SU1107112A1 - Stabilizer of voltage with arbitrary polarity - Google Patents

Abstract

STABILIZER OF VARIABLE VOLTAGE, containing a cumulative throttle, a serial control element connected to the first output of the cumulative throttle, and two filter capacitors, the first of which are connected to the common output, and the second and the same outputs to the first and second outputs, the same pattern, the pattern and the template, the pattern, and the restroom pattern, the jyo, With I, in order to obtain two different polarity output voltages, each of which exceeds the input voltage, the control node and three regulating elements, The first and second regulatory elements are connected to the common output, the first output of the third regulating element is connected to the first output, and the second output of the first regulating element is connected to the first output of the serial regulatory element, the second output of which is connected to the second output, the second outputs of the second and the third regulatory elements are connected to the second input terminal, with the first input terminal being connected to the second output of the accumulative throttle, The control pins of the first, second, third, and sequential control elements are connected to the corresponding output ports of the control unit, connected by inputs to the two input ports and the second output terminal. B5

Description

1 The invention relates to electrical engineering and can be used in various devices when it is necessary to obtain stabilized multi-polar voltages. Known voltage regulator, comprising a transistor regulator, a voltage sensor, a feedback device, a control node, which form a circuit of three switching diodes, two accumulative throttles, two filter capacitors, the second terminal of the transistor regulator connected to the first terminal the first cumulative throttle, with the anode of the first and the cathode of the second diode, the control output of the transistor regulator is connected to the first output of the control node, the second of which is connected to the sensor the reference voltage, and the third through the feedback device with a positive output terminal, the cathode of the first diode is connected to the cathode of the third diode and the first output of the second accumulation throttle, the second output of which is connected to the first output of the first filter capacitor, the first output of the second filter capacitor is connected with the anode of the second diode, the second output of the capacitors of the filters and the first accumulative throttle, as well as the second output of the second capacitor of the filter are connected to the common bus 1. The disadvantages of this stabilizer are Ator are impossibility povsheni vpae positive input relative to the total output voltage of the tire, and having two collecting chokes. The closest technical solution to the invention is a stabilizer containing a transistor switch connected by a power circuit between one of the terminals for connection to the supply source and a storage choke connected to one of the non-inverted output terminals, shunted by the first capacitor of the filter, the switching diode, the cathode of which is connected to the collector of the transistor switch - and the second filter capacitor shunting the inverted output, with the common point of the inverted and non-inverted outputs connected to another pin for connection to the power supply source 122, and the anode of the switching diode is connected to the first output of the inverted G2 output. The disadvantage of this device is the impossibility of increasing the voltages of the inverted and non-inverted outputs above the input because the cumulative choke with respect to the power source is permanently connected in series with the load. The purpose of the invention is to obtain two opposite voltage output voltages, each of which exceeds the input voltage. The goal is achieved by the fact that a stabilizer for bipolar voltage, containing a cumulative choke, a serial regulating element connected to the first output of the cumulative throttle, and two filter capacitors, the first outputs of which are connected to the common output, and the second outputs to the first and second the output pins of the device, the control unit and the three control elements are introduced, the first pins of the first and the second control elements are connected to the common output terminal, the first output of the third regulator The connecting element is connected to the first output terminal, and the second output of the first regulating element is connected to the first output of the serial regulating element, the second output of which is connected to the second output terminal, the second terminals of the second and third regulating 1x elements are connected to the second input output, and the first input output is connected with the second output of the accumulative drosel, the control outputs of the first, second, third and sequential regulating elements are connected to the corresponding outputs nym outputs a control node connected to the two inputs of the input and the second output terminal. FIG. Figure 1 shows a block diagram of a bipolar voltage stabilizer; in fig. 2 is an example of a specific implementation of a control node. The bipolar voltage stabilizer with two outputs contains regulating elements 1-4, the first and second capacitors of filters 5 and 6, 3 cumulative choke 7, connected by their second output with the first input terminal of the device, and the first output of accumulative throttle 7 is connected to the second the output of the regulating element 2 and to the first output of the sequential regulating element 1 a second terminal of which, together with the second terminal of the first capacitor of the filter 5, is connected to the second output terminal of the device, the first terminals regulating elements 2 and 3 and the first and second capacitors of filters 5 and 6 are connected to the common output, the first output of regulating element 4 is connected to the first output terminal of the device, and the second outputs of regulating elements 3 and 4 are connected to the second input terminal of the device, control unit 8 connected to the second input terminal of the device, the inputs A and B of which are connected to the input of the stabilizer and to the non-inverted output, and outputs A, B, C, D to the control terminals of the regulating elements 1-4. The node 8 for controlling the voltage regulator contains two analog voltage dividers 9 and 10, the inputs of which are connected to the terminals A and B, as well as the output terminal of the reference voltage source and on, a doubler 11 signal whose input is connected to the output analog divider 10 voltage, and the output - to the generator 12 of the sawtooth voltage, connected by its input to the comparator 13, to the second input of which the output signal from the analog dividers 9 voltage, the output of which is connected to the inputs of the generator 1 2 sawtooth voltage, triggers 14 and 15 and integrator 16. In turn, the input of the integrator 15 also receives signals from the output of the analog divider 10 and the integrator 17, and the output of the integrator 17 and the output terminal of the reference voltage source UQP are connected to the inputs of the comparator 18, the output of which is connected to the inputs of the flip-flops 15 and 19, at the outputs of which, as well as the output of the flip-flop 14, control pulses are generated, which either directly or through the OR circuit 20 and 21 arrive at the regulating elements 1-4. In addition, the common control unit 8 maintains the synchronizer 22, the outputs of which are connected to the inputs of the generator 12 of the sawtooth voltage, the integrator 17 and the flip-flops 14 and 19. The stabilizer of the multi-polar voltage works as follows. With open control elements 2 and 3 and closed control elements 1 and 4, throttles 7 are charged, and the output voltages are equal respectively to the output voltages of the filter capacitors 5 and 6 (mode a). With open regulating elements 1 and 3 and closed regulating elements 2 and 4, the voltage at output 23 is equal to the sum of the voltages at the output and at the choke 7, and the voltage at output 24 is equal to the voltage of the filter capacitor 6 (mode b). With open regulating elements 2.4 and closed regulating elements 1.3, the voltage at the output 23 is equal to the voltage of the capacitors of the filter 5, and the voltage at the output 24 is equal to the sum of the voltages at the input and at the choke 7 (mode c). Suppose that the period of operation of a stabilizer of opposite polarity voltage consists of three intervals. In the first interval, the stabilizer operates in cx mode, in the second - in mode 5, in the third - in e mode. Consider the process: stabilizing the output voltages. As the input voltage rises above the nominal value, the duration of the first interval of operation of the stabilizer decreases. Thus, the energy accumulated in choke 7 in the first interval is reduced, and the output voltages are reduced. When the input voltage drops below the nominal value, the duration of the first interval of operation of the stabilizer increases and, consequently, the energy enlarges, accumulates in the inductor 7 in the first interval and the output voltages increase. As the output voltage on the non-inverting output rises above the nominal, the duration of the second interval of the stabilizer decreases. Thus, the charging time of the filter capacitor 5 is reduced in the second operating interval, which leads to a decrease in its output voltage.

