SU520571A1 - Voltage stabilizer - Google Patents

Description

(54) VOLTAGE STABILIZER

on the Zener diode 1O using the nocTosfflHpro current set 11 on the transistor. In the collector circuit of this transistor on | A control oscillator 12 is installed, the output windings of which are connected to the base circuits of the regulating element 3. The XZ resistor and capacitor 14 provide for reliable start of the circuit when the stabilizer is turned on.

During normal operation of the stabilizer, the voltage drop across the resistor 8 is greater than the reference voltage across the Zener diode 1O. The difference of these voltages determines the base current of the DC amplifier 11 and, therefore, the amount of voltage applied to the control oscillator 12, the oscillation frequency of which is linearly connected to the voltage at its input. The voltage removed from the output windings of the oscillator 12 ensures the saturation of the transistors of the power amplifier 3 operating in switching mode with the frequency set by the oscillator 12. Amplitude voltage: ha on the output winding 4 of the transformer in normal mode is greater than the supply voltage . The magnitude of the current is limited by the reactance of the circuitB. The rectified current after rectifier 6 through fossel 7 is led to the input of the stabilizer. The voltage drop across power amplifier 3 with saturated triodes is equal to the voltage across the transformer half winding.

When the voltage on the power supply 1 is increased, the voltage on the load 2 and on the divider 8.9 increases, which provides an increase in the current in the DC amplifier 11. This leads to an increase in j-voltage on the autogenerator 12, and, consequently, an increase in the switching frequency of power amplifier 3. The resistance of circuit 5 at a higher frequency is higher than in the normal mode. also uve is lost. The primary amperage of the OUTLET transformer of the power amplifier is equal to the secondary amperages, hence the current in the reactive circuit 5 increases.

Thus, if a small increase in the voltage on the load corresponds to a large increase in the frequency of the oscillator, the resistance of the reactive and the control voltage on the power amplifier 3, then a high coefficient of stabilization with a constant load current is ensured.

An increase in the resistance of the load / voltage is accompanied by an increase in the voltage of the load, which leads to an increase in the switching frequency and an increase in the voltage drop across the power amplifier. Low output: the resistance of the stabilizer rberpechivaetx with a large gain factor of the DC amplifier 11, kosf-; by the oscillator gain of the oscillator 12 and the frequency response characteristic of the reactive circuit 5.

With an equal degree of saturation of TpnoiaoB. Power amplifiers and equality of their saturated resistances, the currents in the load do not contain harmonic components, and the input current of the stabilizer does not have large pulsations.

Claims (1)

Invention Formula A voltage stabilizer containing a regulating element connected in series to the supply bus, made on push-pull power amplifier with transformer output, rectifier, choke, reference voltage source connected to one input of the reference element, the other input of which is connected to the middle point of the output voltage divider, a: the output of the reference element is connected to a control circuit with an autogenerator connected to the control input of the regulating element, and the frequency-dependent reactive circuit, with the fact that, with whole improvements in the supply current, the control 14 input of the regulating element is connected to the output of the auto-oscillator, whose input is connected to the output of the reference element, and the transformer output of the regulating element It is connected to a rectifier, the positive terminal of which is connected to the positive pole of the power source through a cross-connection, and the negative terminal to the negative pole of the power source.