SU1539751A1 - Different-polarity voltage stabilizer - Google Patents

Abstract

The invention relates to electrical engineering and can be used in various power supply devices for electronic equipment. The goal is to increase reliability. To this end, a resistive current sensor 11, a transistor optocoupler 13,12, a diode 16,17 and a resistor 15 are introduced into it. When the load current increases beyond the permissible level, one of the phototransistors of the optocouplers 12,13 turns on, depending on the polarity of the voltage across the resistor 11 to the base of the regulating element 3 (4) a signal arrives, current is limited through the regulating element. With a further increase in current, the luminance of the light emitter of the optocoupler 12 (13) increases dramatically, which leads to unlocking the phototransistor of the same optocoupler, turning on the light emitter of the optocoupler 12 (13), which turns off the different polarity of the reference voltage 9 and locks the regulating elements 3,4 . 1 il.

Description

The invention relates to electrical engineering and can be used in various devices for powering electronic equipment.

The purpose of the invention is to increase reliability.

The drawing shows a schematic diagram of a bipolar voltage stabilizer, 10

The bipolar voltage regulator contains two bipolar input terminals 1 and 2, to each of which are connected the control elements 3 and 4, connected by the output terminals (5 to the output terminal 5. The control terminal of the regulating element 3 (4) is connected to the output of the operational amplifier 6 ₅ the inverting input of which is connected to the midpoint of the output 20 of the divider 7, the extreme terminals of which are connected to the output terminal and to the common bus, the non-inverting input of the operational amplifier 6 is connected through an adjustable divider 8 to the source 9 The device also contains a protection unit 10, consisting of a resistive current sensor 11, included in the common bus, and two trans-transistor optocouplers 12 and 13, made on transistors of different conductivity types, the emitters of which are connected to the input terminal 14 and one of the terminals of the resistive current sensor 11, the bases are connected via resistor 15 to ^ 5 the opposite terminal of the current sensor 11, and the collectors through the decoupling diode 16 (17) are connected to the bases of the regulating elements 4 (3) and through the LED of the opposite optocoupler 12 (13) to in Water appropriate polarity bipolar reference voltage source 9, the outputs of bipolar source 18 are connected to inputs of the power operational amplifier.

The device is working. Following communication. When the current in the load circuit increases above the permissible level, one of the phototransistors of the optocouplers 12 (13) is turned on, depending on the polarity of the voltage across the resistor 11, the corresponding signal arrives at the base of the regulating element 3 (4), current is limited through the corresponding regulating element 3 (4) . When the voltage drop across the recovery unit 11 reaches a certain level, the brightness of the light emitter of the optocoupler 13 (12) sharply increases, which leads to the unlocking of the phototransistor of the same optocoupler, the light emitter of the optocoupler 12 (13) is turned on, which leads to the switching off of a multipolar source of reference voltage 9 and the control elements are locked 3 and 4.

Compared with the known, the proposed technical solution allows locking the regulating elements of both bipolar busbars, thereby increasing the reliability of the protection device as a whole.

Claims (1)

Claim A bipolar voltage regulator containing two bipolar input terminals, to each of which power inputs are connected to regulating elements, the power outputs of which are combined and connected to the output terminal, an output divider whose inputs are connected to the output terminal and to the common bus, and the middle output to the inverting input an operational amplifier, an adjustable divider, the inputs of which are connected to the outputs of a bipolar reference voltage source, and the output to a non-inverting input of an operational amplifier, the output of a cat cerned is connected to the control inputs of the control elements and power inputs - the outputs dvuhpolyarrazom. In normal operation, the voltage drop across the resistive sensor 11 is not enough to turn on the phototransistors of the optocouplers 12 and 13. Depending on the polarity and level of the signal from the adjustable divider 8, the corresponding signal is sent to the control inputs of the regulating elements 3 and 4 from the output of the operational amplifier b, thereby changing the level and polarity of the output voltage source and to the potential inputs of the source of a bipolar reference voltage, the common input of which is connected to a common bus and to a common input of two a polar source, the potential inputs of which are connected to bipolar input terminals, characterized in that, in order to increase reliability, a resistive current sensor, two transistor optocouplers, two diodes and a resistor are introduced, and a resistive current sensor is connected between the common input terminal AND the common by bus, transistor optocouplers are made on phototransistors of different types of conductivity, emitters of phototransistors are connected to a common input terminal, and bases through a resistor are connected to a common bus, collectors of phototransistors through diodes are connected yucheny to the output of the operational usilite6 la, light emitter photocouplers first inputs connected to the outputs of the bipolar reference source naprya5 zheniya, the second input of the first photocoupler light emitter connected to the collector of the phototransistor of the second photocoupler, a second input of the second-light emitter of the optocoupler is connected to the collector, θ phototransistor of the first photocoupler.