The lowering of the output voltage at this output is below the threshold value of the second interval of the stabilizer operation. In this way, the charging time of the filter capacitor 5 on the second interval of operation increases, and this leads to an increase in the output voltage.

The introduction of the multi-voltage voltages of the three regulating elements and the control unit into the stabilizer favorably distinguishes the proposed device from the known ones, since it allows to obtain at the output two different-voltage voltages exceeding the input voltage.

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Claims (1)

VARIABLE VOLTAGE STABILIZER, comprising a storage choke, a series control element connected to the first output by the first output of the storage choke, and two filter capacitors, the first pins of which are connected to the common output pin, and the second pins to the first and second output pins, distinguishing The reason is that, in order to obtain two bipolar output voltages, each of which exceeds the input voltage, the control unit and three control elements are introduced into it, the first output The first and second control elements are connected to the common output terminal, the first terminal of the third regulatory element is connected to the first output terminal, and the second terminal of the first regulatory element is connected to the first terminal of the serial control element, the second terminal of which is connected to the second output terminal, the second terminals of the second and the third control elements are connected to the second input terminal, and the first input terminal is connected to the second terminal of the accumulator choke, The first, second, third and sequential control elements are connected to the corresponding output terminals of the control unit, connected by inputs to two input and second output terminals. SU "" 110711 VVV ♦ ___ VVV VS "in A VVV ~ / ί Vyvs dropped out