SU1374210A1 - D.c. voltage protected stabilizer - Google Patents

Abstract

The invention relates to electrical engineering and can be used in equipment powering devices. The purpose of the invention is to increase reliability by providing the ability to operate on a capacitive load. When enabled, the overcurrent protection does not work, because the current source 21 of the optocoupler 17 will not be turned on until the output voltage provides a breakdown of the reference zener diode 16. After the breakdown of the zener diode 16, the optocoupler 17 turns on, the photodetector of which is included in the base circuit of the transistor 19, which, an actuating transistor 10 controlled by a signal from a current sensor 11. 1 il.

Description

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

The purpose of the invention is to increase reliability by providing the ability to work on a capacitive load.

The drawing shows a circuit diagram of a constant voltage stabilizer with protection.

The device contains a regulating transistor 1, a base connected to the collector of the transistor of the feedback amplifier 2 and the collector of the transistor 3 of the current-stabilizing two-pole 4, the display element 5 connected to the limiting resistor 6, which is connected to the cathode of the diode 7, which is connected to the emitter of the transistor 3 by another terminal of the transistor 3 current-stabilizing two-terminal 4 and through its resistor

the house is connected to the base of the transistor 3 of the two-port 4. The light source 21 of the optocoupler 17 is connected between the anode of the reference Zener diode 16 and the negative output terminal.

The device works as follows.

When voltage is applied to the device, the transistor 3 is open and through the control transistor, 1, the load 14 and the current sensor 11 a current flows without a voltage, which ensures that the thyristor 10 is turned on, because the thyristor circuit 10 is broken by the closed transistor 1.9. When the voltage at the load reaches its nominal value and with a steady-state current flowing through the current sensor 11, the Zener diode 16 of the reference voltage is punched. The source 21 of the light of the optoelectronic device 17 receives power. Triggered, optoelectronic photodetector 20

8 - to the collector of the regulating transistor 25. of the device 17 supplies the base of the transistor 1, the cathode of the Zener diode 9 of the P 19 19 unlocking voltage. The post-stabilizing two-terminal 4, another output of the indication element 5 and the positive input terminal of the stabilizer i are connected to the negative input output of the thyristor cathode 10, one of the current terminal of the current sensor 11., and through the current-stabilizing two-terminal 4 resistor 12 - the anode of the zener diode 9 and the base of the two-terminal two terminal of the current-stabilizing two-terminal two terminal of the two-terminal 2 terminal of the current stabilized two tri pole. The base of the transistor of the feedback amplifier 2 is connected to the middle output of the first divider 13 of the output voltage, which is connected to the emitter of the control transistor 1 by one of the terminals, Khodnev terminal for connecting load 14 and one terminal of the second divider 15 the output voltage of the intermediate tap connected to the cathode sta-. the bilitron 16 of the reference voltage and the emitter of the transistor of the amplifier 2. Another terminal of the current sensor 11 is connected to the second terminals of the voltage dividers 13 and 15. An optocoupler 17, a resistor 18 and a transistor 19 are inserted in the stabilizer. The collector transistor 19 is connected to the limiting resistor 6 and the display element 5. The emitter is connected to the anode of the thyristor 10, and the base of the transistor 19 is connected to the output of the photodetector 20 of the optocoupler 17 that the other -g

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wa, tra nzisto; 19 forms a thyristor power supply circuit: 10 and at the latter a control voltage is created, but one in which the thyristor 10 is closed. In this case, the diode 7 is shifted in the opposite direction, since the potential at its anode is lower than at the cathode. The reverse current of the diode 7. does not go through the sensor of the current-stabilizing two-terminal 4, but passes through the transistor 3 without changing its mode of operation, i.e. does not affect the output voltage, and then through the feedback amplifier 2. The leakage current of the thyristor 10 is discharged along the bias circuit of diode 7. The voltage divider 15 sets the threshold for the protection to turn on the thyristor 10. When the current increases to a critical value, the current sensor 11 ensures that the thyristor 10 is turned on. At the same time, the indicator 5 signals. About overload. The current passing through the resistor 8 in the emitter circuit of the transistor 3 and through the diode 7 and resistor 6, as well as the thyristor 10, creates a blocking potential at the control junction of the transistor 3. Transistor 3 is locked. The control transistor 1 is also locked, de-energizing the load circuit 14.

The effectiveness of the proposed device in comparison with the known is to increase the reliability

the operation of the protection unit of the dc voltage stabilizer at the moment of its jump-on on the capacitive load by eliminating the false positives of the protection, due to what. It ensures the reduction of failures and malfunctions of a costly calculator. Noah equipment autonomous objects.

Claims (1)

Invention Formula A protected voltage regulator with protection, containing a series regulating transistor, the base connected to the collector of the transistor of the feedback amplifier and the collector of the current-stabilizing two-pole transistor, the display element connected to the limiting resistor, which is connected to the emitter of the diode, the anode connected to the emitter, which is connected to the emitter by the emitter, which is connected to an emitter with a different terminal, and another terminal connected to the cathode of the diode, the anode connected to the emitting resistor, which is connected to the emitter by the emitter connected to the emitter with the other terminal connected to the emitting diode, an anode connected to the emitting resistor that is connected to the limiting resistor that is connected to an emitting diode, the anode connected to the emitting resistor, which is connected to an emitting diode two-pole and through a current-stabilizing. its two-pole resistor - to the collector of the control transistor, the cathode is stable the itron current-stabilizing two-terminal, the second terminal of the display element and the positive input terminal, and the negative input terminal is connected to the cathode of the thyristor, one of the current sensor's terminals, and through the second resistor of the current-current two-terminal, to the point of connection of the zener diode anode and the base of the current-stabilizing . ten 15 20 35 25 thirty a two-pole circuit, the base of the transistor of the feedback amplifier is connected to the middle output of the first output voltage divider, which is connected to the emitter of the regulating transistor, the positive output terminal and one of the outputs of the second output voltage divider, one output terminal of the coi; ; a bilitron of the reference voltage and an emitter of the transistor of the feedback amplifier, another variable middle output — with the control electrode of the thyristor; and the other output of the current sensor is connected to the second voltage divider and minus output terminals, characterized in that, in order to increase reliability by enabling operation of a capacitive load, a diode optocoupler, a resistor and a transistor are connected to it, which is connected to the indicated combined limiting resistor and display element by an emitter connected to the thyristor anode, and the base of the transistor is connected through the specified resistor to the negative input terminal and to the photodetector output of the optocoupler, which is connected to the base of the other terminal ankistor tokostabilizirnogo lean two-pole, the light source of the optocoupler is connected between the anode of the reference Zener diode and the negative output terminal.