifier 2, the dynamic error will be small, although its gain is significantly lower than the resulting gain of amplifiers 2 and 6. Since amplifier 2 determines the stability of the output voltage of the source in a dynamic mode, the value of the blocking capacitor 4 in the amplifier circuit you can choose a larger value, which increases stability

stabilizer, t

At the same time, the error signal of the output voltage of the stabilizer is extracted at the input of the amplifier b by comparing a part of the output voltage coming from the second voltage divider 8 with the voltage coming from the voltage source 8 with the voltage coming from the voltage source 7. As a result, between the output of the amplifier b and the source of the reference voltage 7, an amplified error signal acting on the input of the amplifier 6 will be released on the ballast resistor 10. The indicated voltage corrects the value of the reference voltage by the voltage acting at the input of the single-stage differential amplifier 2, as a result of which a high stabilization accuracy is achieved according to the average value of the output voltage of the stabilizer. Now the influence of high time constant

the amplifier 6 will not lead to a deterioration of the dynamic parameters of the stabilizer, since the amplifier 6 will correct, albeit from the same time constant, but /

a small error in the output voltage of the stabilizer corresponding to a static error due to the gain of the single-stage differential amplifier 2, reducing it to a static error, determining the gain of the amplifiers 2 and 6. As resistors of the second divider 8, wire resistors having

low temperature coefficient of resistance, and as the resistors of the first divider 3 - nonwire, having a small inductance.

This technical solution allows to improve the dynamic parameters of the stabilizer, increase its stability and reduce the size by reducing the volume occupied by the capacitors connected at the output of the stabilizer;

Claims (2)

1. Analog and digital integrated circuits. Ed. Yakubovsky SV, M., Soviet Radio, 1979, p. 279-281, fig. 4.65.6. 2.Nazarov S.V. Transistor Voltage Regulators, M., Energie, 1980, p. 65, fig. 46.