SU928322A1 - Dc voltage pulse stabilizer - Google Patents

Description

(5) IMPULSE VOLTAGE STABILIZER

I

The invention relates to electrical engineering and can be used as a DC voltage stabilizer.

Known pulse voltage regulators til.

The closest to the invention according to the technical essence of the pulse is a DC voltage regulator containing an adjustable pulse converter, the output of which is connected via a filter choke to the filter capacitor and the output terminals of the stabilizer, a comparison unit, one of the inputs of which is connected to a voltage source, and the output is connected to the control input of the pulse converter, and the winding, one of the outputs connected to the output output connected to the filter choke. In the known device, both of these windings are located on the filter choke 2. DC.

The disadvantage of this stabilizer is lowered reliability associated with a small margin of stability with changes in input voltage and load resistance. The use of double-wound throttle allows a somewhat increase in the stability margin of the device, but the magnitude of this margin is largely dependent on

10 power supply voltage and load resistance. This is due to the fact that the level of the signal induced on the second winding of the throttles is directly proportional to the voltage of the power supply of the pulse amplifier. In addition, the stability margin is highly dependent on the load resistance, due to the dependence of the cutoff frequency of the LC filter on

20 load resistance.

The purpose of the invention is to increase the reliability of the operation of the pulse stabilizer by increasing the stability margin of the device over wide ranges of load resistance and supply voltage. This goal is achieved by introducing three resistors and a capacitor into the DC voltage regulator, and the winding is inductively connected to the wire connecting the filter choke to the output of the stabilizer so that they form a current transformer when This is the second lead of the current transformer winding through the first resistor, shunted. the capacitor is connected to the second input of the comparison unit, through the second resistor connected to the first terminal of the specified winding, shunted by the third resistor. The drawing shows a functional diagram of a pulsed DC voltage regulator. The stabilizer contains a pulse-controlled converter 1, the output of which includes a filter consisting of a DROSS61 and a capacitor 3, in parallel with which the load is turned on, and the control input of the converter 1 is connected to the output of the comparator unit 5, one of the outputs of which is connected to a reference voltage source 6, a current transformer 7 with a load resistor 8, a RESISTANT divider consisting of two resistors 9 and 10, and a capacitor 11, the current transformer 7 being switched on, into the filter 2 droplets circuit and one of its terminals n with a common connection point of droplets 2 and a filter capacitor 3 with a load, and parallel to the current transformer 7 a load resistor of a current transformer 8 and a resistive divider are connected, while the resistor 9 is bridged by a capacitor 11, and the common connection point of resistors 9 and 10 of a resistive divider and capacitor 11 connected to the second input of the block. 5. The principle of operation of the device is based on the control of an adjustable pulse converter by an error signal, which determines the difference between the reference voltage and the sum of the voltages - the output voltage and the voltage proportional to the current through the choke. The summation of these two voltages allows one to obtain a phase shift limit of less than.,. At the same time, when the load resistance changes simultaneously with the change in the cut-off frequency of the filter, the signal from the current sensor changes, and the value of the stability margin remains almost constant. The capacitor 11 is designed to raise the amplitude-frequency characteristics of the resistive divider at high frequencies, which allows to slightly increase the stability margin of the device. The proposed stabilizer has a large margin of stability in a wide range of load variations. Formula of the invention The pulse regulator, a DC voltage, contains an adjustable pulse converter, the output of which through a filter choke is connected to the filter capacitor and the output terminals of the stabilizer, the comparison unit, one of the inputs of which is connected to the voltage source, and the output is connected to to the control input of the pulse converter, and the winding, one of the I terminals connected to the output terminal,. connected to a filter choke, characterized in that, in order to increase the reliability of the stabilizer, three resistors and a capacitor are inserted into it, and said winding is inductively connected to the wire connecting the choke liter to the output of the stabilizer, in such a way that they form a current transformer, while the second terminal of the current transformer winding through the first resistor, shunted by a capacitor, is connected to the second input of the comparison unit, through the second resistor connected to. the first output of the specified winding, shunted by the third resistor. Sources of information taken into account in the examination i. 1. Electronic technology in automation, Sat. M,., Soviet Radio, 1977 / vol. 9, p. 116-125. 2. Electronic technology in automation, Sat., M., Soviet radio, 1978, vol. 10, s. 133-139.

Claims (1)

Claim A pulse stabilizer, DC voltage, containing an adjustable pulse converter, the output of which through the filter inductor is connected to the filter capacitor and the output terminals of the stabilizer, a comparison unit, one of the inputs. which is connected to a reference voltage source, and the output is connected to the control input of the pulse converter, and a winding, one of the I conclusions connected to the output terminal connected to the filter inductor, characterized in that, in order to increase the reliability of the stabilizer, it is introduced three resistors and a capacitor, and the aforementioned winding is inductively connected to a wire connecting the feed choke to the output terminal of the stabilizer, so that they form a current transformer, while the second terminal of the transformer winding a current resistor through a first resistor shunted by a capacitor. connected to a second input of a comparison unit, through a second resistor connected to a first terminal of said winding shunted by a third resistor.