SU1453388A1 - D.c. voltage stabilizer - Google Patents

Abstract

The invention relates to electrical engineering and can be used in secondary power sources. The goal is to increase the effectiveness of overcurrent protection. In the nominal mode of operation, the protection transistor 5 is closed, i.e. the unlocking voltage on current sensor 3 is less than the locking voltage on resistor 7. When overloaded, an increase in voltage on sensor 3 leads to unlocking of the transistor 5, which reduces the output voltage and base current of the regulator element 2. the resistor 3 due to the presence of the zener diode 9, which leads to an even greater unlocking of the transistor 5 and the locking of the regulating element 2. Thus, the output voltage decreases abruptly. The stabilizer automatically returns when the overload is removed using resistors 10 and (or) 11. 3 Cp f-ly, 1 ill. (L

Description

The invention relates to electrical ₍ technology and can be used in secondary power sources.

The purpose of the invention is to increase the efficiency of protection against overcurrent and ensuring self-return.

The drawing shows a functional diagram of a DC voltage stabilizer with protection.

The stabilizer contains a current-stabilizing two-terminal 1 connected by the first output to the input terminal, the second to the control input of the regulating element 2, made on a composite transistor and connected in series with the current sensor 3 to the power bus, feedback block 4, protection transistor 5, voltage divider 6, consisting of a resistor 7 connected to the base of the output transistor of the regulating element 2, and a resistor 8 connected in series with the zener diode 9 to a common bus. The resistor 10 is connected in parallel with the zener diode 9, and the resistor 11 is connected in parallel with the base-emitter junction of the protection transistor 5.

The stabilizer works as follows.

In emergency mode, during overload, the voltage on the current sensor 3 reaches a threshold value, the protection transistor 5 opens, the stabilizer exits the stabilization mode and the output voltage begins to decrease. The current flowing through the divider 6 and creating a blocking voltage along the base circuit of the protection transistor 5, due to the introduction of a zener diode 9 decreases faster than the voltage on the current sensor 3, which is proportional to the decrease in the output voltage and is unlocking for the protection transistor 5. As a result, an avalanche-like process of turning on the protection transistor 5 occurs. The output voltage decreases sharply. The current through the divider 6, and hence the locking bias in the base circuit of the protection transistor 5, is reduced to zero. The residual load current is determined by the ratio of the voltages of the base-emitter junctions of the output transistor of the regulating element 2 and the transformer -> torus 5 of the protection.

If the transition voltage of the base-emitter of the output transistor is greater than (or equal to) the transition voltage of the base-emitter of the protection transistor 5, in order to ensure the stabilizer to return to its original state when current overload or short circuit is eliminated with the help of resistor 10 or (and) resistor 11, the working point of the transistor is set 5 protection.

Claims (4)

Claim 1. A DC voltage stabilizer containing a regulating element connected in series with the current sensor to the power bus, a feedback unit connected to the output terminals by inputs and an output to the control input of the regulating element and the collector of the protection transistor, the emitter of which is connected to the output terminal, is resistive a divider, the first output of which is connected to the base of the output transistor of the regulating element, and the middle point is to the base of the protection transistor, characterized in that, in order to increase the efficiency of protection s due to current overloads, a nonlinear element is inserted into it, connected between the second output of the resistive divider and the common bus. 2. The stabilizer according to claim 1, characterized in that, in order to ensure self-return, a first bias resistor is introduced into it, connected to the base of the protection transistor by the first output, and to the emitter of the same transistor by the second output. 3. The stabilizer in π. 1, characterized in that a zener diode is used as a nonlinear element. 4. The stabilizer in π. 1, characterized in that, in order to ensure self-return, a second bias resistor is introduced into it, connected to the second terminal of the resistive divider by the first terminal and to the common bus by the second terminal.