SU1128232A1 - Dc voltage stabilizer - Google Patents

Abstract

A CONSTANT VOLTAGE STABILIZER containing in series between an input and an output, a pulsed regulating element and a DLC filter, an output voltage divider connected by the outermost terminals between the output terminal and the common bus, and an output pin connected to the first input of the first DC amplifier, the second input of which is connected to the output of the voltage source, and the output is connected to the input of a pulse modulator having a comparator, the output of a pulse modulator is connected to the control input a lazy pulsed regulating element, a continuous regulating element connected to the input and output terminals and a control input connected to the output of the second direct current amplifier, characterized in that, in order to increase the stability of the output voltage in a dynamic mode, a hysteresis comparator is introduced into it, and the second DC amplifier and the RC pulsator of the pulse modulator are equipped with gating inputs, the inputs of the hysteresis comparator and the inputs of the second DC amplifier The output voltage divider and the output voltage source are connected respectively to the output, and the output of the hysteresis comparator is connected to the gates of the comparator of the pulse modulator and the second amplifier of the full-scale current. ISD jS N9

Description

The invention relates to electrical engineering and can be used in devices of secondary power sources. A known constant-voltage regulator of the series type contains a regulating element of a pulse-width modulator comparator, a saw-tooth voltage generator, a differential error amplifier, a reference voltage source, an output LCD filter, an output voltage divider yi, a device suppressing dips. This stabilizer is the presence of a relatively large dynamic instability due to the non-zero voltage unlocking the transistors of the dip suppressor device. The closest to the technical essence of the invention is a DC voltage stabilizer containing a pulse stabilizer, the control unit of which includes a comparison circuit, a DC amplifier and a pulse modulator, and a continuous stabilizer, power cables connected in parallel with similar terminals of a pulse stabilizer and the control input is connected to the output of the DC amplifier of the control unit of the pulse stabilizer C2L. However, the known stabilizer has a relatively evysokoe quality stabilization in the dynamic mode, due to the fact that the range of operation of the continuous output voltage stabilizer device voltage is maintained at less than n urs stabilization switching regulator. The purpose of the invention is to increase the stability of the output voltage in a dynamic mode. The goal is achieved by the fact that the stabilizer of a constant voltage, containing sequentially connected between the input and output terminals, a pulse regulating element and a LCV filter, an output voltage divider connected by the extreme terminals between the output terminal and the common bus, and the output voltage pin connected with. the first input of the first DC amplifier, the second INPUT of which is connected to the output of the reference voltage source, and the output is connected to the input of a pulse modulator having a comparator, the output of a pulse modulator is connected to the control input of a switching regulator, a continuous regulating element connected to an input and output terminals and a control input connected to the output of a second DC amplifier, a hysteresis comparator is introduced, and a second DC amplifier and a comparator impulse The gating modulator is provided with gating inputs, the hysteresis comparator inputs and the inputs of the second DC amplifier are connected respectively to the output terminal of the output voltage divider and the output of the reference voltage source, and the output of the hysteresis comparator is connected to the gates inputs of the pulse modulator comparator and the second amplifier, nnogo current. FIG. -1 shows a diagram of a stabilizer post, for example; in fig. 2 -, time diagrams, which explain her work. Constant stabilizer ex. It contains a pulsed voltage regulator 1, including a pulsed regulating element 2, a gated comparator of a pulse modulator 3, a sawtooth voltage generator 4, the first differential error amplifier 5, the reference voltage source 6, a DCS filter 7 consisting of Drossel 8, capacitor 9 and diode 10, divider 11 of the output voltage, hysteresis comparator 12, continuous voltage regulator 13, containing a continuous regulating element 14 and the second gated differential amplifier 15 errors. The input of the pulse voltage regulator 1 is connected to the input of the continuous voltage regulator 13, the first input of the hysteresis comparator 12 is connected to the combined inverting inputs of the first differential error amplifier 5 and the second differential amplifier 15 error with the gate input, as well as the output of the output voltage divider 11, the input of which is connected to the combined outputs of pulsed 1 and continuous 13 voltage stabilizers. The second input of the hysteresis cocharator 12 is connected to the combined non-inverting inputs of the first differential force of error bodies 5 and the second differential amplifier 15 of the old circuit to the gate input, as well as to the output of the reference voltage source. The output of the hysteresis comparator 12 is connected to the combined gating inputs of the comparator of the pulse modulator 3 and the second differential amplifier 15 error. The constant voltage stabilizer operates as follows. The output voltage is stabilized in a steady-state operating mode due to the action of the main feedback loop: the output voltage divider 11, the first differential amplifier 5 opshkki, gated comparator of the pulse modulator 3, the pulse regulating element 2. In the dynamic mode of operation with a jump-like With a decrease in load resistance, the output voltage decreases, and the equality of the voltages at the inputs of the hysteresis comparator 12 is violated. The comparator is triggered, which leads to the appearance at the gating input of the comparator of a pulse modulator 3 of the turn-off signal, and at the input of the gating of the second differential amplifier 15 a switching voltage error. As a result, the output of the comparator of the pulse modulator 3 establishes the voltage required to impregnate the pulsed regulating element 2, and the nominal voltage of the stabilizer is maintained by the continuous stabilizer 13 of the constant negative signal, due to the auxiliary negative feedback circuit: output divider 11 output voltage, gated second differential amplifier 15 error, continuous regulating element 14. Continuous voltage regulator 13 is in operating mode until the current in choke 8 rises to the value needed to maintain the rated output voltage. A further increase in current leads to an increase in the output voltage and disrupts pa: the BeHCTBQ voltages at the inputs of the hysteresis comparator 12. The latter is triggered, changes its state at the output, turns on the comparator of the pulse modulator 3, and turns off the second differential amplifier 15 error. The transient process ends and the stabilizer returns to steady state operation. Timing diagrams of the output on the yarn of a non-sprag stabilizer (dotted line) and the proposed one (solid line) are presented. In FIG. 2. Thus, in the proposed stabilizer, by introducing hysteresis comparator 12 and new connections, it is possible to improve the quality of the transient process with a stepwise decrease in load resistance, since in the transient mode the output voltage is maintained at a predetermined level. The use of a predictable stabilizer in the power supplies of electronic equipment improves the exact characteristics of these devices.

Claims (1)

A DC voltage stabilizer containing a pulse regulating element and a DLC filter connected in series between the input and output terminals, an output voltage divider connected by the extreme terminals between the output terminal and the common bus, and an output terminal connected to the first input of the first DC amplifier, the second input of which is connected with the output of the reference voltage source, and the output is connected to the input of the pulse modulator having a comparator, the output of the pulse modulator is connected to the control input pulse regulating element, a continuous regulating element connected between the input and output terminals and the control input connected to the output of the second DC amplifier, characterized in that, in order to increase the stability of the output voltage in dynamic mode, a hysteresis comparator is introduced into it, and the second constant amplifier the current and the comparator of the pulse modulator are equipped with gating inputs, and the inputs of the hysteresis comparator and the inputs of the second DC amplifier are connected respectively to the output terminal of the output voltage divider and the output of reference voltage source, and the output of the hysteretic comparator connected to the inputs of the gating pulse modulator comparator and a second DC amplifier. ¹ 1128232 1