SU610088A1 - Dc voltage stabilizer - Google Patents

Description

 (54) CONSTANT VOLTAGE STABILIZER

The invention relates to the field of control and regupping & power sources and can be used in computing technology and communication technology.

A voltage regulator is known, which contains a device for protection against short circuits and input voltage spikes, main and auxiliary chokes, thyristors, zener diodes, parapathically to the resistor, is connected via a thyristor control junction diode ij.

A disadvantage of the known stabilizer is that in the case of a protection bank circuit, the circuit requires a restart.

The closest technical solution to the invention includes a DC voltage regulator, containing a current-controlled regulating element, power leads connected to the terminals of the load connection and through a ballast resistor to the terminals of the connection to the supply source, a feedback circuit consisting of node an you vpenk stabilized parameter connected to

an load connection with the comparison unit and c. the first LED connected to the output of the DC amplifier and connected to the current-controlled regulating element and the unit for generating the reference signal, made on the basis of an additional voltage source, to which a series circuit of a resistor and a zener diode connected and connected comparing unit 22.

Claims (2)

A disadvantage of the known stabilizer is the presence of a galvanic connection between the elements providing the output voltage and the elements providing the reference voltage, as a result of which the noise immunity of the circuit is reduced, in addition, the output voltage due to the input voltage and a slow A change in the output voltage (low frequency) is eliminated by one feedback unit, which limits the quality of voltage control. The aim of the invention is to increase the stability and decrease the ripple level of the output voltage of the stabilizer. The goal is achieved by the fact that a DC voltage regulator, containing a current-controlled regulating element, is connected to generators for connecting the load and, via a ballast resistor, to the terminals for connecting to the supply source, a feedback circuit consisting of a node. dp of detecting a stabilized parameter connected to the terminals for connecting the load and with the comparison unit to the first LED connected to the output of the dc amplifier and connected to the controlled current a regulating element, and a unit for generating a reference signal, made on the basis of an additional voltage source to which a series circuit of a resistor and a zener diode is connected, and connected to the comparator unit, is provided with an optics electronic differentiator, one of whose objectives consisting of a hypothetical but the connected capacitor and the second and third svetodiodobA connected in parallel are connected to the outlets for: connecting to the power supply to the source, and the other circuit consisting of The first photoreceiver, optically connected to the first and second LEDs, the variable resistor, the slider connected to the control input of the regulating element, and the second photodetector, optically connected to the third LED, are connected to the ends of the dp by accepting the load and the node dp detecting the stabilized the parameter is made in the VI of a series circuit of a resistor and a fourth LED, and the input of the DC amplifier is connected to a common point of the additionally connected connected but between themselves and loose ends with the findings of dp subconnecting; The third and fourth photodetectors are loaded, one of which is optically connected to the fourth LED, and the other is optically connected to an additional fifth LED that is connected via a junction emitter junction of the additionally inserted transistor to the specified reference signal. The drawing shows a schematic diagram of the described stabilizer. The DC voltage regulator contains a current-controlled regulating element consisting of transistors 1–3, a ballast resistor 4, the first LED 5 connected to the output of the DC power amplifier 6 and connected –c a current-controlled regulating element, a series circuit of resistor 7 and zener diode 8, which is part of a unit for generating a reference signal made on the basis of an additional voltage source, in addition, stabilization The torus contains one chain consisting of a series-connected capacitor 9 and the second 10 and third 11 LEDs connected in parallel, and another chain consisting of a series-connected single variable resistor 12, the first photodetector 13 optically connected with the LEDs 5 and 10 , and the second photodetector 14, optically connected with the LED 11, the Stabilizer also contains the third 15 and the fourth 16 photodetectors additionally inserted and connected in series with each other, the transis OR 17, fourth 18 and fifth LEDs 19 and a resistor 20, operates as follows: The stabilizer. At a constant nominal input voltage Uj, supplied to the input of the power source, the output voltage in the node for detecting a stabilizable parameter using the fourth LED 18 is converted into its corresponding St-com stream Pja, acting on the third photodetector 15, at the same time the reference voltage is converted into a block to form a reference signal into a corresponding constant reference luminous flux Φ, using a resistor 7, a zener diode 8, a transistor 17, and a fifth LED 19, Light flux, d to the fourth photodetector 16, In the comparison unit, both fluxes F. are compared, causing a voltage at the output of amplifier 6 and the light flux at the output of the first LED 5, Next, the first LED 5, acting on the first photodetector 13, provides a certain current value in the current controlled regulating element, whereby the output nominal voltage is set. If the voltage at the output terminals increases (decreases); the luminous flux F of the first LED 5 increases (decreases), which leads to an increase (decrease) in the current through the current-controlled regulating element, an increase (decrease) in the voltage drop across the buckle resistor 4, Thus, if the output voltage increases ( decrease); then the voltage drop across the backup resistance 4 increases (decreases) and has a place. The control considered is well implemented with the input voltage changes as well as with the load change. Dp of high-quality voltage control at high frequencies the dc voltage regulator is equipped with an optoelectron differentiator. With slow changes in the input voltage, the optoelectronic differentiator is insensitive to these low-frequency changes, since the product 10..9 is chosen where RCD is the resistance of the second and third LEDs 1O and 11; capacitor capacitance 9. If the voltage increases rapidly, the second LED 10 is triggered, giving out a luminous flux Fd, corresponding to TJ -nv. At the same time, the resistance of the first photodetector 13 decreases, and the current through the current-controlled reguclear element and the voltage drop across the resistor 4 increases, which provides a constant output voltage at the output. In pulsations associated with a sharp decrease in the input voltage, the third LED 11 triggers. Thus, the invention stabilizes the low-frequency and high-frequency oscillations of the input voltage. The system does not exclude the possibility of using a current-controlled regulating element instead of a ballast resistor 4, Formula of invention. A constant voltage regulator containing a current-controlled regulating element, connected to power lines for connecting the load and a ballast resistor connected to the voltage regulator. To an absorbing source, a feedback circuit consisting of a node for detecting a stabilizable parameter connected to the leads for connecting the load and with the comparison unit and with A first LED connected to the output of the DC amplifier and connected to the current-controlled regulating element and the block dp of forming a reference signal made on the basis of an auxiliary voltage source to which the series circuit of a resistor and a zener diode is connected and connected A comparator unit, characterized in that, in order to increase stability and reduce the ripple level of the output voltage of the stabilizer, it is equipped with an optoelectronic differentiator, one of the circuits of which The connecting of the series-connected capacitor and the second and third LEDs connected in parallel to each other is connected to the leads for connecting to the supply source, and the other circuit consists of the first photoreceiver connected optically to the first and second sources of the variable resistor connected in series to the control input of the regulating element, and the second photodetector, optically connected with the third LED, is connected to the ends with leads for connecting the load, and the node for detecting the parameter being stabilized is made in. A series circuit of a resistor and a fourth LED, and the input of the DC amplifier is connected to a common point of additionally connected connected sequences to each other and free ends — with leads for connecting the load of the third and fourth photodetectors, one of which is optically connected to the fourth LED and the other is optically connected with the additionally introduced fifth LED connected via a collector-emitter junction of the additionally introduced transistor to the indicated additional source at the block voltage to form a reference signal. Sources of information taken into account during the examination: 1. USSR author's certificate No. 305548, cl. H O2 P 3/16, 1970. 2.Polin O.V. and others. Optoelectronic devices. M., Energie, 1969 -f o + 0