SU744520A1 - Protected dc voltage stabilizer - Google Patents

Description

(54) CONSTANT VOLTAGE STABILIZER

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The invention relates to electrical engineering and can be used in power supply devices for automation units, computer engineering and communication devices.

A stabilizer is known which contains a transistor regulating element j connected by a control electrode to the output of a feedback unit and a protection unit providing for switching off the output voltage when the input voltage drops below a predetermined value 1.

The disadvantages of this stabilizer are the low sensitivity of the protection circuit to overcurrent and the lack of automatic switching on the output voltage when the input voltage rises above the set value.

Closest to the invention in technical terms is a stabilizer that contains a regulating element connected between the first input and first output terminals, a feedback unit connected by an input to the first output clamp, and an output from the control electrode of a series regulating element resistive current sensor connected between the second input and output clamps WITH PROTECTION

Mami, a differential protection amplifier and the first auxiliary power source connected by one output to the second input terminal, and the other to the first power supply terminal of the differential protection amplifier, one input of which is connected parallel to the resistive current sensor and the second to the middle point of the protection divider connected in parallel to the first auxiliary power source 2.

This stabilizer has a high sensitivity to overcurrent, “o does not automatically turn off the output voltage when the input voltage drops below a predetermined level:

The purpose of the invention is to expand the functionality by turning off the output voltage while reducing the input voltage or load resistance below a predetermined level and automatically turning it on to three input voltage and load resistance values simultaneously above the specified values.

Claims (1)

