SU1096623A1 - Pulse voltage stabilizer - Google Patents

Abstract

A PULSE VOLTAGE STABILIZER containing a power switch and a DLC filter sequentially connected between the input and output terminals, a comparator unit, the first input connected to the output of a voltage divider connected between the output terminal and the common bus, the second input through a relay element connected to the source of the reference voltage , and output through a preamplifier connected to the control inputs of a power switch and a relay element, a dynamic feedback circuit CBfisK, including in series The measured measuring winding of the DUC filter Drossel and the first resistor, the first and second capacitors, differing from the fact that, in order to increase the input voltage stability while reducing the mass and volume of the starch, the dynamic discharge circuit is connected in parallel to the reference voltage source and containing a serially connected second resistor and a switch with a control input connected to the output of the preamplifier, i connected in parallel with a dynamic feedback circuit and One (first and second capacitors are connected between the output of the voltage divider and the source of the reference voltage, with the midpoint of the first and second capacitors connected to the common bus. with

Description

The invention relates to electrical engineering and can be used for powering 1 different consumers with stabilized DC voltage. A pulsed voltage regulator is known that contains a key transistor and a DLC filter, a threshold element, connected to the control input terminal sequentially connected between the input and output terminals. the key transistor, the first input through a voltage divider connected to the output terminal, and the second input through a relay element connected to the source of the reference voltage l. Its disadvantage is the low stability of the output voltage, which is caused by the change in the process of the reference voltage value caused by the ripple of the current flowing through the zener diode. Closest to the present invention is a pulse voltage regulator, which contains a power switch and a DLC filter, a comparison unit connected between the input and output terminals, a comparison unit, the first input connected to the output is a delicate voltage connected between the output terminal and the common bus, the second input through a relay element connected to the source of the reference voltage, and an output through a preliminary amplifier connected to the control inputs of the power switch and the relay element, a dynamic feedback circuit, yuchayuschuyu measuring winding serially connected choke DLC-filter and the first resistor and the first capacitor and. In the device, a relay element is formed by a commutator / resistor, as a result of which the current consumed from the reference voltage source changes when the relay element is switched. When the input voltage changes, the average value of the current consumed from the reference voltage source also does not remain constant. Due to the drop in voltage on the internal resistance of the source of the reference voltage, this voltage is changed, which reduces the accuracy of stabilization of the output voltage. Connecting the first capacitor in series with the first input of the comparison circuit also reduces the stability of the output voltage, and this capacitor must also be non-polar, which leads to an increase in the mass and volume of the stabilizer. The purpose of the invention is to increase the stability of the output voltage while reducing the mass and volume of the stabilizer. . The goal is achieved by the fact that in a pulse voltage regulator containing a power switch and a DLC filter sequentially connected between the input and output terminals, a comparator unit, the first input connected to the output of a voltage divider connected between the output terminal and the common bus, the second input relay element connected to the source of the reference voltage, and output through a preamplifier connected to the control inputs of the power switch and the relay element, the dynamic feedback circuit, in The DLC filter throttle serially connected measurement windings and the first resistor, the first and second capacitors, a dynamic unloading circuit are inserted parallel to the reference voltage source and containing a second resistor connected in series and a switch controlling the input to the preamplifier output, in parallel the included dynamic feedback circuit and the first and second capacitors connected in series are connected - between the output of the voltage divider and Source of the reference voltage, the midpoint of the first and second capacitors connected to a common bus. The drawing shows a diagram of the proposed device. The power circuit of the pulse voltage regulator is formed by the power switch 1 and the primary winding 2 d e sset 3 included in the DLC filter and the capacitor 4 from which the output voltage of the stabilizer is removed. One input 5 of the comparison unit 6 through a resistor 7, which, together with the switch 8 and the resistor 9, forms a relay element, is connected to the source 10 of the reference voltage. Through a resistor 9 and a switch 8 of the relay element, the input 5 of the comparison circuit 6 is connected to an auxiliary voltage source E, also used to set the current to the reference voltage source 10. The control circuits of the power switch 1 and the switch 8 are interconnected and connected from the output of the comparison circuit 6 through the preamplifier 11. The input 12 of the comparison circuit is connected to the common point of the voltage divider formed by the series connection of resistors 13 and 14 and connected in parallel to the capacitor 4. Sequence to the circuit from the measuring winding 15 of the droplets 3 and the resistor 16, input: for a circuit, dynamic feedback is connected between the input 12 of the comparison circuit 6 and the source 10 of the reference voltage. These points also include an integrating capacitance consisting of successively connected capacitors 17 and 18, the common point of which is connected to the common bus connecting the capacitor 4, the resistor 14 and the source 10 of the reference voltage. In parallel, the latter is connected to the dynamic discharge circuit 19, formed by the series connection of the resistor 20 and the key 21. According to the control circuits, the key 21 is combined with the power key 1 and the key 8. The device operates as follows. When the power CLUTCH 1 is closed, the switch 8 simultaneously closes with it, and the current flowing through the resistors 7 creates a higher potential at the input 5 of the comparison circuit 6 compared to the potential of the reference voltage source. The keys remain in the closed state until until under the action of the voltage induced in the measuring winding 15 of the throttles 3, the potential of the input 1 of the comparison circuit 6 becomes equal to the potential of the input 5. The dynamic unloading circuit is designed to prevent additional loading of the reference voltage source. The resistance of the resistor 20 is selected so that when the key 21 is closed, the current flowing through the resistor 20 is equal to the current through the resistor 7. In this case, the excess current does not flow into the reference voltage source, thereby eliminating the influence of the reference voltage of the stabilizer voltage even with a significant dynamic resistance of the source 10 of the reference voltage. Thus, caNbiM improves the stability of the output voltage of the stabilizer. The integrating capacitance is made in the form of two capacitors 17 and 18, the interconnection point of which is grounded, so that a constant component is formed at the voltages of both -capacitors, and it is possible to use electrolytic capacitors that have a significantly larger specific capacitance compared to with conventional (tvie film). This helps to reduce the size of the device. The common point of capacitors, forming the integrating capacitance, is mo; It can be connected in principle to any of the power rails, as well as to the auxiliary source E, but from the point of view of protecting the stabilizer from interference, their connection to a grounded bus is preferable. Thus, the proposed device differs from the known output voltage stability, mass, and volume.

Claims (1)

PULSE VOLTAGE STABILIZER, comprising a power switch and a DLC filter connected in series between the input and output terminals, a comparison unit connected to the output of the voltage divider by the first> input, connected between the output terminal and the common bus, and the second input through the relay element connected to the reference voltage source; and through an output through a preamplifier connected to the control inputs of the power switch 'and the relay element, a dynamic feedback circuit, including a series-connected measuring winding of the DtC filter inductor and a first resistor, the first and second capacitors, characterized in that, with In order to increase the stability of the input voltage while reducing the mass and volume of the stabilizer, a dynamic unloading circuit is introduced into it, connected in parallel with the reference voltage source and containing the following the second resistor and the key connected to the control input connected to the output of the preamplifier, parallel-connected dynamic feedback circuit and series-connected first and second capacitors are connected between the output of the voltage divider and the source of the reference voltage, the middle point of the first and second capacitors connected to common bus. SU., „1096623 .1096623