SU756387A1 - Device for protecting voltage stabilizer - Google Patents

Description

The invention relates to electrical engineering and can be applied in power supply devices of computer technology and automation.

Known devices for the protection of the Sta-5 voltage biller £ ΐ} and £ 2}.

The first one contains a measuring resistor, an amplifier, and an executive thyristor included in the stabilizer power bus. · ’Θ

Its disadvantages are low sensitivity, stability and the absence of Current Limiting at the moment of connecting the load.

The second, closest to the invention of the technical essence is the device for protection of the voltage regulator contains two resistors and an operational amplifier, the output of which is connected through a resistor to a non-inverting input.

The device has good sensitivity and allows you to accurately set the level of maximum current. 25

The disadvantage of it is the lack of current limiter at the time of connecting the load.

The aim of the present invention is to obtain current limiting in the chain

load at the time of its connection to the stabilizer.

This goal is achieved by the fact that the device for protection of the voltage regulator, containing two resistors and an operational amplifier, the output of which is connected through a resistor with a non-inverting input, has three resistors, a transistor, a controlled key and a single-shot, and two resistors are connected to the inverting input of the operational amplifier, the other terminals of which are connected to the reference voltage source and the current sensor, respectively, the output of the operational amplifier through the third resistor is connected to the base of the transistor, emitte which is connected to the power bus of the voltage regulator, and the collector is the output of the device, besides this, the output of the operational amplifier is connected via a series-controlled switch and the fourth resistor to a non-inverted input, which is connected to the power bus through the fifth resistor, and the one-shot output is connected to the input of a controlled switch .

FIG. 1 is a schematic diagram of the device to protect stabili756387

voltage congestion; in fig. 2 - starting characteristics of the device.

The device for protection consists of an operational amplifier 1 with resistors 2 and 3 connected to the inverting input, a resistor 4 connecting the non-inverting input to the power 5 stabilizer bus, a resistor 5 connecting the output of the operating amplifier 1 to the base of the transistor b, the emitter of which is also connected to the power a stabilizer bus, resistor 7 connected in series and a controlled switch 8 connected to the output and non-inverting input of the operational amplifier 1, and a single-oscillator 9 having a control circuit and an output connected oo input of the control switch 8.

The proposed device works as follows. Current sensor voltages (for example, resistor, 20

a stabilizer included in the power bus, as shown by the dotted line in FIG. 1) through the resistor 3 is fed to the inverting input of the operational amplifier 1 (the voltage has a positive polarity for the type of transistor b shown). In addition, the amplifier 1 is connected to a resistor 2 connected to a voltage source, the polarity is opposite to the polarity of the voltage and ^, and the ratings of resistors 2 and 3 are chosen so that when the load current is Hz - T _M0k was equal to zero. The potential of the non-inverting input due to the resistor 4 is zero, therefore the potential of the amplifier 1 is also zero. The control key 8 is closed, but the current through the resistor 7 does not flow, so positive feedback does not affect the operation of the circuit.

With an increase in the load of the current I, the potential of the inverting input becomes positive and due to the large gain of the operational amplifier 1, a large voltage of negative polarity appears at its output. The circuit of the positive communication link 06-59 is switched on and the cascade “snaps” in such a way that even when U = 0

(load current is zero) output. the voltage of the operational amplifier 1 is negative and is equal to the maximum for the selected type of amplifier. With this voltage through the resistor 5, the transistor 6 is saturated and acts on the control circuits of the voltage regulator.

The circuit is reset by removing the supply voltage.

In the mode, when 1 _N <1 _IOM , the potential of the inverting input is negative, and the output voltage of the operational amplifier 1 is positive. Transistor

6 is closed and does not affect the control circuits of the stabilizer.

The current limiting mode is ensured by the fact that when a load is connected or the loaded stabilizer is switched on, a one-shot 9 is started. The duration of a one-shot pulse is chosen slightly longer than the time for establishing the nominal load resistance. With the impulse from the Novibrator 9, the control key 8 closes, breaking the positive feedback circuit. As a result, the negative voltage at the output of the operational amplifier 1 through the transistor 6 acts proportionally on the regulator circuits of the stabilizer, reducing its output voltage to a value that ensures equality 1 _H * 1 _ΗσρΛ . At the end of the interval. ^ Positive feedback is restored. If by this time the load resistance is set to the nominal 8 _IPM | TO the stabilizer provides the nominal voltage. If K _and <K _number , then the protection is triggered and disconnects the load. In the case of a decrease in the load current below

the trigger stage “snaps” the positive voltage at the output of the operational amplifier.

In the case of the uselessness of this mode in series with the key, it is possible to turn on the diode, as shown by the symbol in FIG. 1. In this case, the positive feedback circuit only works in the event of a current overload and does not respond to a decrease in current.

FIG. 2 shows the starting characteristics of the device without current limiting mode (1) and with current limiting mode (2).

In the first case, the output voltage of the stabilizer is constant and =

= H _nom = εοπδί, and in the second, this equality is true for time> ί. In the same interval, h i = 1 _H0 mK _to ί g 4 and _Mr. , where (s) is the varying load resistance.

Claims (1)

Claim A device for protecting a voltage regulator containing two resistors and an operational amplifier whose output is connected through a resistor to its non-inverting input, characterized in that, for the purpose of current limitation in the load circuit, at the time it is connected to the stabilizer, three resistors are inserted into it, a controlled key and a one-shot; two resistors are connected to the inverting input of the operational amplifier, the other terminals of which are connected to the voltage source and the current sensor, respectively, the output is 5 7563876 the fifth resistor is connected to power shea but the one-shot output is connected with the input of a managed key.