The goal is achieved by introducing four voltage dividers on resistors, a first zener diode, an auxiliary differential amplifier, first and second switching blocks, a second auxiliary power supply, first, second and third diodes, a bias resistor, and a DC voltage regulator. a stabilizing element on the second Zener diode and a gus-resistor; the first and second switching blocks are connected to the first auxiliary source with the power terminals; the first power terminal is auxiliary Differential differential amplifier is connected to the first power terminal of the differential amplifier, and the second power terminals of both differential amplifiers are connected to the output of the stabilizing element connected to the auxiliary power supply, the first terminal of which, together with one choice of the second Zener diode, is connected to the second input terminal an auxiliary differential amplifier is connected to the second output terminal, the first voltage divider is connected between the first one terminal and the second terminal of the second auxiliary power source, and its midpoint is connected via the first diode to the first input of the auxiliary differential amplifier, also connected via the bias resistor to the first, and through the second diode to the second output terminal, to the input of the first the switching unit, the second voltage divider is connected between the first input terminal and the junction point of the first zener diode and the first power terminal of the reverse unit Another connection, the other output of the Zener Zener diode and the second power terminal of the feedback unit is connected to the second input terminal, the middle point of the second divider is connected to the first output of the first switching unit, the third divider is connected between the second power terminals of the differential amplifiers and the second output terminal, and its middle point is connected to the second input of the auxiliary differential amplifier, the first input of the second switching unit is connected to the second output of the first switching unit, and the second oh - yield protect differential amplifier, a first output vtorog switching unit is connected via a third diode to the control electrode consecutively Yelnia regulating member, and the second midpoint -k fourth divider including | 1nogo between the first output terminal and the second power terminals of differential amplifiers. The drawing shows a circuit diagram of a stabilizer. The stabilizer contains a regulating element 1, including Yukchenny between the first input 2 and the first output 3 terminals, the feedback unit 4 is connected by an input with the first output terminal 3, and the output with the control electrode of the regulating element G, a resistive current sensor 5 connected between the second input 6 and second output 7 terminals, the differential amplifier 8 protects and the first auxiliary power supply 9, connected by one output to the second input terminal 6, and the other to the first power supply terminal of the differential protection amplifier 8, input 1 0 which is parallel to the resistive current sensor 5, and the other 11 to the midpoint of the protection divider 12 connected in parallel to the first auxiliary power source 9, the first 13 and the second 14 switching blocks connected by power terminals to the first auxiliary power source 9, the auxiliary differential the amplifier 15, the first power terminal of which is connected to the first power terminal of the differential protection amplifier 8, and the second power terminals of the differential 5-amplifiers 8 and 15 are connected to the output of the stable element 16, made on the quenching resistor 17 and the second zener diode 18 and connected by an input to the second osc power source 19, the first terminal of which, together with one output of the second zener diode 18, is connected to the second input terminal 6, the common point of the auxiliary differential amplifier 15 is connected to the second output terminal 7, the first divider voltage 20, connected between the first input terminal 2 and the second terminal of the auxiliary source 19 ptami, and the midpoint through the first diode 21 to the first input auxiliary differential amplifier 15, also connected via a bias resistor 22 to the first 3, and through the second diode 23 to the second 7 output terminals, the output of the auxiliary differential amplifier 15 is connected to the input of the first switching unit 13, the second voltage divider 24 connected between the first input terminal 2 and the connection point of the first Zener diode 25 and the first power terminal of the feedback unit 4, and the other output of the first Zener diode 25 and the second power terminal of the feedback unit 4 is connected to the second one terminal 6, the middle point of the second divider 24 is connected to the first output of the first switching unit 13, the third divider 26 is connected between the second power terminals of the differential amplifiers 8 and 15 n the second output terminal 7, and its middle point is connected to the second input of the auxiliary differential amplifier 15, the first input of the second switching unit 14 is connected to the second output of the first switching unit 13, and the second to the output of the differential protection amplifier 8, its first output connected through the third diode 27 to the control electrode of the regulating element |, and the second to the midpoint of the fourth divider 28 connected between the first output terminal 3 and the second terminals of the differential Insulators 8 and 15. The stabilizer operates as follows. When the input voltage varies within the specified limits, the stabilizer maintains the output voltage at terminals 3 and 7 at the required level. In this case, the potentials of the middle pins of the first 20 and third 26 voltage dividers applied to the inputs of the auxiliary differential amplifier 15 determine the polarity of its output voltage, which sets the first switching unit 13 to the first stable state, at which the middle point of the second divider 24 is turned off from the second output terminal 7. In normal operation mode, the output voltage of the differential protection amplifier 8 sets the second switching unit 14 to the first steady state, in which it is not affected t to work stabilizer. When nepefpy3j e is over current, the differential protection amplifier 8 switches the second switching unit 14 to the second steady state, the middle point of the divider 28 is turned off, and the control electrode of the regulating element 1 is connected via diode 27 to the second input terminal. Regulator 1 closes and disconnects the input voltage from the load. At the first output terminal 3, a potential appears, which is determined by the voltage drop on the load resistance from the current flowing through the circuit: the first output of the second auxiliary power source 19, the resistive current sensor 5 second output terminal 7; load resistance; first output terminal 3; fourth divider 28; damping resistor 17; second output of the second auxiliary source 19 of power. This potential is fed through the bias resistor 22 to the first input of the auxiliary differential amplifier 15. The voltage of the second auxiliary source 19 and the resistance values of the dividers 26, 28 and the bias resistor 22 are chosen such that when the load resistance values are lower than the required value, the auxiliary differential amplifier 15 holds the first the switching unit 13 is in the initial state. When the load resistance is restored to the level of the required value, the auxiliary differential amplifier 15 switches the first switching unit 3 to the second steady state, in which the middle point of the second divider 24 is connected to the second output terminal 7, and THIS takes the voltage from the feedback unit 4 and the second switching unit 14 switches to the first steady state, in which the control of the electrolysis of the regulating element I is turned off, and the midpoint of the fourth divider 28 is connected to the second The input terminal is 6, and the potential is from the first output terminal 3. However, the stabilizer is not activated, since the power is removed from the feedback unit 4. The ratio of the shoulders of the first 20 and third 26 dividers is Bbi6paiFo in such a way that when the input voltage is taken out, the auxiliary differentiation amplifier | 15 sets the first switching unit 13 to the first steady state, in which the midpoint of the second divider 24 is disconnected from the second output terminal 7 and to the unit 4 rpm p 5, and the supply voltage is applied. The stabilizer is turned on. If, during the operation of the stabilizer, its input voltage drops below a predetermined voltage, the auxiliary differential amplifier 15 switches the first switching unit 13 to the second steady state, thereby removing the supply voltage from the feedback unit 4, the stabilizer turns off. Re-activation of the stabilizer occurs only with an increase in the input voltage above a predetermined level. DETAILED DESCRIPTION OF THE INVENTION A voltage protected voltage regulator with protection comprising a regulating element connected between the first input and first output terminals, a feedback unit connected by an input to the first output terminal, and an output from the control electrode of the regulating element, a resistive current sensor connected between the second input and output terminals, a differential protection amplifier and the first auxiliary power source connected by one output to the second input terminal and the other to the first power supply terminal a differential protection amplifier, one input of which is connected in parallel with the resistive current sensor, and the second to midpoint protection divider connected in parallel with the first auxiliary power source, characterized in that, in order to extend the functionality by turning off; the output voltage when the input voltage decreases or the load resistance is below the prescribed level and automatically turned on at the input voltage and load resistance values, which are simultaneously higher than the specified values, the voltage divider on the resistors are entered in neio.